Thrombosis

A commonly prescribed direct oral anticoagulant (DOAC) has the lowest risk of bleeding, say researchers. Used to prevent strokes in those with atrial fibrillation (AFib), DOACs have recently become more common than warfarin, the previous standard treatment, as they do not require as much follow-up monitoring – which was “particularly valuable” during the COVID-19 pandemic – and have “less risk” of side effects, highlighted the authors of a new study, published in Annals of Internal Medicine.

However, the authors explained that, although current guidelines recommend using DOACs over warfarin in patients with AFib, “head-to-head trial data do not exist to guide the choice of DOAC.” So, they set out to try and fill this evidence gap by doing a large-scale comparison between all DOACs – apixaban, dabigatran, edoxaban, and rivaroxaban – in routine clinical practice.

Wallis Lau, PhD, University College London, and co–lead author, said: “Direct oral anticoagulants have been prescribed with increasing frequency worldwide in recent years, but evidence comparing them directly has been limited.”
 

One drug stood out

For the multinational population-based cohort study the researchers compared the efficacy and risk of side effects for the four most common DOACs. They reviewed data – from five standardized electronic health care databases that covered 221 million people in the United Kingdom, France, Germany, and the United States – of 527,226 patients who had been newly diagnosed with AFib between 2010 and 2019, and who had received a new DOAC prescription. The study included 281,320 apixaban users, 61,008 dabigatran users, 12,722 edoxaban users, and 172,176 rivaroxaban users.

Database-specific hazard ratios of ischemic stroke or systemic embolism, intracranial hemorrhage, gastrointestinal bleeding, and all-cause mortality between DOACs were estimated using a Cox regression model stratified by propensity score and pooled using a random-effects model.

In total, 9,530 ischemic stroke or systemic embolism events, 841 intercranial hemorrhage events, 8,319 gastrointestinal bleeding events, and 1,476 deaths were identified over the study follow-up. The researchers found that all four drugs were comparable on outcomes for ischemic stroke, intercranial hemorrhage, and all-cause mortality.

However, they identified a difference in the risk of gastrointestinal bleeding, which they highlighted “is one of the most common and concerning side effects of DOACs.”

“Apixaban stood out as having lower risk of gastrointestinal bleeding,” said the authors, with a 19%-28% lower risk when compared directly with each of the other three DOACs. Specifically, apixaban use was associated with lower risk for gastrointestinal bleeding than use of dabigatran (HR, 0.81; 95% confidence interval, 0.70-0.94), edoxaban (HR, 0.77; 95% CI, 0.66-0.91), or rivaroxaban (HR, 0.72; 95% CI, 0.66-0.79).

The researchers also highlighted that their findings held true when looking at data only from those aged over 80, and those with chronic kidney disease, two groups that are “often underrepresented” in clinical trials.
 

Apixaban may be preferable

The researchers concluded that, among patients with AFib, apixaban use was associated with lower risk for gastrointestinal bleeding and similar rates of ischemic stroke or systemic embolism, intracranial hemorrhage and all-cause mortality, compared with dabigatran, edoxaban, and rivaroxaban.

“Our results indicate that apixaban may be preferable to other blood thinners because of the lower rate of gastrointestinal bleeding and similar rates of stroke, a finding that we hope will be supported by randomized controlled trials,” said Dr. Lau.

However, he emphasized that, “as with all medications, potential risks and benefits can differ between people, so considering the full spectrum of outcomes and side effects will still be necessary for each individual patient.”

The authors all declared no conflicting interests.

A version of this article first appeared on Medscape UK.

A commonly prescribed direct oral anticoagulant (DOAC) has the lowest risk of bleeding, say researchers. Used to prevent strokes in those with atrial fibrillation (AFib), DOACs have recently become more common than warfarin, the previous standard treatment, as they do not require as much follow-up monitoring – which was “particularly valuable” during the COVID-19 pandemic – and have “less risk” of side effects, highlighted the authors of a new study, published in Annals of Internal Medicine.

However, the authors explained that, although current guidelines recommend using DOACs over warfarin in patients with AFib, “head-to-head trial data do not exist to guide the choice of DOAC.” So, they set out to try and fill this evidence gap by doing a large-scale comparison between all DOACs – apixaban, dabigatran, edoxaban, and rivaroxaban – in routine clinical practice.

Wallis Lau, PhD, University College London, and co–lead author, said: “Direct oral anticoagulants have been prescribed with increasing frequency worldwide in recent years, but evidence comparing them directly has been limited.”
 

One drug stood out

For the multinational population-based cohort study the researchers compared the efficacy and risk of side effects for the four most common DOACs. They reviewed data – from five standardized electronic health care databases that covered 221 million people in the United Kingdom, France, Germany, and the United States – of 527,226 patients who had been newly diagnosed with AFib between 2010 and 2019, and who had received a new DOAC prescription. The study included 281,320 apixaban users, 61,008 dabigatran users, 12,722 edoxaban users, and 172,176 rivaroxaban users.

Database-specific hazard ratios of ischemic stroke or systemic embolism, intracranial hemorrhage, gastrointestinal bleeding, and all-cause mortality between DOACs were estimated using a Cox regression model stratified by propensity score and pooled using a random-effects model.

In total, 9,530 ischemic stroke or systemic embolism events, 841 intercranial hemorrhage events, 8,319 gastrointestinal bleeding events, and 1,476 deaths were identified over the study follow-up. The researchers found that all four drugs were comparable on outcomes for ischemic stroke, intercranial hemorrhage, and all-cause mortality.

However, they identified a difference in the risk of gastrointestinal bleeding, which they highlighted “is one of the most common and concerning side effects of DOACs.”

“Apixaban stood out as having lower risk of gastrointestinal bleeding,” said the authors, with a 19%-28% lower risk when compared directly with each of the other three DOACs. Specifically, apixaban use was associated with lower risk for gastrointestinal bleeding than use of dabigatran (HR, 0.81; 95% confidence interval, 0.70-0.94), edoxaban (HR, 0.77; 95% CI, 0.66-0.91), or rivaroxaban (HR, 0.72; 95% CI, 0.66-0.79).

The researchers also highlighted that their findings held true when looking at data only from those aged over 80, and those with chronic kidney disease, two groups that are “often underrepresented” in clinical trials.
 

Apixaban may be preferable

The researchers concluded that, among patients with AFib, apixaban use was associated with lower risk for gastrointestinal bleeding and similar rates of ischemic stroke or systemic embolism, intracranial hemorrhage and all-cause mortality, compared with dabigatran, edoxaban, and rivaroxaban.

“Our results indicate that apixaban may be preferable to other blood thinners because of the lower rate of gastrointestinal bleeding and similar rates of stroke, a finding that we hope will be supported by randomized controlled trials,” said Dr. Lau.

However, he emphasized that, “as with all medications, potential risks and benefits can differ between people, so considering the full spectrum of outcomes and side effects will still be necessary for each individual patient.”

The authors all declared no conflicting interests.

A version of this article first appeared on Medscape UK.

A commonly prescribed direct oral anticoagulant (DOAC) has the lowest risk of bleeding, say researchers. Used to prevent strokes in those with atrial fibrillation (AFib), DOACs have recently become more common than warfarin, the previous standard treatment, as they do not require as much follow-up monitoring – which was “particularly valuable” during the COVID-19 pandemic – and have “less risk” of side effects, highlighted the authors of a new study, published in Annals of Internal Medicine.

However, the authors explained that, although current guidelines recommend using DOACs over warfarin in patients with AFib, “head-to-head trial data do not exist to guide the choice of DOAC.” So, they set out to try and fill this evidence gap by doing a large-scale comparison between all DOACs – apixaban, dabigatran, edoxaban, and rivaroxaban – in routine clinical practice.

Wallis Lau, PhD, University College London, and co–lead author, said: “Direct oral anticoagulants have been prescribed with increasing frequency worldwide in recent years, but evidence comparing them directly has been limited.”
 

One drug stood out

For the multinational population-based cohort study the researchers compared the efficacy and risk of side effects for the four most common DOACs. They reviewed data – from five standardized electronic health care databases that covered 221 million people in the United Kingdom, France, Germany, and the United States – of 527,226 patients who had been newly diagnosed with AFib between 2010 and 2019, and who had received a new DOAC prescription. The study included 281,320 apixaban users, 61,008 dabigatran users, 12,722 edoxaban users, and 172,176 rivaroxaban users.

Database-specific hazard ratios of ischemic stroke or systemic embolism, intracranial hemorrhage, gastrointestinal bleeding, and all-cause mortality between DOACs were estimated using a Cox regression model stratified by propensity score and pooled using a random-effects model.

In total, 9,530 ischemic stroke or systemic embolism events, 841 intercranial hemorrhage events, 8,319 gastrointestinal bleeding events, and 1,476 deaths were identified over the study follow-up. The researchers found that all four drugs were comparable on outcomes for ischemic stroke, intercranial hemorrhage, and all-cause mortality.

However, they identified a difference in the risk of gastrointestinal bleeding, which they highlighted “is one of the most common and concerning side effects of DOACs.”

“Apixaban stood out as having lower risk of gastrointestinal bleeding,” said the authors, with a 19%-28% lower risk when compared directly with each of the other three DOACs. Specifically, apixaban use was associated with lower risk for gastrointestinal bleeding than use of dabigatran (HR, 0.81; 95% confidence interval, 0.70-0.94), edoxaban (HR, 0.77; 95% CI, 0.66-0.91), or rivaroxaban (HR, 0.72; 95% CI, 0.66-0.79).

The researchers also highlighted that their findings held true when looking at data only from those aged over 80, and those with chronic kidney disease, two groups that are “often underrepresented” in clinical trials.
 

Apixaban may be preferable

The researchers concluded that, among patients with AFib, apixaban use was associated with lower risk for gastrointestinal bleeding and similar rates of ischemic stroke or systemic embolism, intracranial hemorrhage and all-cause mortality, compared with dabigatran, edoxaban, and rivaroxaban.

“Our results indicate that apixaban may be preferable to other blood thinners because of the lower rate of gastrointestinal bleeding and similar rates of stroke, a finding that we hope will be supported by randomized controlled trials,” said Dr. Lau.

However, he emphasized that, “as with all medications, potential risks and benefits can differ between people, so considering the full spectrum of outcomes and side effects will still be necessary for each individual patient.”

The authors all declared no conflicting interests.

A version of this article first appeared on Medscape UK.

Patients with acute ischemic stroke presenting late at the hospital can be selected for endovascular thrombectomy by the presence of collateral flow on CT angiography (CTA), a new study shows.

The MR CLEAN-LATE trial found that patients selected for thrombectomy in this way had a greater chance of a better functional outcome than patients who did not receive endovascular therapy.

The study was presented at the 14th World Stroke Congress in Singapore by study investigator Susanne Olthuis, MD, of Maastricht (the Netherlands) University Medical Center.

Patients in the intervention group were more likely to show a benefit on the primary endpoint of modified Rankin Scale (mRS) score at 90 days with a significant common odds ratio of 1.68, a finding that received applause from attendees of the plenary WSC session at which the study was presented.

“This means that patients treated with endovascular therapy in this trial had about a 1.7 times higher chance of achieving a better functional outcome at 90 days,” Dr. Olthuis said.

“Selection based on collateral flow identifies an additional group of patients eligible for late-window endovascular therapy in addition to those eligible based on perfusion and clinical criteria,” Dr. Olthuis concluded.

“We recommend implementation of collateral selection in routine clinical practice as it is time efficient. The CTA is already available, and it involves a low-complexity assessment. The only distinction that needs to be made is whether or not there are any collaterals visible on CTA. If collaterals are absent or there is any doubt, then CT perfusion [CTP] imaging can still be used,” she added.

Co–principal investigator Wim H. van Zwam, MD, interventional radiologist at Maastricht, said in a comment:“My take-home message is that now in the late window we can select patients based on the presence of collaterals on CT angiography, which makes selection easier and faster and more widely available.

“If any collaterals are seen – and that is easily done just by looking at the CTA scan – then the patient can be selected for endovascular treatment,” Dr. van Zwam added. “We don’t need to wait for calculations of core and penumbra volumes from the CTP scan. There will also be additional patients who can benefit from endovascular therapy who do not fulfill the CTP criteria but do have visible collaterals.”

Explaining the background to the study, Dr. Olthuis noted that endovascular thrombectomy for large vessel occlusion stroke is safe and effective if performed within 6 hours and the effect then diminishes over time. In the original trial of endovascular treatment, MR CLEAN, patients with higher collateral grades had more treatment benefit, leading to the hypothesis that the assessment of collateral blood flow could help identify patients who would still benefit in the late time window.

The current MR CLEAN-LATE trial therefore set out to compare safety and efficacy of endovascular therapy in patients with acute ischemic stroke in the anterior circulation presenting within 6-24 hours from symptom onset with patients selected based on the presence of collateral flow on CTA.

At the time the trial was starting, the DAWN and DEFUSE 3 trials reported showing benefit of endovascular therapy in patients presenting in the late window who had been selected for endovascular treatment based on a combination of perfusion imaging and clinical criteria, so patients who fitted these criteria were also excluded from MR CLEAN-LATE as they would now be eligible for endovascular therapy under the latest clinical guidelines. 

But the study continued, as “we believed collateral selection may still be able to identify an additional group of patients that may benefit from endovascular therapy in the late window,” Dr. Olthuis said.

The trial randomly assigned 502 such patients with a National Institutes of Health Stroke Scale (NIHSS) score of at least 2 and with collateral flow grades of 1-3 to receive endovascular therapy (intervention) or control.

Safety data showed a slightly but nonsignificantly higher mortality rate at 90 days in the control group (30%) versus 24% in the intervention group.

The rate of symptomatic intracranial hemorrhage was higher in the intervention group (6.7%) versus 1.6% in the control group, but Dr. Olthuis pointed out that the rate of sICH in the intervention group was similar to that in the endovascular groups of the DAWN and DEFUSE 3 trials.

The primary endpoint – mRS score at 90 days – showed a shift toward better outcome in the intervention group, with an adjusted common OR of 1.68 (95% confidence interval, 1.21-2.33).

The median mRS score in the intervention group was 3 (95% CI, 2-5) versus 4 (95% CI, 2-6) in the control group.

Secondary outcomes also showed benefits for the intervention group for the endpoints of mRS score 0-1 versus 2-6 (OR, 1.63); mRS 0-2 versus 3-6 (OR 1.54); and mRS 0-3 versus 4-6 (OR, 1.74).

In addition, NIHSS score was reduced by 17% at 24 hours and by 27% by 5-7 days or discharge in the intervention group. Recanalization at 24 hours was also improved in the intervention group (81% vs. 52%) and infarct size was reduced by 32%.

Dr. Olthuis explained that collateral grade was defined as the amount of collateral flow in the affected hemisphere as a percentage of the contralateral site, with grade 0 correlating to an absence of collaterals (and these were the only patients excluded).

Grade 1 included patients with 50% or less collaterals, grade 2 more than 50%, and grade 3 excellent collaterals – around 100%. “We included grade 1, 2 and 3, and subgroup analysis suggested no treatment interactions between different collateral grades in the patients included,” she said.

Dr. van Zwam noted that there has been evidence from other studies suggesting that the presence of collateral flow could be used to select patients for late thrombectomy, but MR CLEAN-LATE is the first randomized trial to show this and provides confirmation that this strategy is valid.

“Our results show that patients can be selected with just standard CT angiography imaging and that CT perfusion is not necessary. This will make it easier and faster to select patients especially for centers in low-resource areas who do not yet have CT perfusion imaging,” he commented.

“But even in centers where CT perfusion imaging is performed, these results should mean that we do not have to wait to analyze these results before going ahead with thrombectomy. It will also give us an additional tool, as some patients do not meet the criteria on perfusion imaging but still have identifiable collaterals and thus would now qualify for endovascular thrombectomy,” he added.
 

Could collateral assessment replace CT perfusion?

Commenting on the MR CLEAN-LATE trial, Stefan Kiechl, MD, Medical University of Innsbruck (Austria), who is cochair of the WSC scientific committee, said it was an “excellent study.”

“This study does not rely on advanced imaging (e.g., mismatch) and criteria can easily be interpreted on CT/CTA. If the study is published and all details are available this study may substantially ease endovascular therapy in the late time window,” Dr. Kiechl told this news organization.

Also commenting, Urs Fischer, MD, chairman of the department of neurology at the University Hospital Basel (Switzerland), who was not involved with MR CLEAN-LATE, said: “This is another study that has nicely shown that endovascular therapy in patients in the later time window is highly effective.”

Dr. Fischer said he was not surprised by the results. 

“I was expecting the trial to be positive,” he said. “What we can say is that endovascular therapy in patients with proximal vessel occlusion is a very effective intervention – probably one of the most important interventions in the history of medicine – and now we have another subgroup to whom we can offer this therapy. So, this is an important study that will improve the outcome of many further patients.”

Yvo Roos, MD, professor of acute neurology at University Medical Center, Amsterdam, who was a MR CLEAN-LATE investigator, agreed that the trial has the potential to increase number of patients who can be treated with endovascular therapy.

But both Dr. Roos and Dr. Fischer were not convinced that collateral assessment would replace CT perfusion as the first-line choice in selecting patients for endovascular treatment.

“We need to see what kind of patients were included in the trial and what kind of perfusion imaging characteristics they had, to see how they compare with patients selected by perfusion imaging,” Dr. Roos noted. “I think CT perfusion is here. But if the data shows that collateral score is better able to identify patients for endovascular treatment than CT perfusion, then this has the potential to change practice. But that needs to be shown.”

All patients screened for the MR CLEAN-LATE trial also received CT perfusion imaging as part of the standard imaging protocol, and many were selected for endovascular therapy directly on this basis, so would not have entered the trial. The researchers plan to analyze these results and to compare how the two approaches differ.

MR CLEAN-LATE is an investigator-driven study, funded by the Dutch Heart Foundation, the Brain Foundation Netherlands, and Medtronic. The study was designed and conducted, analyzed, and interpreted by the investigators independently of all sponsors. Dr. Olthuis reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Patients with acute ischemic stroke presenting late at the hospital can be selected for endovascular thrombectomy by the presence of collateral flow on CT angiography (CTA), a new study shows.

The MR CLEAN-LATE trial found that patients selected for thrombectomy in this way had a greater chance of a better functional outcome than patients who did not receive endovascular therapy.

The study was presented at the 14th World Stroke Congress in Singapore by study investigator Susanne Olthuis, MD, of Maastricht (the Netherlands) University Medical Center.

Patients in the intervention group were more likely to show a benefit on the primary endpoint of modified Rankin Scale (mRS) score at 90 days with a significant common odds ratio of 1.68, a finding that received applause from attendees of the plenary WSC session at which the study was presented.

“This means that patients treated with endovascular therapy in this trial had about a 1.7 times higher chance of achieving a better functional outcome at 90 days,” Dr. Olthuis said.

“Selection based on collateral flow identifies an additional group of patients eligible for late-window endovascular therapy in addition to those eligible based on perfusion and clinical criteria,” Dr. Olthuis concluded.

“We recommend implementation of collateral selection in routine clinical practice as it is time efficient. The CTA is already available, and it involves a low-complexity assessment. The only distinction that needs to be made is whether or not there are any collaterals visible on CTA. If collaterals are absent or there is any doubt, then CT perfusion [CTP] imaging can still be used,” she added.

Co–principal investigator Wim H. van Zwam, MD, interventional radiologist at Maastricht, said in a comment:“My take-home message is that now in the late window we can select patients based on the presence of collaterals on CT angiography, which makes selection easier and faster and more widely available.

“If any collaterals are seen – and that is easily done just by looking at the CTA scan – then the patient can be selected for endovascular treatment,” Dr. van Zwam added. “We don’t need to wait for calculations of core and penumbra volumes from the CTP scan. There will also be additional patients who can benefit from endovascular therapy who do not fulfill the CTP criteria but do have visible collaterals.”

Explaining the background to the study, Dr. Olthuis noted that endovascular thrombectomy for large vessel occlusion stroke is safe and effective if performed within 6 hours and the effect then diminishes over time. In the original trial of endovascular treatment, MR CLEAN, patients with higher collateral grades had more treatment benefit, leading to the hypothesis that the assessment of collateral blood flow could help identify patients who would still benefit in the late time window.

The current MR CLEAN-LATE trial therefore set out to compare safety and efficacy of endovascular therapy in patients with acute ischemic stroke in the anterior circulation presenting within 6-24 hours from symptom onset with patients selected based on the presence of collateral flow on CTA.

At the time the trial was starting, the DAWN and DEFUSE 3 trials reported showing benefit of endovascular therapy in patients presenting in the late window who had been selected for endovascular treatment based on a combination of perfusion imaging and clinical criteria, so patients who fitted these criteria were also excluded from MR CLEAN-LATE as they would now be eligible for endovascular therapy under the latest clinical guidelines. 

But the study continued, as “we believed collateral selection may still be able to identify an additional group of patients that may benefit from endovascular therapy in the late window,” Dr. Olthuis said.

The trial randomly assigned 502 such patients with a National Institutes of Health Stroke Scale (NIHSS) score of at least 2 and with collateral flow grades of 1-3 to receive endovascular therapy (intervention) or control.

Safety data showed a slightly but nonsignificantly higher mortality rate at 90 days in the control group (30%) versus 24% in the intervention group.

The rate of symptomatic intracranial hemorrhage was higher in the intervention group (6.7%) versus 1.6% in the control group, but Dr. Olthuis pointed out that the rate of sICH in the intervention group was similar to that in the endovascular groups of the DAWN and DEFUSE 3 trials.

The primary endpoint – mRS score at 90 days – showed a shift toward better outcome in the intervention group, with an adjusted common OR of 1.68 (95% confidence interval, 1.21-2.33).

The median mRS score in the intervention group was 3 (95% CI, 2-5) versus 4 (95% CI, 2-6) in the control group.

Secondary outcomes also showed benefits for the intervention group for the endpoints of mRS score 0-1 versus 2-6 (OR, 1.63); mRS 0-2 versus 3-6 (OR 1.54); and mRS 0-3 versus 4-6 (OR, 1.74).

In addition, NIHSS score was reduced by 17% at 24 hours and by 27% by 5-7 days or discharge in the intervention group. Recanalization at 24 hours was also improved in the intervention group (81% vs. 52%) and infarct size was reduced by 32%.

Dr. Olthuis explained that collateral grade was defined as the amount of collateral flow in the affected hemisphere as a percentage of the contralateral site, with grade 0 correlating to an absence of collaterals (and these were the only patients excluded).

Grade 1 included patients with 50% or less collaterals, grade 2 more than 50%, and grade 3 excellent collaterals – around 100%. “We included grade 1, 2 and 3, and subgroup analysis suggested no treatment interactions between different collateral grades in the patients included,” she said.

Dr. van Zwam noted that there has been evidence from other studies suggesting that the presence of collateral flow could be used to select patients for late thrombectomy, but MR CLEAN-LATE is the first randomized trial to show this and provides confirmation that this strategy is valid.

“Our results show that patients can be selected with just standard CT angiography imaging and that CT perfusion is not necessary. This will make it easier and faster to select patients especially for centers in low-resource areas who do not yet have CT perfusion imaging,” he commented.

“But even in centers where CT perfusion imaging is performed, these results should mean that we do not have to wait to analyze these results before going ahead with thrombectomy. It will also give us an additional tool, as some patients do not meet the criteria on perfusion imaging but still have identifiable collaterals and thus would now qualify for endovascular thrombectomy,” he added.
 

Could collateral assessment replace CT perfusion?

Commenting on the MR CLEAN-LATE trial, Stefan Kiechl, MD, Medical University of Innsbruck (Austria), who is cochair of the WSC scientific committee, said it was an “excellent study.”

“This study does not rely on advanced imaging (e.g., mismatch) and criteria can easily be interpreted on CT/CTA. If the study is published and all details are available this study may substantially ease endovascular therapy in the late time window,” Dr. Kiechl told this news organization.

Also commenting, Urs Fischer, MD, chairman of the department of neurology at the University Hospital Basel (Switzerland), who was not involved with MR CLEAN-LATE, said: “This is another study that has nicely shown that endovascular therapy in patients in the later time window is highly effective.”

Dr. Fischer said he was not surprised by the results. 

“I was expecting the trial to be positive,” he said. “What we can say is that endovascular therapy in patients with proximal vessel occlusion is a very effective intervention – probably one of the most important interventions in the history of medicine – and now we have another subgroup to whom we can offer this therapy. So, this is an important study that will improve the outcome of many further patients.”

Yvo Roos, MD, professor of acute neurology at University Medical Center, Amsterdam, who was a MR CLEAN-LATE investigator, agreed that the trial has the potential to increase number of patients who can be treated with endovascular therapy.

But both Dr. Roos and Dr. Fischer were not convinced that collateral assessment would replace CT perfusion as the first-line choice in selecting patients for endovascular treatment.

“We need to see what kind of patients were included in the trial and what kind of perfusion imaging characteristics they had, to see how they compare with patients selected by perfusion imaging,” Dr. Roos noted. “I think CT perfusion is here. But if the data shows that collateral score is better able to identify patients for endovascular treatment than CT perfusion, then this has the potential to change practice. But that needs to be shown.”

All patients screened for the MR CLEAN-LATE trial also received CT perfusion imaging as part of the standard imaging protocol, and many were selected for endovascular therapy directly on this basis, so would not have entered the trial. The researchers plan to analyze these results and to compare how the two approaches differ.

MR CLEAN-LATE is an investigator-driven study, funded by the Dutch Heart Foundation, the Brain Foundation Netherlands, and Medtronic. The study was designed and conducted, analyzed, and interpreted by the investigators independently of all sponsors. Dr. Olthuis reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Patients with acute ischemic stroke presenting late at the hospital can be selected for endovascular thrombectomy by the presence of collateral flow on CT angiography (CTA), a new study shows.

The MR CLEAN-LATE trial found that patients selected for thrombectomy in this way had a greater chance of a better functional outcome than patients who did not receive endovascular therapy.

The study was presented at the 14th World Stroke Congress in Singapore by study investigator Susanne Olthuis, MD, of Maastricht (the Netherlands) University Medical Center.

Patients in the intervention group were more likely to show a benefit on the primary endpoint of modified Rankin Scale (mRS) score at 90 days with a significant common odds ratio of 1.68, a finding that received applause from attendees of the plenary WSC session at which the study was presented.

“This means that patients treated with endovascular therapy in this trial had about a 1.7 times higher chance of achieving a better functional outcome at 90 days,” Dr. Olthuis said.

“Selection based on collateral flow identifies an additional group of patients eligible for late-window endovascular therapy in addition to those eligible based on perfusion and clinical criteria,” Dr. Olthuis concluded.

“We recommend implementation of collateral selection in routine clinical practice as it is time efficient. The CTA is already available, and it involves a low-complexity assessment. The only distinction that needs to be made is whether or not there are any collaterals visible on CTA. If collaterals are absent or there is any doubt, then CT perfusion [CTP] imaging can still be used,” she added.

Co–principal investigator Wim H. van Zwam, MD, interventional radiologist at Maastricht, said in a comment:“My take-home message is that now in the late window we can select patients based on the presence of collaterals on CT angiography, which makes selection easier and faster and more widely available.

“If any collaterals are seen – and that is easily done just by looking at the CTA scan – then the patient can be selected for endovascular treatment,” Dr. van Zwam added. “We don’t need to wait for calculations of core and penumbra volumes from the CTP scan. There will also be additional patients who can benefit from endovascular therapy who do not fulfill the CTP criteria but do have visible collaterals.”

Explaining the background to the study, Dr. Olthuis noted that endovascular thrombectomy for large vessel occlusion stroke is safe and effective if performed within 6 hours and the effect then diminishes over time. In the original trial of endovascular treatment, MR CLEAN, patients with higher collateral grades had more treatment benefit, leading to the hypothesis that the assessment of collateral blood flow could help identify patients who would still benefit in the late time window.

The current MR CLEAN-LATE trial therefore set out to compare safety and efficacy of endovascular therapy in patients with acute ischemic stroke in the anterior circulation presenting within 6-24 hours from symptom onset with patients selected based on the presence of collateral flow on CTA.

At the time the trial was starting, the DAWN and DEFUSE 3 trials reported showing benefit of endovascular therapy in patients presenting in the late window who had been selected for endovascular treatment based on a combination of perfusion imaging and clinical criteria, so patients who fitted these criteria were also excluded from MR CLEAN-LATE as they would now be eligible for endovascular therapy under the latest clinical guidelines. 

But the study continued, as “we believed collateral selection may still be able to identify an additional group of patients that may benefit from endovascular therapy in the late window,” Dr. Olthuis said.

The trial randomly assigned 502 such patients with a National Institutes of Health Stroke Scale (NIHSS) score of at least 2 and with collateral flow grades of 1-3 to receive endovascular therapy (intervention) or control.

Safety data showed a slightly but nonsignificantly higher mortality rate at 90 days in the control group (30%) versus 24% in the intervention group.

The rate of symptomatic intracranial hemorrhage was higher in the intervention group (6.7%) versus 1.6% in the control group, but Dr. Olthuis pointed out that the rate of sICH in the intervention group was similar to that in the endovascular groups of the DAWN and DEFUSE 3 trials.

The primary endpoint – mRS score at 90 days – showed a shift toward better outcome in the intervention group, with an adjusted common OR of 1.68 (95% confidence interval, 1.21-2.33).

The median mRS score in the intervention group was 3 (95% CI, 2-5) versus 4 (95% CI, 2-6) in the control group.

Secondary outcomes also showed benefits for the intervention group for the endpoints of mRS score 0-1 versus 2-6 (OR, 1.63); mRS 0-2 versus 3-6 (OR 1.54); and mRS 0-3 versus 4-6 (OR, 1.74).

In addition, NIHSS score was reduced by 17% at 24 hours and by 27% by 5-7 days or discharge in the intervention group. Recanalization at 24 hours was also improved in the intervention group (81% vs. 52%) and infarct size was reduced by 32%.

Dr. Olthuis explained that collateral grade was defined as the amount of collateral flow in the affected hemisphere as a percentage of the contralateral site, with grade 0 correlating to an absence of collaterals (and these were the only patients excluded).

Grade 1 included patients with 50% or less collaterals, grade 2 more than 50%, and grade 3 excellent collaterals – around 100%. “We included grade 1, 2 and 3, and subgroup analysis suggested no treatment interactions between different collateral grades in the patients included,” she said.

Dr. van Zwam noted that there has been evidence from other studies suggesting that the presence of collateral flow could be used to select patients for late thrombectomy, but MR CLEAN-LATE is the first randomized trial to show this and provides confirmation that this strategy is valid.

“Our results show that patients can be selected with just standard CT angiography imaging and that CT perfusion is not necessary. This will make it easier and faster to select patients especially for centers in low-resource areas who do not yet have CT perfusion imaging,” he commented.

“But even in centers where CT perfusion imaging is performed, these results should mean that we do not have to wait to analyze these results before going ahead with thrombectomy. It will also give us an additional tool, as some patients do not meet the criteria on perfusion imaging but still have identifiable collaterals and thus would now qualify for endovascular thrombectomy,” he added.
 

Could collateral assessment replace CT perfusion?

Commenting on the MR CLEAN-LATE trial, Stefan Kiechl, MD, Medical University of Innsbruck (Austria), who is cochair of the WSC scientific committee, said it was an “excellent study.”

“This study does not rely on advanced imaging (e.g., mismatch) and criteria can easily be interpreted on CT/CTA. If the study is published and all details are available this study may substantially ease endovascular therapy in the late time window,” Dr. Kiechl told this news organization.

Also commenting, Urs Fischer, MD, chairman of the department of neurology at the University Hospital Basel (Switzerland), who was not involved with MR CLEAN-LATE, said: “This is another study that has nicely shown that endovascular therapy in patients in the later time window is highly effective.”

Dr. Fischer said he was not surprised by the results. 

“I was expecting the trial to be positive,” he said. “What we can say is that endovascular therapy in patients with proximal vessel occlusion is a very effective intervention – probably one of the most important interventions in the history of medicine – and now we have another subgroup to whom we can offer this therapy. So, this is an important study that will improve the outcome of many further patients.”

Yvo Roos, MD, professor of acute neurology at University Medical Center, Amsterdam, who was a MR CLEAN-LATE investigator, agreed that the trial has the potential to increase number of patients who can be treated with endovascular therapy.

But both Dr. Roos and Dr. Fischer were not convinced that collateral assessment would replace CT perfusion as the first-line choice in selecting patients for endovascular treatment.

“We need to see what kind of patients were included in the trial and what kind of perfusion imaging characteristics they had, to see how they compare with patients selected by perfusion imaging,” Dr. Roos noted. “I think CT perfusion is here. But if the data shows that collateral score is better able to identify patients for endovascular treatment than CT perfusion, then this has the potential to change practice. But that needs to be shown.”

All patients screened for the MR CLEAN-LATE trial also received CT perfusion imaging as part of the standard imaging protocol, and many were selected for endovascular therapy directly on this basis, so would not have entered the trial. The researchers plan to analyze these results and to compare how the two approaches differ.

MR CLEAN-LATE is an investigator-driven study, funded by the Dutch Heart Foundation, the Brain Foundation Netherlands, and Medtronic. The study was designed and conducted, analyzed, and interpreted by the investigators independently of all sponsors. Dr. Olthuis reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Apixaban offers greater protection than rivaroxaban against ischemic stroke, systemic embolism, and bleeding in patients with both atrial fibrillation (AFib) and valvular heart disease (VHD), a new study finds.

Compared with rivaroxaban, apixaban cut risks nearly in half, suggesting that clinicians should consider these new data when choosing an anticoagulant, reported lead author Ghadeer K. Dawwas, PhD, of the University of Pennsylvania, Philadelphia, and colleagues.

In the new retrospective study involving almost 20,000 patients, Dr. Dawwas and her colleagues “emulated a target trial” using private insurance claims from Optum’s deidentified Clinformatics Data Mart Database. The cohort was narrowed from a screened population of 58,210 patients with concurrent AFib and VHD to 9,947 new apixaban users who could be closely matched with 9,947 new rivaroxaban users. Covariates included provider specialty, type of VHD, demographic characteristics, measures of health care use, baseline use of medications, and baseline comorbidities.

The primary effectiveness outcome was a composite of systemic embolism and ischemic stroke, while the primary safety outcome was a composite of intracranial or gastrointestinal bleeding.

“Although several ongoing trials aim to compare apixaban with warfarin in patients with AFib and VHD, none of these trials will directly compare apixaban and rivaroxaban,” the investigators wrote. Their report is in Annals of Internal Medicine.

Dr. Dawwas and colleagues previously showed that direct oral anticoagulants (DOACs) were safer and more effective than warfarin in the same patient population. Comparing apixaban and rivaroxaban – the two most common DOACs – was the next logical step, Dr. Dawwas said in an interview.
 

Study results

Compared with rivaroxaban, patients who received apixaban had a 43% reduced risk of stroke or embolism (hazard ratio [HR], 0.57; 95% confidence interval [CI], 0.40-0.80). Apixaban’s ability to protect against bleeding appeared even more pronounced, with a 49% reduced risk over rivaroxaban (HR, 0.51; 95% CI, 0.41-0.62).

Comparing the two agents on an absolute basis, apixaban reduced risk of embolism or stroke by 0.2% within the first 6 months of treatment initiation, and 1.1% within the first year of initiation. At the same time points, absolute risk reductions for bleeding were 1.2% and 1.9%, respectively.

The investigators noted that their results held consistent in an alternative analysis that considered separate types of VHD.

“Based on the results from our analysis, we showed that apixaban is effective and safe in patients with atrial fibrillation and valvular heart diseases,” Dr. Dawwas said.
 

Head-to-head trial needed to change practice

Christopher M. Bianco, DO, associate professor of medicine at West Virginia University Heart and Vascular Institute, Morgantown, said the findings “add to the growing body of literature,” but “a head-to-head trial would be necessary to make a definitive change to clinical practice.”

Dr. Bianco, who recently conducted a retrospective analysis of apixaban and rivaroxaban that found no difference in safety and efficacy among a different patient population, said these kinds of studies are helpful in generating hypotheses, but they can’t account for all relevant clinical factors.

“There are just so many things that go into the decision-making process of [prescribing] apixaban and rivaroxaban,” he said. “Even though [Dr. Dawwas and colleagues] used propensity matching, you’re never going to be able to sort that out with a retrospective analysis.”

Specifically, Dr. Bianco noted that the findings did not include dose data. This is a key gap, he said, considering how often real-world datasets have shown that providers underdose DOACs for a number of unaccountable reasons, and how frequently patients exhibit poor adherence.

The study also lacked detail concerning the degree of renal dysfunction, which can determine drug eligibility, Dr. Bianco said. Furthermore, attempts to stratify patients based on thrombosis and bleeding risk were likely “insufficient,” he added.

Dr. Bianco also cautioned that the investigators defined valvular heart disease as any valve-related disease of any severity. In contrast, previous studies have generally restricted valvular heart disease to patients with mitral stenosis or prosthetic valves.

“This is definitely not the traditional definition of valvular heart disease, so the title is a little bit misleading in that sense, although they certainly do disclose that in the methods,” Dr. Bianco said.

On a more positive note, he highlighted the size of the patient population, and the real-world data, which included many patients who would be excluded from clinical trials.

More broadly, the study helps drive research forward, Dr. Bianco concluded; namely, by attracting financial support for a more powerful head-to-head trial that drug makers are unlikely to fund due to inherent market risk.

This study was supported by the National Institutes of Health. The investigators disclosed additional relationships with Takeda, Spark, Sanofi, and others. Dr. Bianco disclosed no conflicts of interest.

Apixaban offers greater protection than rivaroxaban against ischemic stroke, systemic embolism, and bleeding in patients with both atrial fibrillation (AFib) and valvular heart disease (VHD), a new study finds.

Compared with rivaroxaban, apixaban cut risks nearly in half, suggesting that clinicians should consider these new data when choosing an anticoagulant, reported lead author Ghadeer K. Dawwas, PhD, of the University of Pennsylvania, Philadelphia, and colleagues.

In the new retrospective study involving almost 20,000 patients, Dr. Dawwas and her colleagues “emulated a target trial” using private insurance claims from Optum’s deidentified Clinformatics Data Mart Database. The cohort was narrowed from a screened population of 58,210 patients with concurrent AFib and VHD to 9,947 new apixaban users who could be closely matched with 9,947 new rivaroxaban users. Covariates included provider specialty, type of VHD, demographic characteristics, measures of health care use, baseline use of medications, and baseline comorbidities.

The primary effectiveness outcome was a composite of systemic embolism and ischemic stroke, while the primary safety outcome was a composite of intracranial or gastrointestinal bleeding.

“Although several ongoing trials aim to compare apixaban with warfarin in patients with AFib and VHD, none of these trials will directly compare apixaban and rivaroxaban,” the investigators wrote. Their report is in Annals of Internal Medicine.

Dr. Dawwas and colleagues previously showed that direct oral anticoagulants (DOACs) were safer and more effective than warfarin in the same patient population. Comparing apixaban and rivaroxaban – the two most common DOACs – was the next logical step, Dr. Dawwas said in an interview.
 

Study results

Compared with rivaroxaban, patients who received apixaban had a 43% reduced risk of stroke or embolism (hazard ratio [HR], 0.57; 95% confidence interval [CI], 0.40-0.80). Apixaban’s ability to protect against bleeding appeared even more pronounced, with a 49% reduced risk over rivaroxaban (HR, 0.51; 95% CI, 0.41-0.62).

Comparing the two agents on an absolute basis, apixaban reduced risk of embolism or stroke by 0.2% within the first 6 months of treatment initiation, and 1.1% within the first year of initiation. At the same time points, absolute risk reductions for bleeding were 1.2% and 1.9%, respectively.

The investigators noted that their results held consistent in an alternative analysis that considered separate types of VHD.

“Based on the results from our analysis, we showed that apixaban is effective and safe in patients with atrial fibrillation and valvular heart diseases,” Dr. Dawwas said.
 

Head-to-head trial needed to change practice

Christopher M. Bianco, DO, associate professor of medicine at West Virginia University Heart and Vascular Institute, Morgantown, said the findings “add to the growing body of literature,” but “a head-to-head trial would be necessary to make a definitive change to clinical practice.”

Dr. Bianco, who recently conducted a retrospective analysis of apixaban and rivaroxaban that found no difference in safety and efficacy among a different patient population, said these kinds of studies are helpful in generating hypotheses, but they can’t account for all relevant clinical factors.

“There are just so many things that go into the decision-making process of [prescribing] apixaban and rivaroxaban,” he said. “Even though [Dr. Dawwas and colleagues] used propensity matching, you’re never going to be able to sort that out with a retrospective analysis.”

Specifically, Dr. Bianco noted that the findings did not include dose data. This is a key gap, he said, considering how often real-world datasets have shown that providers underdose DOACs for a number of unaccountable reasons, and how frequently patients exhibit poor adherence.

The study also lacked detail concerning the degree of renal dysfunction, which can determine drug eligibility, Dr. Bianco said. Furthermore, attempts to stratify patients based on thrombosis and bleeding risk were likely “insufficient,” he added.

Dr. Bianco also cautioned that the investigators defined valvular heart disease as any valve-related disease of any severity. In contrast, previous studies have generally restricted valvular heart disease to patients with mitral stenosis or prosthetic valves.

“This is definitely not the traditional definition of valvular heart disease, so the title is a little bit misleading in that sense, although they certainly do disclose that in the methods,” Dr. Bianco said.

On a more positive note, he highlighted the size of the patient population, and the real-world data, which included many patients who would be excluded from clinical trials.

More broadly, the study helps drive research forward, Dr. Bianco concluded; namely, by attracting financial support for a more powerful head-to-head trial that drug makers are unlikely to fund due to inherent market risk.

This study was supported by the National Institutes of Health. The investigators disclosed additional relationships with Takeda, Spark, Sanofi, and others. Dr. Bianco disclosed no conflicts of interest.

Apixaban offers greater protection than rivaroxaban against ischemic stroke, systemic embolism, and bleeding in patients with both atrial fibrillation (AFib) and valvular heart disease (VHD), a new study finds.

Compared with rivaroxaban, apixaban cut risks nearly in half, suggesting that clinicians should consider these new data when choosing an anticoagulant, reported lead author Ghadeer K. Dawwas, PhD, of the University of Pennsylvania, Philadelphia, and colleagues.

In the new retrospective study involving almost 20,000 patients, Dr. Dawwas and her colleagues “emulated a target trial” using private insurance claims from Optum’s deidentified Clinformatics Data Mart Database. The cohort was narrowed from a screened population of 58,210 patients with concurrent AFib and VHD to 9,947 new apixaban users who could be closely matched with 9,947 new rivaroxaban users. Covariates included provider specialty, type of VHD, demographic characteristics, measures of health care use, baseline use of medications, and baseline comorbidities.

The primary effectiveness outcome was a composite of systemic embolism and ischemic stroke, while the primary safety outcome was a composite of intracranial or gastrointestinal bleeding.

“Although several ongoing trials aim to compare apixaban with warfarin in patients with AFib and VHD, none of these trials will directly compare apixaban and rivaroxaban,” the investigators wrote. Their report is in Annals of Internal Medicine.

Dr. Dawwas and colleagues previously showed that direct oral anticoagulants (DOACs) were safer and more effective than warfarin in the same patient population. Comparing apixaban and rivaroxaban – the two most common DOACs – was the next logical step, Dr. Dawwas said in an interview.
 

Study results

Compared with rivaroxaban, patients who received apixaban had a 43% reduced risk of stroke or embolism (hazard ratio [HR], 0.57; 95% confidence interval [CI], 0.40-0.80). Apixaban’s ability to protect against bleeding appeared even more pronounced, with a 49% reduced risk over rivaroxaban (HR, 0.51; 95% CI, 0.41-0.62).

Comparing the two agents on an absolute basis, apixaban reduced risk of embolism or stroke by 0.2% within the first 6 months of treatment initiation, and 1.1% within the first year of initiation. At the same time points, absolute risk reductions for bleeding were 1.2% and 1.9%, respectively.

The investigators noted that their results held consistent in an alternative analysis that considered separate types of VHD.

“Based on the results from our analysis, we showed that apixaban is effective and safe in patients with atrial fibrillation and valvular heart diseases,” Dr. Dawwas said.
 

Head-to-head trial needed to change practice

Christopher M. Bianco, DO, associate professor of medicine at West Virginia University Heart and Vascular Institute, Morgantown, said the findings “add to the growing body of literature,” but “a head-to-head trial would be necessary to make a definitive change to clinical practice.”

Dr. Bianco, who recently conducted a retrospective analysis of apixaban and rivaroxaban that found no difference in safety and efficacy among a different patient population, said these kinds of studies are helpful in generating hypotheses, but they can’t account for all relevant clinical factors.

“There are just so many things that go into the decision-making process of [prescribing] apixaban and rivaroxaban,” he said. “Even though [Dr. Dawwas and colleagues] used propensity matching, you’re never going to be able to sort that out with a retrospective analysis.”

Specifically, Dr. Bianco noted that the findings did not include dose data. This is a key gap, he said, considering how often real-world datasets have shown that providers underdose DOACs for a number of unaccountable reasons, and how frequently patients exhibit poor adherence.

The study also lacked detail concerning the degree of renal dysfunction, which can determine drug eligibility, Dr. Bianco said. Furthermore, attempts to stratify patients based on thrombosis and bleeding risk were likely “insufficient,” he added.

Dr. Bianco also cautioned that the investigators defined valvular heart disease as any valve-related disease of any severity. In contrast, previous studies have generally restricted valvular heart disease to patients with mitral stenosis or prosthetic valves.

“This is definitely not the traditional definition of valvular heart disease, so the title is a little bit misleading in that sense, although they certainly do disclose that in the methods,” Dr. Bianco said.

On a more positive note, he highlighted the size of the patient population, and the real-world data, which included many patients who would be excluded from clinical trials.

More broadly, the study helps drive research forward, Dr. Bianco concluded; namely, by attracting financial support for a more powerful head-to-head trial that drug makers are unlikely to fund due to inherent market risk.

This study was supported by the National Institutes of Health. The investigators disclosed additional relationships with Takeda, Spark, Sanofi, and others. Dr. Bianco disclosed no conflicts of interest.

Nirmatrelvir/ritonavir (Paxlovid) has been a game changer for high-risk patients with early COVID-19 symptoms but has significant interactions with commonly used cardiovascular medications, a new paper cautions.

COVID-19 patients with cardiovascular disease (CVD) or risk factors such as diabetes, hypertension, and chronic kidney disease are at high risk of severe disease and account for the lion’s share of those receiving Paxlovid. Data from the initial EPIC-HR trial and recent real-world data also suggest they’re among the most likely to benefit from the oral antiviral, regardless of their COVID-19 vaccination status.

ClaudioVentrella/Thinkstock

“But at the same time, it unfortunately interacts with many very commonly prescribed cardiovascular medications and with many of them in a very clinically meaningful way, which may lead to serious adverse consequences,” senior author Sarju Ganatra, MD, said in an interview. “So, while it’s being prescribed with a good intention to help these people, we may actually end up doing more harm than good.

“We don’t want to deter people from getting their necessary COVID-19 treatment, which is excellent for the most part these days as an outpatient,” he added. “So, we felt the need to make a comprehensive list of cardiac medications and level of interactions with Paxlovid and also to help the clinicians and prescribers at the point of care to make the clinical decision of what modifications they may need to do.”

The paper, published online in the Journal of the American College of Cardiology, details drug-drug interactions with some 80 CV medications including statins, antihypertensive agents, heart failure therapies, and antiplatelet/anticoagulants.

It also includes a color-coded figure denoting whether a drug is safe to coadminister with Paxlovid, may potentially interact and require a dose adjustment or temporary discontinuation, or is contraindicated.

Among the commonly used blood thinners, for example, the paper notes that Paxlovid significantly increases drug levels of the direct oral anticoagulants (DOACs) apixaban, rivaroxaban, edoxaban, and dabigatran and, thus, increases the risk of bleeding.

“It can still be administered, if it’s necessary, but the dose of the DOAC either needs to be reduced or held depending on what they are getting it for, whether they’re getting it for pulmonary embolism or atrial fibrillation, and we adjust for all those things in the table in the paper,” said Dr. Ganatra, from Lahey Hospital and Medical Center, Burlington, Mass.

When the DOAC can’t be interrupted or dose adjusted, however, Paxlovid should not be given, the experts said. The antiviral is safe to use with enoxaparin, a low-molecular-weight heparin, but can increase or decrease levels of warfarin and should be used with close international normalized ratio monitoring.

For patients on antiplatelet agents, clinicians are advised to avoid prescribing nirmatrelvir/ritonavir to those on ticagrelor or clopidogrel unless the agents can be replaced by prasugrel.

Ritonavir – an inhibitor of cytochrome P 450 enzymes, particularly CYP3A4 – poses an increased risk of bleeding when given with ticagrelor, a CYP3A4 substrate, and decreases the active metabolite of clopidogrel, cutting its platelet inhibition by 20%. Although there’s a twofold decrease in the maximum concentration of prasugrel in patients on ritonavir, this does not affect its antiplatelet activity, the paper explains.

Among the lipid-lowering agents, experts suggested temporarily withholding atorvastatin, rosuvastatin, simvastatin, and lovastatin because of an increased risk for myopathy and liver toxicity but say that other statins, fibrates, ezetimibe, and the proprotein convertase subtilisin/kexin type 9 inhibitors evolocumab and alirocumab are safe to coadminister with Paxlovid.

While statins typically leave the body within hours, most of the antiarrhythmic drugs, except for sotalol, are not safe to give with Paxlovid, Dr. Ganatra said. It’s technically not feasible to hold these drugs because most have long half-lives, reaching about 100 days, for example, for amiodarone.

“It’s going to hang around in your system for a long time, so you don’t want to be falsely reassured that you’re holding the drug and it’s going to be fine to go back slowly,” he said. “You need to look for alternative therapies in those scenarios for COVID-19 treatment, which could be other antivirals, or a monoclonal antibody individualized to the patient’s risk.”

Although there’s limited clinical information regarding interaction-related adverse events with Paxlovid, the team used pharmacokinetics and pharmacodynamics data to provide the guidance. Serious adverse events are also well documented for ritonavir, which has been prescribed for years to treat HIV, Dr. Ganatra noted.

The Infectious Disease Society of America also published guidance on the management of potential drug interactions with Paxlovid in May and, earlier in October, the Food and Drug Administration updated its Paxlovid patient eligibility screening checklist.

Still, most prescribers are actually primary care physicians and even pharmacists, who may not be completely attuned, said Dr. Ganatra, who noted that some centers have started programs to help connect primary care physicians with their cardiology colleagues to check on CV drugs in their COVID-19 patients.

“We need to be thinking more broadly and at a system level where the hospital or health care system leverages the electronic health record systems,” he said. “Most of them are sophisticated enough to incorporate simple drug-drug interaction information, so if you try to prescribe someone Paxlovid and it’s a heart transplant patient who is on immunosuppressive therapy or a patient on a blood thinner, then it should give you a warning ... or at least give them a link to our paper or other valuable resources.

“If someone is on a blood thinner and the blood thinner level goes up by ninefold, we can only imagine what we would be dealing with,” Dr. Ganatra said. “So, these interactions should be taken very seriously and I think it’s worth the time and investment.”

The authors reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Nirmatrelvir/ritonavir (Paxlovid) has been a game changer for high-risk patients with early COVID-19 symptoms but has significant interactions with commonly used cardiovascular medications, a new paper cautions.

COVID-19 patients with cardiovascular disease (CVD) or risk factors such as diabetes, hypertension, and chronic kidney disease are at high risk of severe disease and account for the lion’s share of those receiving Paxlovid. Data from the initial EPIC-HR trial and recent real-world data also suggest they’re among the most likely to benefit from the oral antiviral, regardless of their COVID-19 vaccination status.

ClaudioVentrella/Thinkstock

“But at the same time, it unfortunately interacts with many very commonly prescribed cardiovascular medications and with many of them in a very clinically meaningful way, which may lead to serious adverse consequences,” senior author Sarju Ganatra, MD, said in an interview. “So, while it’s being prescribed with a good intention to help these people, we may actually end up doing more harm than good.

“We don’t want to deter people from getting their necessary COVID-19 treatment, which is excellent for the most part these days as an outpatient,” he added. “So, we felt the need to make a comprehensive list of cardiac medications and level of interactions with Paxlovid and also to help the clinicians and prescribers at the point of care to make the clinical decision of what modifications they may need to do.”

The paper, published online in the Journal of the American College of Cardiology, details drug-drug interactions with some 80 CV medications including statins, antihypertensive agents, heart failure therapies, and antiplatelet/anticoagulants.

It also includes a color-coded figure denoting whether a drug is safe to coadminister with Paxlovid, may potentially interact and require a dose adjustment or temporary discontinuation, or is contraindicated.

Among the commonly used blood thinners, for example, the paper notes that Paxlovid significantly increases drug levels of the direct oral anticoagulants (DOACs) apixaban, rivaroxaban, edoxaban, and dabigatran and, thus, increases the risk of bleeding.

“It can still be administered, if it’s necessary, but the dose of the DOAC either needs to be reduced or held depending on what they are getting it for, whether they’re getting it for pulmonary embolism or atrial fibrillation, and we adjust for all those things in the table in the paper,” said Dr. Ganatra, from Lahey Hospital and Medical Center, Burlington, Mass.

When the DOAC can’t be interrupted or dose adjusted, however, Paxlovid should not be given, the experts said. The antiviral is safe to use with enoxaparin, a low-molecular-weight heparin, but can increase or decrease levels of warfarin and should be used with close international normalized ratio monitoring.

For patients on antiplatelet agents, clinicians are advised to avoid prescribing nirmatrelvir/ritonavir to those on ticagrelor or clopidogrel unless the agents can be replaced by prasugrel.

Ritonavir – an inhibitor of cytochrome P 450 enzymes, particularly CYP3A4 – poses an increased risk of bleeding when given with ticagrelor, a CYP3A4 substrate, and decreases the active metabolite of clopidogrel, cutting its platelet inhibition by 20%. Although there’s a twofold decrease in the maximum concentration of prasugrel in patients on ritonavir, this does not affect its antiplatelet activity, the paper explains.

Among the lipid-lowering agents, experts suggested temporarily withholding atorvastatin, rosuvastatin, simvastatin, and lovastatin because of an increased risk for myopathy and liver toxicity but say that other statins, fibrates, ezetimibe, and the proprotein convertase subtilisin/kexin type 9 inhibitors evolocumab and alirocumab are safe to coadminister with Paxlovid.

While statins typically leave the body within hours, most of the antiarrhythmic drugs, except for sotalol, are not safe to give with Paxlovid, Dr. Ganatra said. It’s technically not feasible to hold these drugs because most have long half-lives, reaching about 100 days, for example, for amiodarone.

“It’s going to hang around in your system for a long time, so you don’t want to be falsely reassured that you’re holding the drug and it’s going to be fine to go back slowly,” he said. “You need to look for alternative therapies in those scenarios for COVID-19 treatment, which could be other antivirals, or a monoclonal antibody individualized to the patient’s risk.”

Although there’s limited clinical information regarding interaction-related adverse events with Paxlovid, the team used pharmacokinetics and pharmacodynamics data to provide the guidance. Serious adverse events are also well documented for ritonavir, which has been prescribed for years to treat HIV, Dr. Ganatra noted.

The Infectious Disease Society of America also published guidance on the management of potential drug interactions with Paxlovid in May and, earlier in October, the Food and Drug Administration updated its Paxlovid patient eligibility screening checklist.

Still, most prescribers are actually primary care physicians and even pharmacists, who may not be completely attuned, said Dr. Ganatra, who noted that some centers have started programs to help connect primary care physicians with their cardiology colleagues to check on CV drugs in their COVID-19 patients.

“We need to be thinking more broadly and at a system level where the hospital or health care system leverages the electronic health record systems,” he said. “Most of them are sophisticated enough to incorporate simple drug-drug interaction information, so if you try to prescribe someone Paxlovid and it’s a heart transplant patient who is on immunosuppressive therapy or a patient on a blood thinner, then it should give you a warning ... or at least give them a link to our paper or other valuable resources.

“If someone is on a blood thinner and the blood thinner level goes up by ninefold, we can only imagine what we would be dealing with,” Dr. Ganatra said. “So, these interactions should be taken very seriously and I think it’s worth the time and investment.”

The authors reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Nirmatrelvir/ritonavir (Paxlovid) has been a game changer for high-risk patients with early COVID-19 symptoms but has significant interactions with commonly used cardiovascular medications, a new paper cautions.

COVID-19 patients with cardiovascular disease (CVD) or risk factors such as diabetes, hypertension, and chronic kidney disease are at high risk of severe disease and account for the lion’s share of those receiving Paxlovid. Data from the initial EPIC-HR trial and recent real-world data also suggest they’re among the most likely to benefit from the oral antiviral, regardless of their COVID-19 vaccination status.

ClaudioVentrella/Thinkstock

“But at the same time, it unfortunately interacts with many very commonly prescribed cardiovascular medications and with many of them in a very clinically meaningful way, which may lead to serious adverse consequences,” senior author Sarju Ganatra, MD, said in an interview. “So, while it’s being prescribed with a good intention to help these people, we may actually end up doing more harm than good.

“We don’t want to deter people from getting their necessary COVID-19 treatment, which is excellent for the most part these days as an outpatient,” he added. “So, we felt the need to make a comprehensive list of cardiac medications and level of interactions with Paxlovid and also to help the clinicians and prescribers at the point of care to make the clinical decision of what modifications they may need to do.”

The paper, published online in the Journal of the American College of Cardiology, details drug-drug interactions with some 80 CV medications including statins, antihypertensive agents, heart failure therapies, and antiplatelet/anticoagulants.

It also includes a color-coded figure denoting whether a drug is safe to coadminister with Paxlovid, may potentially interact and require a dose adjustment or temporary discontinuation, or is contraindicated.

Among the commonly used blood thinners, for example, the paper notes that Paxlovid significantly increases drug levels of the direct oral anticoagulants (DOACs) apixaban, rivaroxaban, edoxaban, and dabigatran and, thus, increases the risk of bleeding.

“It can still be administered, if it’s necessary, but the dose of the DOAC either needs to be reduced or held depending on what they are getting it for, whether they’re getting it for pulmonary embolism or atrial fibrillation, and we adjust for all those things in the table in the paper,” said Dr. Ganatra, from Lahey Hospital and Medical Center, Burlington, Mass.

When the DOAC can’t be interrupted or dose adjusted, however, Paxlovid should not be given, the experts said. The antiviral is safe to use with enoxaparin, a low-molecular-weight heparin, but can increase or decrease levels of warfarin and should be used with close international normalized ratio monitoring.

For patients on antiplatelet agents, clinicians are advised to avoid prescribing nirmatrelvir/ritonavir to those on ticagrelor or clopidogrel unless the agents can be replaced by prasugrel.

Ritonavir – an inhibitor of cytochrome P 450 enzymes, particularly CYP3A4 – poses an increased risk of bleeding when given with ticagrelor, a CYP3A4 substrate, and decreases the active metabolite of clopidogrel, cutting its platelet inhibition by 20%. Although there’s a twofold decrease in the maximum concentration of prasugrel in patients on ritonavir, this does not affect its antiplatelet activity, the paper explains.

Among the lipid-lowering agents, experts suggested temporarily withholding atorvastatin, rosuvastatin, simvastatin, and lovastatin because of an increased risk for myopathy and liver toxicity but say that other statins, fibrates, ezetimibe, and the proprotein convertase subtilisin/kexin type 9 inhibitors evolocumab and alirocumab are safe to coadminister with Paxlovid.

While statins typically leave the body within hours, most of the antiarrhythmic drugs, except for sotalol, are not safe to give with Paxlovid, Dr. Ganatra said. It’s technically not feasible to hold these drugs because most have long half-lives, reaching about 100 days, for example, for amiodarone.

“It’s going to hang around in your system for a long time, so you don’t want to be falsely reassured that you’re holding the drug and it’s going to be fine to go back slowly,” he said. “You need to look for alternative therapies in those scenarios for COVID-19 treatment, which could be other antivirals, or a monoclonal antibody individualized to the patient’s risk.”

Although there’s limited clinical information regarding interaction-related adverse events with Paxlovid, the team used pharmacokinetics and pharmacodynamics data to provide the guidance. Serious adverse events are also well documented for ritonavir, which has been prescribed for years to treat HIV, Dr. Ganatra noted.

The Infectious Disease Society of America also published guidance on the management of potential drug interactions with Paxlovid in May and, earlier in October, the Food and Drug Administration updated its Paxlovid patient eligibility screening checklist.

Still, most prescribers are actually primary care physicians and even pharmacists, who may not be completely attuned, said Dr. Ganatra, who noted that some centers have started programs to help connect primary care physicians with their cardiology colleagues to check on CV drugs in their COVID-19 patients.

“We need to be thinking more broadly and at a system level where the hospital or health care system leverages the electronic health record systems,” he said. “Most of them are sophisticated enough to incorporate simple drug-drug interaction information, so if you try to prescribe someone Paxlovid and it’s a heart transplant patient who is on immunosuppressive therapy or a patient on a blood thinner, then it should give you a warning ... or at least give them a link to our paper or other valuable resources.

“If someone is on a blood thinner and the blood thinner level goes up by ninefold, we can only imagine what we would be dealing with,” Dr. Ganatra said. “So, these interactions should be taken very seriously and I think it’s worth the time and investment.”

The authors reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

The Amplatzer Amulet (Abbott) and first-generation Watchman 2.5 (Boston Scientific) devices provide relatively comparable results out to 3 years after left atrial appendage occlusion (LAAO), longer follow-up from the Amplatzer Amulet Left Atrial Appendage Occluder Versus Watchman Device for Stroke Prophylaxis (Amulet IDE) trial shows.

“The dual-seal Amplatzer Amulet left atrial appendage occluder continued to demonstrate safety and effectiveness through 3 years,” principal investigator Dhanunjaya Lakkireddy, MD, said in a late-breaking session at the recent Transcatheter Cardiovascular Therapeutics annual meeting.

Preliminary results, reported last year, showed that procedural complications were higher with the Amplatzer but that it provided superior closure of the left atrial appendage (LAA) at 45 days and was noninferior with respect to safety at 12 months and efficacy at 18 months.

Amulet IDE is the largest head-to-head comparison of the two devices, enrolling 1,878 high-risk patients with nonvalvular atrial fibrillation undergoing LAA closure to reduce the risk of stroke.

Three-year follow-up was higher with the Amulet device than with the Watchman, at 721 vs. 659 patients, driven by increased deaths (85 vs. 63) and withdrawals (50 vs. 23) in the Watchman group within 18 months, noted Dr. Lakkireddy, Kansas City Heart Rhythm Institute and Research Foundation, Overland Park, Kan.

Use of oral anticoagulation was higher in the Watchman group at 6 months (2.8% vs. 4.7%; P = .04), 18 months (3.1% vs. 5.6%; P = .01), and 3 years (3.7% vs. 7.3%; P < .01).

This was primarily driven by more late device-related thrombus (DRT) after 6 months with the Watchman device than with the Amulet occluder (23 vs. 10). “Perhaps the dual-closure mechanism of the Amulet explains this fundamental difference, where you have a nice smooth disc that covers the ostium,” he posited.

At 3 years, rates of cardiovascular death trended lower with Amulet than with Watchman (6.6% vs. 8.5%; P = .14), as did all-cause deaths (14.6% vs. 17.9%; P = .07).

Most cardiovascular deaths in the Amulet group were not preceded by a device factor, whereas DRT (1 vs. 4) and peridevice leak 3 mm or more (5 vs. 15) frequently preceded these deaths in the Watchman group, Dr. Lakkireddy observed. No pericardial effusion-related deaths occurred in either group.

Major bleeding, however, trended higher for the Amulet, at 16.1%, compared with 14.7% for the Watchman (P = .46). Ischemic stroke and systemic embolic rates also trended higher for Amulet, at 5%, and 4.6% for Watchman.

The protocol recommended aspirin only for both groups after 6 months. None of the 29 Amulet and 3 of the 29 Watchman patients with an ischemic stroke were on oral anticoagulation at the time of the stroke.

Device factors, however, frequently preceded ischemic strokes in the Watchman group, Dr. Lakkireddy said. DRT occurred in 1 patient with Amulet and 2 patients with Watchman and peridevice leak in 3 with Amulet and 15 with Watchman. “Again, the peridevice leak issue really stands out as an important factor,” he said at the meeting, which was sponsored by the Cardiovascular Research Foundation.

Based on “data from the large trials, it’s clearly evident that the presence of peridevice leak significantly raises the risk of stroke in follow-up,” he said. “So, attention has to be paid to the choice of the device and how we can mitigate the risk of peridevice leaks in these patients.”

The composite of stroke, systemic embolism, and cardiovascular death occurred in 11.1% of patients with Amulet and 12.7% with Watchman (P = .31).

A version of this article first appeared on Medscape.com.

The Amplatzer Amulet (Abbott) and first-generation Watchman 2.5 (Boston Scientific) devices provide relatively comparable results out to 3 years after left atrial appendage occlusion (LAAO), longer follow-up from the Amplatzer Amulet Left Atrial Appendage Occluder Versus Watchman Device for Stroke Prophylaxis (Amulet IDE) trial shows.

“The dual-seal Amplatzer Amulet left atrial appendage occluder continued to demonstrate safety and effectiveness through 3 years,” principal investigator Dhanunjaya Lakkireddy, MD, said in a late-breaking session at the recent Transcatheter Cardiovascular Therapeutics annual meeting.

Preliminary results, reported last year, showed that procedural complications were higher with the Amplatzer but that it provided superior closure of the left atrial appendage (LAA) at 45 days and was noninferior with respect to safety at 12 months and efficacy at 18 months.

Amulet IDE is the largest head-to-head comparison of the two devices, enrolling 1,878 high-risk patients with nonvalvular atrial fibrillation undergoing LAA closure to reduce the risk of stroke.

Three-year follow-up was higher with the Amulet device than with the Watchman, at 721 vs. 659 patients, driven by increased deaths (85 vs. 63) and withdrawals (50 vs. 23) in the Watchman group within 18 months, noted Dr. Lakkireddy, Kansas City Heart Rhythm Institute and Research Foundation, Overland Park, Kan.

Use of oral anticoagulation was higher in the Watchman group at 6 months (2.8% vs. 4.7%; P = .04), 18 months (3.1% vs. 5.6%; P = .01), and 3 years (3.7% vs. 7.3%; P < .01).

This was primarily driven by more late device-related thrombus (DRT) after 6 months with the Watchman device than with the Amulet occluder (23 vs. 10). “Perhaps the dual-closure mechanism of the Amulet explains this fundamental difference, where you have a nice smooth disc that covers the ostium,” he posited.

At 3 years, rates of cardiovascular death trended lower with Amulet than with Watchman (6.6% vs. 8.5%; P = .14), as did all-cause deaths (14.6% vs. 17.9%; P = .07).

Most cardiovascular deaths in the Amulet group were not preceded by a device factor, whereas DRT (1 vs. 4) and peridevice leak 3 mm or more (5 vs. 15) frequently preceded these deaths in the Watchman group, Dr. Lakkireddy observed. No pericardial effusion-related deaths occurred in either group.

Major bleeding, however, trended higher for the Amulet, at 16.1%, compared with 14.7% for the Watchman (P = .46). Ischemic stroke and systemic embolic rates also trended higher for Amulet, at 5%, and 4.6% for Watchman.

The protocol recommended aspirin only for both groups after 6 months. None of the 29 Amulet and 3 of the 29 Watchman patients with an ischemic stroke were on oral anticoagulation at the time of the stroke.

Device factors, however, frequently preceded ischemic strokes in the Watchman group, Dr. Lakkireddy said. DRT occurred in 1 patient with Amulet and 2 patients with Watchman and peridevice leak in 3 with Amulet and 15 with Watchman. “Again, the peridevice leak issue really stands out as an important factor,” he said at the meeting, which was sponsored by the Cardiovascular Research Foundation.

Based on “data from the large trials, it’s clearly evident that the presence of peridevice leak significantly raises the risk of stroke in follow-up,” he said. “So, attention has to be paid to the choice of the device and how we can mitigate the risk of peridevice leaks in these patients.”

The composite of stroke, systemic embolism, and cardiovascular death occurred in 11.1% of patients with Amulet and 12.7% with Watchman (P = .31).

A version of this article first appeared on Medscape.com.

The Amplatzer Amulet (Abbott) and first-generation Watchman 2.5 (Boston Scientific) devices provide relatively comparable results out to 3 years after left atrial appendage occlusion (LAAO), longer follow-up from the Amplatzer Amulet Left Atrial Appendage Occluder Versus Watchman Device for Stroke Prophylaxis (Amulet IDE) trial shows.

“The dual-seal Amplatzer Amulet left atrial appendage occluder continued to demonstrate safety and effectiveness through 3 years,” principal investigator Dhanunjaya Lakkireddy, MD, said in a late-breaking session at the recent Transcatheter Cardiovascular Therapeutics annual meeting.

Preliminary results, reported last year, showed that procedural complications were higher with the Amplatzer but that it provided superior closure of the left atrial appendage (LAA) at 45 days and was noninferior with respect to safety at 12 months and efficacy at 18 months.

Amulet IDE is the largest head-to-head comparison of the two devices, enrolling 1,878 high-risk patients with nonvalvular atrial fibrillation undergoing LAA closure to reduce the risk of stroke.

Three-year follow-up was higher with the Amulet device than with the Watchman, at 721 vs. 659 patients, driven by increased deaths (85 vs. 63) and withdrawals (50 vs. 23) in the Watchman group within 18 months, noted Dr. Lakkireddy, Kansas City Heart Rhythm Institute and Research Foundation, Overland Park, Kan.

Use of oral anticoagulation was higher in the Watchman group at 6 months (2.8% vs. 4.7%; P = .04), 18 months (3.1% vs. 5.6%; P = .01), and 3 years (3.7% vs. 7.3%; P < .01).

This was primarily driven by more late device-related thrombus (DRT) after 6 months with the Watchman device than with the Amulet occluder (23 vs. 10). “Perhaps the dual-closure mechanism of the Amulet explains this fundamental difference, where you have a nice smooth disc that covers the ostium,” he posited.

At 3 years, rates of cardiovascular death trended lower with Amulet than with Watchman (6.6% vs. 8.5%; P = .14), as did all-cause deaths (14.6% vs. 17.9%; P = .07).

Most cardiovascular deaths in the Amulet group were not preceded by a device factor, whereas DRT (1 vs. 4) and peridevice leak 3 mm or more (5 vs. 15) frequently preceded these deaths in the Watchman group, Dr. Lakkireddy observed. No pericardial effusion-related deaths occurred in either group.

Major bleeding, however, trended higher for the Amulet, at 16.1%, compared with 14.7% for the Watchman (P = .46). Ischemic stroke and systemic embolic rates also trended higher for Amulet, at 5%, and 4.6% for Watchman.

The protocol recommended aspirin only for both groups after 6 months. None of the 29 Amulet and 3 of the 29 Watchman patients with an ischemic stroke were on oral anticoagulation at the time of the stroke.

Device factors, however, frequently preceded ischemic strokes in the Watchman group, Dr. Lakkireddy said. DRT occurred in 1 patient with Amulet and 2 patients with Watchman and peridevice leak in 3 with Amulet and 15 with Watchman. “Again, the peridevice leak issue really stands out as an important factor,” he said at the meeting, which was sponsored by the Cardiovascular Research Foundation.

Based on “data from the large trials, it’s clearly evident that the presence of peridevice leak significantly raises the risk of stroke in follow-up,” he said. “So, attention has to be paid to the choice of the device and how we can mitigate the risk of peridevice leaks in these patients.”

The composite of stroke, systemic embolism, and cardiovascular death occurred in 11.1% of patients with Amulet and 12.7% with Watchman (P = .31).

A version of this article first appeared on Medscape.com.

BOSTON – Following transradial access for angiography or a percutaneous coronary intervention (PCI), a low dose of the factor Xa inhibitor rivaroxaban for 7 days reduces the risk of an access-site occlusion by 50%, according to results of the randomized RIVARAD trial.

Of two multicenter, randomized trials to address this question it is the larger, according to Rania Hammami, MD, who presented the results at the Transcatheter Cardiovascular Therapeutics annual meeting.

Ted Bosworth/MDedge News

In the open-label RIVARAD trial, 538 patients were randomized to 10 mg rivaroxaban or standard care alone. Standard care at the beginning of the procedure included unfractionated heparin in a dose of 50 IU/kg for angiography and up to 100 IU/kg for PCI. Manual compression was applied at the end of the procedure followed by an evaluation for complications, such as hematoma or aneurysm.

For the primary outcome of radial access occlusion at 30 days, the lower rate in the rivaroxaban arm (6.9% vs. 13.0%) translated into a statistically significant 50% reduction (odds ratio, 0.50; P = .011).
 

Rivaroxaban preserves radial pulse

Rivaroxaban was also favored for the endpoint of inability at 30 days to find a radial pulse (5.8% vs. 12.2%; P = .01). Interestingly, there was some disparity for this endpoint for clinical examination and ultrasound.

“In 12 patients, we were able to palpate a radial pulse, but the ultrasound showed an occlusion of the vessel, while in 7 patients we could not find a radial pulse even though the radial artery was patent on ultrasound,” Dr. Hammami, of the department of cardiology, Hedi Chaker Hospital, Sfax, Tunisia, said at the meeting, sponsored by the Cardiovascular Research Foundation.

The incidence of hemorrhagic complications was higher in the rivaroxaban group (2.7% vs. 1.9%), but the difference did not approach statistical significance (OR, 1.5; P = .54). Moreover, all of the bleeding complications were minor (Bleeding Academic Research Consortium level 1), and none of the bleeding complications were observed in patients receiving rivaroxaban alone. Rather, all patients with bleeding were taking one or more antiplatelet drugs along with rivaroxaban.

On univariate analysis, several baseline characteristics were associated with subsequent radial occlusion, including female sex (P = .02), current smoking (P = .03), renal failure (P = .004), and PCI for acute coronary syndrome (P = .02). On multivariate analysis, female sex (P = .001) and current smoking (P < .0001) became even stronger predictors of occlusion on a statistical basis, while a prior procedure involving radial access was also a significant predictor (P = .029).

“One woman out of two developed radial access occlusion if she had a history of smoking and had a history of a transradial puncture,” Dr. Hammami reported.

In a subgroup analysis, relative protection from radial artery occlusion from a 7-day course of rivaroxaban was particularly pronounced in those with diabetes, renal failure, or hypertension relative to those without these conditions, but the protective effect appeared to be about the same regardless of body mass index, age, sheath size, or current use of statins.

These findings are consistent with other studies evaluating the risk of radial access occlusion, according to Dr. Hammami. While different studies she cited reported incidences ranging from less than 1% to more than 30%, the risk has typically been highest in populations with increased susceptibility for thrombus formation, such as smokers and patients with diabetes.

Preventing radial artery occlusion has several benefits, not least of which is preserving this access point for future interventions, according to Dr. Hammami.

RIVARAD is the largest study to evaluate an anticoagulant for the prevention of radial artery occlusion, but it is not the first. Earlier in 2022, a Chinese trial called RESTORE was published in Circulation: Cardiovascular Interventions. In that placebo-controlled study of 382 patients, 7 days of 10 mg rivaroxaban was also linked to a significant reduction in radial artery occlusion at 30 days (3.8% vs. 11.5%; P = .011).

“We don’t know if a higher dose of rivaroxaban would be more effective and equally safe,” said Dr. Hammami, but added that a Canadian trial called CAPITAL RAPTOR will test this premise. In this trial, there is a planned enrollment of 1,800 patients who will be randomized to 15 mg rivaroxaban or standard treatment.

Occlusion risk appears underappreciated

The risk of radial artery occlusion might be underappreciated. According to data cited by Dr. Hammami, only about half of interventionalists in the United States and fewer than 10% outside of the United States routinely assess radial artery patency in conjunction with radial-access PCI. The data from this trial suggest that the risk can be substantially reduced, particularly in high-risk patients, with anticoagulant therapy.

Mount Sinai Medical Center

Agreeing that this is a potentially avoidable complication, Roxanna Mehran, MD, director of interventional cardiovascular research and clinical trials, Icahn School of Medicine at Mount Sinai, New York, called the RIVARAD study “a clinically meaningful trial,” and valuable for identifying risk factors as well as for showing a treatment effect and acceptable safety from a short course of a factor Xa inhibitor.

“This is very important work,” said Dr. Mehran, who praised the quality of the study and the contribution it makes for considering how and when prophylaxis is needed.

Dr. Hammami reported no potential conflicts of interest. Dr. Mehran has financial relationships with more than 25 pharmaceutical companies but none with the sponsor of this trial, which was funded by Philadelphia Pharma, a drug company based in Tunisia.

BOSTON – Following transradial access for angiography or a percutaneous coronary intervention (PCI), a low dose of the factor Xa inhibitor rivaroxaban for 7 days reduces the risk of an access-site occlusion by 50%, according to results of the randomized RIVARAD trial.

Of two multicenter, randomized trials to address this question it is the larger, according to Rania Hammami, MD, who presented the results at the Transcatheter Cardiovascular Therapeutics annual meeting.

Ted Bosworth/MDedge News

In the open-label RIVARAD trial, 538 patients were randomized to 10 mg rivaroxaban or standard care alone. Standard care at the beginning of the procedure included unfractionated heparin in a dose of 50 IU/kg for angiography and up to 100 IU/kg for PCI. Manual compression was applied at the end of the procedure followed by an evaluation for complications, such as hematoma or aneurysm.

For the primary outcome of radial access occlusion at 30 days, the lower rate in the rivaroxaban arm (6.9% vs. 13.0%) translated into a statistically significant 50% reduction (odds ratio, 0.50; P = .011).
 

Rivaroxaban preserves radial pulse

Rivaroxaban was also favored for the endpoint of inability at 30 days to find a radial pulse (5.8% vs. 12.2%; P = .01). Interestingly, there was some disparity for this endpoint for clinical examination and ultrasound.

“In 12 patients, we were able to palpate a radial pulse, but the ultrasound showed an occlusion of the vessel, while in 7 patients we could not find a radial pulse even though the radial artery was patent on ultrasound,” Dr. Hammami, of the department of cardiology, Hedi Chaker Hospital, Sfax, Tunisia, said at the meeting, sponsored by the Cardiovascular Research Foundation.

The incidence of hemorrhagic complications was higher in the rivaroxaban group (2.7% vs. 1.9%), but the difference did not approach statistical significance (OR, 1.5; P = .54). Moreover, all of the bleeding complications were minor (Bleeding Academic Research Consortium level 1), and none of the bleeding complications were observed in patients receiving rivaroxaban alone. Rather, all patients with bleeding were taking one or more antiplatelet drugs along with rivaroxaban.

On univariate analysis, several baseline characteristics were associated with subsequent radial occlusion, including female sex (P = .02), current smoking (P = .03), renal failure (P = .004), and PCI for acute coronary syndrome (P = .02). On multivariate analysis, female sex (P = .001) and current smoking (P < .0001) became even stronger predictors of occlusion on a statistical basis, while a prior procedure involving radial access was also a significant predictor (P = .029).

“One woman out of two developed radial access occlusion if she had a history of smoking and had a history of a transradial puncture,” Dr. Hammami reported.

In a subgroup analysis, relative protection from radial artery occlusion from a 7-day course of rivaroxaban was particularly pronounced in those with diabetes, renal failure, or hypertension relative to those without these conditions, but the protective effect appeared to be about the same regardless of body mass index, age, sheath size, or current use of statins.

These findings are consistent with other studies evaluating the risk of radial access occlusion, according to Dr. Hammami. While different studies she cited reported incidences ranging from less than 1% to more than 30%, the risk has typically been highest in populations with increased susceptibility for thrombus formation, such as smokers and patients with diabetes.

Preventing radial artery occlusion has several benefits, not least of which is preserving this access point for future interventions, according to Dr. Hammami.

RIVARAD is the largest study to evaluate an anticoagulant for the prevention of radial artery occlusion, but it is not the first. Earlier in 2022, a Chinese trial called RESTORE was published in Circulation: Cardiovascular Interventions. In that placebo-controlled study of 382 patients, 7 days of 10 mg rivaroxaban was also linked to a significant reduction in radial artery occlusion at 30 days (3.8% vs. 11.5%; P = .011).

“We don’t know if a higher dose of rivaroxaban would be more effective and equally safe,” said Dr. Hammami, but added that a Canadian trial called CAPITAL RAPTOR will test this premise. In this trial, there is a planned enrollment of 1,800 patients who will be randomized to 15 mg rivaroxaban or standard treatment.

Occlusion risk appears underappreciated

The risk of radial artery occlusion might be underappreciated. According to data cited by Dr. Hammami, only about half of interventionalists in the United States and fewer than 10% outside of the United States routinely assess radial artery patency in conjunction with radial-access PCI. The data from this trial suggest that the risk can be substantially reduced, particularly in high-risk patients, with anticoagulant therapy.

Mount Sinai Medical Center

Agreeing that this is a potentially avoidable complication, Roxanna Mehran, MD, director of interventional cardiovascular research and clinical trials, Icahn School of Medicine at Mount Sinai, New York, called the RIVARAD study “a clinically meaningful trial,” and valuable for identifying risk factors as well as for showing a treatment effect and acceptable safety from a short course of a factor Xa inhibitor.

“This is very important work,” said Dr. Mehran, who praised the quality of the study and the contribution it makes for considering how and when prophylaxis is needed.

Dr. Hammami reported no potential conflicts of interest. Dr. Mehran has financial relationships with more than 25 pharmaceutical companies but none with the sponsor of this trial, which was funded by Philadelphia Pharma, a drug company based in Tunisia.

BOSTON – Following transradial access for angiography or a percutaneous coronary intervention (PCI), a low dose of the factor Xa inhibitor rivaroxaban for 7 days reduces the risk of an access-site occlusion by 50%, according to results of the randomized RIVARAD trial.

Of two multicenter, randomized trials to address this question it is the larger, according to Rania Hammami, MD, who presented the results at the Transcatheter Cardiovascular Therapeutics annual meeting.

Ted Bosworth/MDedge News

In the open-label RIVARAD trial, 538 patients were randomized to 10 mg rivaroxaban or standard care alone. Standard care at the beginning of the procedure included unfractionated heparin in a dose of 50 IU/kg for angiography and up to 100 IU/kg for PCI. Manual compression was applied at the end of the procedure followed by an evaluation for complications, such as hematoma or aneurysm.

For the primary outcome of radial access occlusion at 30 days, the lower rate in the rivaroxaban arm (6.9% vs. 13.0%) translated into a statistically significant 50% reduction (odds ratio, 0.50; P = .011).
 

Rivaroxaban preserves radial pulse

Rivaroxaban was also favored for the endpoint of inability at 30 days to find a radial pulse (5.8% vs. 12.2%; P = .01). Interestingly, there was some disparity for this endpoint for clinical examination and ultrasound.

“In 12 patients, we were able to palpate a radial pulse, but the ultrasound showed an occlusion of the vessel, while in 7 patients we could not find a radial pulse even though the radial artery was patent on ultrasound,” Dr. Hammami, of the department of cardiology, Hedi Chaker Hospital, Sfax, Tunisia, said at the meeting, sponsored by the Cardiovascular Research Foundation.

The incidence of hemorrhagic complications was higher in the rivaroxaban group (2.7% vs. 1.9%), but the difference did not approach statistical significance (OR, 1.5; P = .54). Moreover, all of the bleeding complications were minor (Bleeding Academic Research Consortium level 1), and none of the bleeding complications were observed in patients receiving rivaroxaban alone. Rather, all patients with bleeding were taking one or more antiplatelet drugs along with rivaroxaban.

On univariate analysis, several baseline characteristics were associated with subsequent radial occlusion, including female sex (P = .02), current smoking (P = .03), renal failure (P = .004), and PCI for acute coronary syndrome (P = .02). On multivariate analysis, female sex (P = .001) and current smoking (P < .0001) became even stronger predictors of occlusion on a statistical basis, while a prior procedure involving radial access was also a significant predictor (P = .029).

“One woman out of two developed radial access occlusion if she had a history of smoking and had a history of a transradial puncture,” Dr. Hammami reported.

In a subgroup analysis, relative protection from radial artery occlusion from a 7-day course of rivaroxaban was particularly pronounced in those with diabetes, renal failure, or hypertension relative to those without these conditions, but the protective effect appeared to be about the same regardless of body mass index, age, sheath size, or current use of statins.

These findings are consistent with other studies evaluating the risk of radial access occlusion, according to Dr. Hammami. While different studies she cited reported incidences ranging from less than 1% to more than 30%, the risk has typically been highest in populations with increased susceptibility for thrombus formation, such as smokers and patients with diabetes.

Preventing radial artery occlusion has several benefits, not least of which is preserving this access point for future interventions, according to Dr. Hammami.

RIVARAD is the largest study to evaluate an anticoagulant for the prevention of radial artery occlusion, but it is not the first. Earlier in 2022, a Chinese trial called RESTORE was published in Circulation: Cardiovascular Interventions. In that placebo-controlled study of 382 patients, 7 days of 10 mg rivaroxaban was also linked to a significant reduction in radial artery occlusion at 30 days (3.8% vs. 11.5%; P = .011).

“We don’t know if a higher dose of rivaroxaban would be more effective and equally safe,” said Dr. Hammami, but added that a Canadian trial called CAPITAL RAPTOR will test this premise. In this trial, there is a planned enrollment of 1,800 patients who will be randomized to 15 mg rivaroxaban or standard treatment.

Occlusion risk appears underappreciated

The risk of radial artery occlusion might be underappreciated. According to data cited by Dr. Hammami, only about half of interventionalists in the United States and fewer than 10% outside of the United States routinely assess radial artery patency in conjunction with radial-access PCI. The data from this trial suggest that the risk can be substantially reduced, particularly in high-risk patients, with anticoagulant therapy.

Mount Sinai Medical Center

Agreeing that this is a potentially avoidable complication, Roxanna Mehran, MD, director of interventional cardiovascular research and clinical trials, Icahn School of Medicine at Mount Sinai, New York, called the RIVARAD study “a clinically meaningful trial,” and valuable for identifying risk factors as well as for showing a treatment effect and acceptable safety from a short course of a factor Xa inhibitor.

“This is very important work,” said Dr. Mehran, who praised the quality of the study and the contribution it makes for considering how and when prophylaxis is needed.

Dr. Hammami reported no potential conflicts of interest. Dr. Mehran has financial relationships with more than 25 pharmaceutical companies but none with the sponsor of this trial, which was funded by Philadelphia Pharma, a drug company based in Tunisia.

The European Society of Cardiology guidelines on cardiovascular assessment and management of patients undergoing noncardiac surgery have seen extensive revision since the 2014 version.

They still have the same aim – to prevent surgery-related bleeding complications, perioperative myocardial infarction/injury (PMI), stent thrombosis, acute heart failure, arrhythmias, pulmonary embolism, ischemic stroke, and cardiovascular (CV) death.

lyosha_nazarenko/Thinkstock

Cochairpersons Sigrun Halvorsen, MD, PhD, and Julinda Mehilli, MD, presented highlights from the guidelines at the annual congress of the European Society of Cardiology and the document was simultaneously published online in the European Heart Journal.

The document classifies noncardiac surgery into three levels of 30-day risk of CV death, MI, or stroke. Low (< 1%) risk includes eye or thyroid surgery; intermediate (1%-5%) risk includes knee or hip replacement or renal transplant; and high (> 5%) risk includes aortic aneurysm, lung transplant, or pancreatic or bladder cancer surgery (see more examples below).

It classifies patients as low risk if they are younger than 65 without CV disease or CV risk factors (smoking, hypertension, diabetes, dyslipidemia, family history); intermediate risk if they are 65 or older or have CV risk factors; and high risk if they have CVD.  

In an interview, Dr. Halvorsen, professor in cardiology, University of Oslo, zeroed in on three important revisions:

First, recommendations for preoperative ECG and biomarkers are more specific, he noted.

The guidelines advise that before intermediate- or high-risk noncardiac surgery, in patients who have known CVD, CV risk factors (including age 65 or older), or symptoms suggestive of CVD:

• It is recommended to obtain a preoperative 12-lead ECG (class I).
• It is recommended to measure high-sensitivity cardiac troponin T (hs-cTn T) or high-sensitivity cardiac troponin I (hs-cTn I). It is also recommended to measure these biomarkers at 24 hours and 48 hours post surgery (class I).
• It should be considered to measure B-type natriuretic peptide or N-terminal of the prohormone BNP (NT-proBNP).

However, for low-risk patients undergoing low- and intermediate-risk noncardiac surgery, it is not recommended to routinely obtain preoperative ECG, hs-cTn T/I, or BNP/NT-proBNP concentrations (class III).

Troponins have a stronger class I recommendation, compared with the IIA recommendation for BNP, because they are useful for preoperative risk stratification and for diagnosis of PMI, Dr. Halvorsen explained. “Patients receive painkillers after surgery and may have no pain,” she noted, but they may have PMI, which has a bad prognosis.

Second, the guidelines recommend that “all patients should stop smoking 4 weeks before noncardiac surgery [class I],” she noted. Clinicians should also “measure hemoglobin, and if the patient is anemic, treat the anemia.”

Third, the sections on antithrombotic treatment have been significantly revised. “Bridging – stopping an oral antithrombotic drug and switching to a subcutaneous or IV drug – has been common,” Dr. Halvorsen said, “but recently we have new evidence that in most cases that increases the risk of bleeding.”

“We are [now] much more restrictive with respect to bridging” with unfractionated heparin or low-molecular-weight heparin, she said. “We recommend against bridging in patients with low to moderate thrombotic risk,” and bridging should only be considered in patients with mechanical prosthetic heart valves or with very high thrombotic risk.
 

More preoperative recommendations

In the guideline overview session at the congress, Dr. Halverson highlighted some of the new recommendations for preoperative risk assessment.  

If time allows, it is recommended to optimize guideline-recommended treatment of CVD and control of CV risk factors including blood pressure, dyslipidemia, and diabetes, before noncardiac surgery (class I).

Patients commonly have “murmurs, chest pain, dyspnea, and edema that may suggest severe CVD, but may also be caused by noncardiac disease,” she noted. The guidelines state that “for patients with a newly detected murmur and symptoms or signs of CVD, transthoracic echocardiography is recommended before noncardiac surgery (class I).

“Many studies have been performed to try to find out if initiation of specific drugs before surgery could reduce the risk of complications,” Dr. Halvorsen noted. However, few have shown any benefit and “the question of presurgery initiation of beta-blockers has been greatly debated,” she said. “We have again reviewed the literature and concluded ‘Routine initiation of beta-blockers perioperatively is not recommended (class IIIA).’ “

“We adhere to the guidelines on acute and chronic coronary syndrome recommending 6-12 months of dual antiplatelet treatment as a standard before elective surgery,” she said. “However, in case of time-sensitive surgery, the duration of that treatment can be shortened down to a minimum of 1 month after elective PCI and a minimum of 3 months after PCI and ACS.”
 

Patients with specific types of CVD

Dr. Mehilli, a professor at Landshut-Achdorf (Germany) Hospital, highlighted some new guideline recommendations for patients who have specific types of cardiovascular disease.

Coronary artery disease (CAD). “For chronic coronary syndrome, a cardiac workup is recommended only for patients undergoing intermediate risk or high-risk noncardiac surgery.”

“Stress imaging should be considered before any high risk, noncardiac surgery in asymptomatic patients with poor functional capacity and prior PCI or coronary artery bypass graft (new recommendation, class IIa).”

Mitral valve regurgitation. For patients undergoing scheduled noncardiac surgery, who remain symptomatic despite guideline-directed medical treatment for mitral valve regurgitation (including resynchronization and myocardial revascularization), consider a valve intervention – either transcatheter or surgical – before noncardiac surgery in eligible patients with acceptable procedural risk (new recommendation).

Cardiac implantable electronic devices (CIED). For high-risk patients with CIEDs undergoing noncardiac surgery with high probability of electromagnetic interference, a CIED checkup and necessary reprogramming immediately before the procedure should be considered (new recommendation).

Arrhythmias. “I want only to stress,” Dr. Mehilli said, “in patients with atrial fibrillation with acute or worsening hemodynamic instability undergoing noncardiac surgery, an emergency electrical cardioversion is recommended (class I).”

Peripheral artery disease (PAD) and abdominal aortic aneurysm. For these patients “we do not recommend a routine referral for a cardiac workup. But we recommend it for patients with poor functional capacity or with significant risk factors or symptoms (new recommendations).”

Chronic arterial hypertension. “We have modified the recommendation, recommending avoidance of large perioperative fluctuations in blood pressure, and we do not recommend deferring noncardiac surgery in patients with stage 1 or 2 hypertension,” she said.
 

Postoperative cardiovascular complications

The most frequent postoperative cardiovascular complication is PMI, Dr. Mehilli noted.

“In the BASEL-PMI registry, the incidence of this complication around intermediate or high-risk noncardiac surgery was up to 15% among patients older than 65 years or with a history of CAD or PAD, which makes this kind of complication really important to prevent, to assess, and to know how to treat.”

“It is recommended to have a high awareness for perioperative cardiovascular complications, combined with surveillance for PMI in patients undergoing intermediate- or high-risk noncardiac surgery” based on serial measurements of high-sensitivity cardiac troponin.

The guidelines define PMI as “an increase in the delta of high-sensitivity troponin more than the upper level of normal,” Dr. Mehilli said. “It’s different from the one used in a rule-in algorithm for non-STEMI acute coronary syndrome.”

Postoperative atrial fibrillation (AFib) is observed in 2%-30% of noncardiac surgery patients in different registries, particularly in patients undergoing intermediate or high-risk noncardiac surgery, she noted.

“We propose an algorithm on how to prevent and treat this complication. I want to highlight that in patients with hemodynamic unstable postoperative AF[ib], an emergency cardioversion is indicated. For the others, a rate control with the target heart rate of less than 110 beats per minute is indicated.”

In patients with postoperative AFib, long-term oral anticoagulation therapy should be considered in all patients at risk for stroke, considering the anticipated net clinical benefit of oral anticoagulation therapy as well as informed patient preference (new recommendations).

Routine use of beta-blockers to prevent postoperative AFib in patients undergoing noncardiac surgery is not recommended.

The document also covers the management of patients with kidney disease, diabetes, cancer, obesity, and COVID-19. In general, elective noncardiac surgery should be postponed after a patient has COVID-19, until he or she recovers completely, and coexisting conditions are optimized.

The guidelines are available from the ESC website in several formats: pocket guidelines, pocket guidelines smartphone app, guidelines slide set, essential messages, and the European Heart Journal article.
 

Noncardiac surgery risk categories

The guideline includes a table that classifies noncardiac surgeries into three groups, based on the associated 30-day risk of death, MI, or stroke:

• Low (< 1%): breast, dental, eye, thyroid, and minor gynecologic, orthopedic, and urologic surgery.
• Intermediate (1%-5%): carotid surgery, endovascular aortic aneurysm repair, gallbladder surgery, head or neck surgery, hernia repair, peripheral arterial angioplasty, renal transplant, major gynecologic, orthopedic, or neurologic (hip or spine) surgery, or urologic surgery
• High (> 5%): aortic and major vascular surgery (including aortic aneurysm), bladder removal (usually as a result of cancer), limb amputation, lung or liver transplant, pancreatic surgery, or perforated bowel repair.

The guidelines were endorsed by the European Society of Anaesthesiology and Intensive Care. The guideline authors reported numerous disclosures.

A version of this article first appeared on Medscape.com.

The European Society of Cardiology guidelines on cardiovascular assessment and management of patients undergoing noncardiac surgery have seen extensive revision since the 2014 version.

They still have the same aim – to prevent surgery-related bleeding complications, perioperative myocardial infarction/injury (PMI), stent thrombosis, acute heart failure, arrhythmias, pulmonary embolism, ischemic stroke, and cardiovascular (CV) death.

lyosha_nazarenko/Thinkstock

Cochairpersons Sigrun Halvorsen, MD, PhD, and Julinda Mehilli, MD, presented highlights from the guidelines at the annual congress of the European Society of Cardiology and the document was simultaneously published online in the European Heart Journal.

The document classifies noncardiac surgery into three levels of 30-day risk of CV death, MI, or stroke. Low (< 1%) risk includes eye or thyroid surgery; intermediate (1%-5%) risk includes knee or hip replacement or renal transplant; and high (> 5%) risk includes aortic aneurysm, lung transplant, or pancreatic or bladder cancer surgery (see more examples below).

It classifies patients as low risk if they are younger than 65 without CV disease or CV risk factors (smoking, hypertension, diabetes, dyslipidemia, family history); intermediate risk if they are 65 or older or have CV risk factors; and high risk if they have CVD.  

In an interview, Dr. Halvorsen, professor in cardiology, University of Oslo, zeroed in on three important revisions:

First, recommendations for preoperative ECG and biomarkers are more specific, he noted.

The guidelines advise that before intermediate- or high-risk noncardiac surgery, in patients who have known CVD, CV risk factors (including age 65 or older), or symptoms suggestive of CVD:

• It is recommended to obtain a preoperative 12-lead ECG (class I).
• It is recommended to measure high-sensitivity cardiac troponin T (hs-cTn T) or high-sensitivity cardiac troponin I (hs-cTn I). It is also recommended to measure these biomarkers at 24 hours and 48 hours post surgery (class I).
• It should be considered to measure B-type natriuretic peptide or N-terminal of the prohormone BNP (NT-proBNP).

However, for low-risk patients undergoing low- and intermediate-risk noncardiac surgery, it is not recommended to routinely obtain preoperative ECG, hs-cTn T/I, or BNP/NT-proBNP concentrations (class III).

Troponins have a stronger class I recommendation, compared with the IIA recommendation for BNP, because they are useful for preoperative risk stratification and for diagnosis of PMI, Dr. Halvorsen explained. “Patients receive painkillers after surgery and may have no pain,” she noted, but they may have PMI, which has a bad prognosis.

Second, the guidelines recommend that “all patients should stop smoking 4 weeks before noncardiac surgery [class I],” she noted. Clinicians should also “measure hemoglobin, and if the patient is anemic, treat the anemia.”

Third, the sections on antithrombotic treatment have been significantly revised. “Bridging – stopping an oral antithrombotic drug and switching to a subcutaneous or IV drug – has been common,” Dr. Halvorsen said, “but recently we have new evidence that in most cases that increases the risk of bleeding.”

“We are [now] much more restrictive with respect to bridging” with unfractionated heparin or low-molecular-weight heparin, she said. “We recommend against bridging in patients with low to moderate thrombotic risk,” and bridging should only be considered in patients with mechanical prosthetic heart valves or with very high thrombotic risk.
 

More preoperative recommendations

In the guideline overview session at the congress, Dr. Halverson highlighted some of the new recommendations for preoperative risk assessment.  

If time allows, it is recommended to optimize guideline-recommended treatment of CVD and control of CV risk factors including blood pressure, dyslipidemia, and diabetes, before noncardiac surgery (class I).

Patients commonly have “murmurs, chest pain, dyspnea, and edema that may suggest severe CVD, but may also be caused by noncardiac disease,” she noted. The guidelines state that “for patients with a newly detected murmur and symptoms or signs of CVD, transthoracic echocardiography is recommended before noncardiac surgery (class I).

“Many studies have been performed to try to find out if initiation of specific drugs before surgery could reduce the risk of complications,” Dr. Halvorsen noted. However, few have shown any benefit and “the question of presurgery initiation of beta-blockers has been greatly debated,” she said. “We have again reviewed the literature and concluded ‘Routine initiation of beta-blockers perioperatively is not recommended (class IIIA).’ “

“We adhere to the guidelines on acute and chronic coronary syndrome recommending 6-12 months of dual antiplatelet treatment as a standard before elective surgery,” she said. “However, in case of time-sensitive surgery, the duration of that treatment can be shortened down to a minimum of 1 month after elective PCI and a minimum of 3 months after PCI and ACS.”
 

Patients with specific types of CVD

Dr. Mehilli, a professor at Landshut-Achdorf (Germany) Hospital, highlighted some new guideline recommendations for patients who have specific types of cardiovascular disease.

Coronary artery disease (CAD). “For chronic coronary syndrome, a cardiac workup is recommended only for patients undergoing intermediate risk or high-risk noncardiac surgery.”

“Stress imaging should be considered before any high risk, noncardiac surgery in asymptomatic patients with poor functional capacity and prior PCI or coronary artery bypass graft (new recommendation, class IIa).”

Mitral valve regurgitation. For patients undergoing scheduled noncardiac surgery, who remain symptomatic despite guideline-directed medical treatment for mitral valve regurgitation (including resynchronization and myocardial revascularization), consider a valve intervention – either transcatheter or surgical – before noncardiac surgery in eligible patients with acceptable procedural risk (new recommendation).

Cardiac implantable electronic devices (CIED). For high-risk patients with CIEDs undergoing noncardiac surgery with high probability of electromagnetic interference, a CIED checkup and necessary reprogramming immediately before the procedure should be considered (new recommendation).

Arrhythmias. “I want only to stress,” Dr. Mehilli said, “in patients with atrial fibrillation with acute or worsening hemodynamic instability undergoing noncardiac surgery, an emergency electrical cardioversion is recommended (class I).”

Peripheral artery disease (PAD) and abdominal aortic aneurysm. For these patients “we do not recommend a routine referral for a cardiac workup. But we recommend it for patients with poor functional capacity or with significant risk factors or symptoms (new recommendations).”

Chronic arterial hypertension. “We have modified the recommendation, recommending avoidance of large perioperative fluctuations in blood pressure, and we do not recommend deferring noncardiac surgery in patients with stage 1 or 2 hypertension,” she said.
 

Postoperative cardiovascular complications

The most frequent postoperative cardiovascular complication is PMI, Dr. Mehilli noted.

“In the BASEL-PMI registry, the incidence of this complication around intermediate or high-risk noncardiac surgery was up to 15% among patients older than 65 years or with a history of CAD or PAD, which makes this kind of complication really important to prevent, to assess, and to know how to treat.”

“It is recommended to have a high awareness for perioperative cardiovascular complications, combined with surveillance for PMI in patients undergoing intermediate- or high-risk noncardiac surgery” based on serial measurements of high-sensitivity cardiac troponin.

The guidelines define PMI as “an increase in the delta of high-sensitivity troponin more than the upper level of normal,” Dr. Mehilli said. “It’s different from the one used in a rule-in algorithm for non-STEMI acute coronary syndrome.”

Postoperative atrial fibrillation (AFib) is observed in 2%-30% of noncardiac surgery patients in different registries, particularly in patients undergoing intermediate or high-risk noncardiac surgery, she noted.

“We propose an algorithm on how to prevent and treat this complication. I want to highlight that in patients with hemodynamic unstable postoperative AF[ib], an emergency cardioversion is indicated. For the others, a rate control with the target heart rate of less than 110 beats per minute is indicated.”

In patients with postoperative AFib, long-term oral anticoagulation therapy should be considered in all patients at risk for stroke, considering the anticipated net clinical benefit of oral anticoagulation therapy as well as informed patient preference (new recommendations).

Routine use of beta-blockers to prevent postoperative AFib in patients undergoing noncardiac surgery is not recommended.

The document also covers the management of patients with kidney disease, diabetes, cancer, obesity, and COVID-19. In general, elective noncardiac surgery should be postponed after a patient has COVID-19, until he or she recovers completely, and coexisting conditions are optimized.

The guidelines are available from the ESC website in several formats: pocket guidelines, pocket guidelines smartphone app, guidelines slide set, essential messages, and the European Heart Journal article.
 

Noncardiac surgery risk categories

The guideline includes a table that classifies noncardiac surgeries into three groups, based on the associated 30-day risk of death, MI, or stroke:

• Low (< 1%): breast, dental, eye, thyroid, and minor gynecologic, orthopedic, and urologic surgery.
• Intermediate (1%-5%): carotid surgery, endovascular aortic aneurysm repair, gallbladder surgery, head or neck surgery, hernia repair, peripheral arterial angioplasty, renal transplant, major gynecologic, orthopedic, or neurologic (hip or spine) surgery, or urologic surgery
• High (> 5%): aortic and major vascular surgery (including aortic aneurysm), bladder removal (usually as a result of cancer), limb amputation, lung or liver transplant, pancreatic surgery, or perforated bowel repair.

The guidelines were endorsed by the European Society of Anaesthesiology and Intensive Care. The guideline authors reported numerous disclosures.

A version of this article first appeared on Medscape.com.

The European Society of Cardiology guidelines on cardiovascular assessment and management of patients undergoing noncardiac surgery have seen extensive revision since the 2014 version.

They still have the same aim – to prevent surgery-related bleeding complications, perioperative myocardial infarction/injury (PMI), stent thrombosis, acute heart failure, arrhythmias, pulmonary embolism, ischemic stroke, and cardiovascular (CV) death.

lyosha_nazarenko/Thinkstock

Cochairpersons Sigrun Halvorsen, MD, PhD, and Julinda Mehilli, MD, presented highlights from the guidelines at the annual congress of the European Society of Cardiology and the document was simultaneously published online in the European Heart Journal.

The document classifies noncardiac surgery into three levels of 30-day risk of CV death, MI, or stroke. Low (< 1%) risk includes eye or thyroid surgery; intermediate (1%-5%) risk includes knee or hip replacement or renal transplant; and high (> 5%) risk includes aortic aneurysm, lung transplant, or pancreatic or bladder cancer surgery (see more examples below).

It classifies patients as low risk if they are younger than 65 without CV disease or CV risk factors (smoking, hypertension, diabetes, dyslipidemia, family history); intermediate risk if they are 65 or older or have CV risk factors; and high risk if they have CVD.  

In an interview, Dr. Halvorsen, professor in cardiology, University of Oslo, zeroed in on three important revisions:

First, recommendations for preoperative ECG and biomarkers are more specific, he noted.

The guidelines advise that before intermediate- or high-risk noncardiac surgery, in patients who have known CVD, CV risk factors (including age 65 or older), or symptoms suggestive of CVD:

• It is recommended to obtain a preoperative 12-lead ECG (class I).
• It is recommended to measure high-sensitivity cardiac troponin T (hs-cTn T) or high-sensitivity cardiac troponin I (hs-cTn I). It is also recommended to measure these biomarkers at 24 hours and 48 hours post surgery (class I).
• It should be considered to measure B-type natriuretic peptide or N-terminal of the prohormone BNP (NT-proBNP).

However, for low-risk patients undergoing low- and intermediate-risk noncardiac surgery, it is not recommended to routinely obtain preoperative ECG, hs-cTn T/I, or BNP/NT-proBNP concentrations (class III).

Troponins have a stronger class I recommendation, compared with the IIA recommendation for BNP, because they are useful for preoperative risk stratification and for diagnosis of PMI, Dr. Halvorsen explained. “Patients receive painkillers after surgery and may have no pain,” she noted, but they may have PMI, which has a bad prognosis.

Second, the guidelines recommend that “all patients should stop smoking 4 weeks before noncardiac surgery [class I],” she noted. Clinicians should also “measure hemoglobin, and if the patient is anemic, treat the anemia.”

Third, the sections on antithrombotic treatment have been significantly revised. “Bridging – stopping an oral antithrombotic drug and switching to a subcutaneous or IV drug – has been common,” Dr. Halvorsen said, “but recently we have new evidence that in most cases that increases the risk of bleeding.”

“We are [now] much more restrictive with respect to bridging” with unfractionated heparin or low-molecular-weight heparin, she said. “We recommend against bridging in patients with low to moderate thrombotic risk,” and bridging should only be considered in patients with mechanical prosthetic heart valves or with very high thrombotic risk.
 

More preoperative recommendations

In the guideline overview session at the congress, Dr. Halverson highlighted some of the new recommendations for preoperative risk assessment.  

If time allows, it is recommended to optimize guideline-recommended treatment of CVD and control of CV risk factors including blood pressure, dyslipidemia, and diabetes, before noncardiac surgery (class I).

Patients commonly have “murmurs, chest pain, dyspnea, and edema that may suggest severe CVD, but may also be caused by noncardiac disease,” she noted. The guidelines state that “for patients with a newly detected murmur and symptoms or signs of CVD, transthoracic echocardiography is recommended before noncardiac surgery (class I).

“Many studies have been performed to try to find out if initiation of specific drugs before surgery could reduce the risk of complications,” Dr. Halvorsen noted. However, few have shown any benefit and “the question of presurgery initiation of beta-blockers has been greatly debated,” she said. “We have again reviewed the literature and concluded ‘Routine initiation of beta-blockers perioperatively is not recommended (class IIIA).’ “

“We adhere to the guidelines on acute and chronic coronary syndrome recommending 6-12 months of dual antiplatelet treatment as a standard before elective surgery,” she said. “However, in case of time-sensitive surgery, the duration of that treatment can be shortened down to a minimum of 1 month after elective PCI and a minimum of 3 months after PCI and ACS.”
 

Patients with specific types of CVD

Dr. Mehilli, a professor at Landshut-Achdorf (Germany) Hospital, highlighted some new guideline recommendations for patients who have specific types of cardiovascular disease.

Coronary artery disease (CAD). “For chronic coronary syndrome, a cardiac workup is recommended only for patients undergoing intermediate risk or high-risk noncardiac surgery.”

“Stress imaging should be considered before any high risk, noncardiac surgery in asymptomatic patients with poor functional capacity and prior PCI or coronary artery bypass graft (new recommendation, class IIa).”

Mitral valve regurgitation. For patients undergoing scheduled noncardiac surgery, who remain symptomatic despite guideline-directed medical treatment for mitral valve regurgitation (including resynchronization and myocardial revascularization), consider a valve intervention – either transcatheter or surgical – before noncardiac surgery in eligible patients with acceptable procedural risk (new recommendation).

Cardiac implantable electronic devices (CIED). For high-risk patients with CIEDs undergoing noncardiac surgery with high probability of electromagnetic interference, a CIED checkup and necessary reprogramming immediately before the procedure should be considered (new recommendation).

Arrhythmias. “I want only to stress,” Dr. Mehilli said, “in patients with atrial fibrillation with acute or worsening hemodynamic instability undergoing noncardiac surgery, an emergency electrical cardioversion is recommended (class I).”

Peripheral artery disease (PAD) and abdominal aortic aneurysm. For these patients “we do not recommend a routine referral for a cardiac workup. But we recommend it for patients with poor functional capacity or with significant risk factors or symptoms (new recommendations).”

Chronic arterial hypertension. “We have modified the recommendation, recommending avoidance of large perioperative fluctuations in blood pressure, and we do not recommend deferring noncardiac surgery in patients with stage 1 or 2 hypertension,” she said.
 

Postoperative cardiovascular complications

The most frequent postoperative cardiovascular complication is PMI, Dr. Mehilli noted.

“In the BASEL-PMI registry, the incidence of this complication around intermediate or high-risk noncardiac surgery was up to 15% among patients older than 65 years or with a history of CAD or PAD, which makes this kind of complication really important to prevent, to assess, and to know how to treat.”

“It is recommended to have a high awareness for perioperative cardiovascular complications, combined with surveillance for PMI in patients undergoing intermediate- or high-risk noncardiac surgery” based on serial measurements of high-sensitivity cardiac troponin.

The guidelines define PMI as “an increase in the delta of high-sensitivity troponin more than the upper level of normal,” Dr. Mehilli said. “It’s different from the one used in a rule-in algorithm for non-STEMI acute coronary syndrome.”

Postoperative atrial fibrillation (AFib) is observed in 2%-30% of noncardiac surgery patients in different registries, particularly in patients undergoing intermediate or high-risk noncardiac surgery, she noted.

“We propose an algorithm on how to prevent and treat this complication. I want to highlight that in patients with hemodynamic unstable postoperative AF[ib], an emergency cardioversion is indicated. For the others, a rate control with the target heart rate of less than 110 beats per minute is indicated.”

In patients with postoperative AFib, long-term oral anticoagulation therapy should be considered in all patients at risk for stroke, considering the anticipated net clinical benefit of oral anticoagulation therapy as well as informed patient preference (new recommendations).

Routine use of beta-blockers to prevent postoperative AFib in patients undergoing noncardiac surgery is not recommended.

The document also covers the management of patients with kidney disease, diabetes, cancer, obesity, and COVID-19. In general, elective noncardiac surgery should be postponed after a patient has COVID-19, until he or she recovers completely, and coexisting conditions are optimized.

The guidelines are available from the ESC website in several formats: pocket guidelines, pocket guidelines smartphone app, guidelines slide set, essential messages, and the European Heart Journal article.
 

Noncardiac surgery risk categories

The guideline includes a table that classifies noncardiac surgeries into three groups, based on the associated 30-day risk of death, MI, or stroke:

• Low (< 1%): breast, dental, eye, thyroid, and minor gynecologic, orthopedic, and urologic surgery.
• Intermediate (1%-5%): carotid surgery, endovascular aortic aneurysm repair, gallbladder surgery, head or neck surgery, hernia repair, peripheral arterial angioplasty, renal transplant, major gynecologic, orthopedic, or neurologic (hip or spine) surgery, or urologic surgery
• High (> 5%): aortic and major vascular surgery (including aortic aneurysm), bladder removal (usually as a result of cancer), limb amputation, lung or liver transplant, pancreatic surgery, or perforated bowel repair.

The guidelines were endorsed by the European Society of Anaesthesiology and Intensive Care. The guideline authors reported numerous disclosures.

A version of this article first appeared on Medscape.com.

Individuals with type A blood have a 16% higher risk for early onset stroke (EOS) than those with other blood types, new research shows.

Conversely, results from a meta-analysis of nearly 17,000 cases of ischemic stroke in adults younger than 60 years showed that having type O blood reduced the risk for EOS by 12%.

In addition, the associations with risk were significantly stronger in EOS than in those with late-onset stroke (LOS), pointing to a stronger role for prothrombotic factors in younger patients, the researchers noted.

“What this is telling us is that maybe what makes you susceptible to stroke as a young adult is the blood type, which is really giving you a much higher risk of clotting and stroke compared to later onset,” coinvestigator Braxton Mitchell, PhD, professor of medicine and epidemiology and public health at the University of Maryland, Baltimore, said in an interview.

The findings were published online in Neurology.
 

Strong association

The genome-wide association study (GWAS) was done as part of the Genetics of Early Onset Ischemic Stroke Consortium, a collaboration of 48 different studies across North America, Europe, Japan, Pakistan, and Australia. It assessed early onset ischemic stroke in patients aged 18-59 years.

Researchers included data from 16,927 patients with stroke. Of these, 5,825 had a stroke before age 60, defined as early onset. GWAS results were also examined for nearly 600,000 individuals without stroke.

Results showed two genetic variants tied to blood types A and O emerged as highly associated with risk for early stroke.

Researchers found that the protective effects of type O were significantly stronger with EOS vs. LOS (odds ratio [OR], 0.88 vs. 0.96, respectively; P = .001). Likewise, the association between type A and increased EOS risk was significantly stronger than that found in LOS (OR, 1.16 vs. 1.05; P = .005).

Using polygenic risk scores, the investigators also found that the greater genetic risk for venous thromboembolism, another prothrombotic condition, was more strongly associated with EOS compared with LOS (P = .008).

Previous studies have shown a link between stroke risk and variants of the ABO gene, which determines blood type. The new analysis suggests that type A and O gene variants represent nearly all of those genetically linked with early stroke, the researchers noted.

While the findings point to blood type as a risk factor for stroke in younger people, Dr. Mitchell cautions that “at the moment, blood group does not have implications for preventive care.”

“The risk of stroke due to blood type is smaller than other risk factors that we know about, like smoking and hypertension,” he said. “I would be much more worried about these other risk factors, especially because those may be modifiable.”

He noted the next step in the study is to assess how blood type interacts with other known risk factors to raise stroke risk.

“There may be a subset of people where, if you have blood type A and you have some of these other risk factors, it’s possible that you may be at particularly high risk,” Dr. Mitchell said.
 

More research needed on younger patients

In an accompanying editorial, Jennifer Juhl Majersik, MD, associate professor of neurology at the University of Utah, Salt Lake City, and Paul Lacaze, PhD, associate professor and head of the public health genomics program at Monash University, Australia, noted that the study fills a gap in stroke research, which often focuses mostly on older individuals.

“In approximately 40% of people with EOS, the stroke is cryptogenic, and there is scant data from clinical trials to guide the selection of preventative strategies in this population, as people with EOS are often excluded from trials,” Dr. Majersik and Dr. Lacaze wrote.

“This work has deepened our understanding of EOS pathophysiology,” they added.

The editorialists noted that future research can build on the results from this analysis, “with the goal of a more precise understanding of stroke pathophysiology, leading to targeted preventative treatments for EOS and a reduction in disability in patients’ most productive years.”

Dr. Mitchell echoed the call for greater inclusion of young patients with stroke in clinical trials.

“As we’re learning, stroke in older folks isn’t the same as stroke in younger people,” he said. “There are many shared risk factors but there are also some that are different ... so there really is a need to include younger people.”

A version of this article first appeared on Medscape.com.

Individuals with type A blood have a 16% higher risk for early onset stroke (EOS) than those with other blood types, new research shows.

Conversely, results from a meta-analysis of nearly 17,000 cases of ischemic stroke in adults younger than 60 years showed that having type O blood reduced the risk for EOS by 12%.

In addition, the associations with risk were significantly stronger in EOS than in those with late-onset stroke (LOS), pointing to a stronger role for prothrombotic factors in younger patients, the researchers noted.

“What this is telling us is that maybe what makes you susceptible to stroke as a young adult is the blood type, which is really giving you a much higher risk of clotting and stroke compared to later onset,” coinvestigator Braxton Mitchell, PhD, professor of medicine and epidemiology and public health at the University of Maryland, Baltimore, said in an interview.

The findings were published online in Neurology.
 

Strong association

The genome-wide association study (GWAS) was done as part of the Genetics of Early Onset Ischemic Stroke Consortium, a collaboration of 48 different studies across North America, Europe, Japan, Pakistan, and Australia. It assessed early onset ischemic stroke in patients aged 18-59 years.

Researchers included data from 16,927 patients with stroke. Of these, 5,825 had a stroke before age 60, defined as early onset. GWAS results were also examined for nearly 600,000 individuals without stroke.

Results showed two genetic variants tied to blood types A and O emerged as highly associated with risk for early stroke.

Researchers found that the protective effects of type O were significantly stronger with EOS vs. LOS (odds ratio [OR], 0.88 vs. 0.96, respectively; P = .001). Likewise, the association between type A and increased EOS risk was significantly stronger than that found in LOS (OR, 1.16 vs. 1.05; P = .005).

Using polygenic risk scores, the investigators also found that the greater genetic risk for venous thromboembolism, another prothrombotic condition, was more strongly associated with EOS compared with LOS (P = .008).

Previous studies have shown a link between stroke risk and variants of the ABO gene, which determines blood type. The new analysis suggests that type A and O gene variants represent nearly all of those genetically linked with early stroke, the researchers noted.

While the findings point to blood type as a risk factor for stroke in younger people, Dr. Mitchell cautions that “at the moment, blood group does not have implications for preventive care.”

“The risk of stroke due to blood type is smaller than other risk factors that we know about, like smoking and hypertension,” he said. “I would be much more worried about these other risk factors, especially because those may be modifiable.”

He noted the next step in the study is to assess how blood type interacts with other known risk factors to raise stroke risk.

“There may be a subset of people where, if you have blood type A and you have some of these other risk factors, it’s possible that you may be at particularly high risk,” Dr. Mitchell said.
 

More research needed on younger patients

In an accompanying editorial, Jennifer Juhl Majersik, MD, associate professor of neurology at the University of Utah, Salt Lake City, and Paul Lacaze, PhD, associate professor and head of the public health genomics program at Monash University, Australia, noted that the study fills a gap in stroke research, which often focuses mostly on older individuals.

“In approximately 40% of people with EOS, the stroke is cryptogenic, and there is scant data from clinical trials to guide the selection of preventative strategies in this population, as people with EOS are often excluded from trials,” Dr. Majersik and Dr. Lacaze wrote.

“This work has deepened our understanding of EOS pathophysiology,” they added.

The editorialists noted that future research can build on the results from this analysis, “with the goal of a more precise understanding of stroke pathophysiology, leading to targeted preventative treatments for EOS and a reduction in disability in patients’ most productive years.”

Dr. Mitchell echoed the call for greater inclusion of young patients with stroke in clinical trials.

“As we’re learning, stroke in older folks isn’t the same as stroke in younger people,” he said. “There are many shared risk factors but there are also some that are different ... so there really is a need to include younger people.”

A version of this article first appeared on Medscape.com.

Individuals with type A blood have a 16% higher risk for early onset stroke (EOS) than those with other blood types, new research shows.

Conversely, results from a meta-analysis of nearly 17,000 cases of ischemic stroke in adults younger than 60 years showed that having type O blood reduced the risk for EOS by 12%.

In addition, the associations with risk were significantly stronger in EOS than in those with late-onset stroke (LOS), pointing to a stronger role for prothrombotic factors in younger patients, the researchers noted.

“What this is telling us is that maybe what makes you susceptible to stroke as a young adult is the blood type, which is really giving you a much higher risk of clotting and stroke compared to later onset,” coinvestigator Braxton Mitchell, PhD, professor of medicine and epidemiology and public health at the University of Maryland, Baltimore, said in an interview.

The findings were published online in Neurology.
 

Strong association

The genome-wide association study (GWAS) was done as part of the Genetics of Early Onset Ischemic Stroke Consortium, a collaboration of 48 different studies across North America, Europe, Japan, Pakistan, and Australia. It assessed early onset ischemic stroke in patients aged 18-59 years.

Researchers included data from 16,927 patients with stroke. Of these, 5,825 had a stroke before age 60, defined as early onset. GWAS results were also examined for nearly 600,000 individuals without stroke.

Results showed two genetic variants tied to blood types A and O emerged as highly associated with risk for early stroke.

Researchers found that the protective effects of type O were significantly stronger with EOS vs. LOS (odds ratio [OR], 0.88 vs. 0.96, respectively; P = .001). Likewise, the association between type A and increased EOS risk was significantly stronger than that found in LOS (OR, 1.16 vs. 1.05; P = .005).

Using polygenic risk scores, the investigators also found that the greater genetic risk for venous thromboembolism, another prothrombotic condition, was more strongly associated with EOS compared with LOS (P = .008).

Previous studies have shown a link between stroke risk and variants of the ABO gene, which determines blood type. The new analysis suggests that type A and O gene variants represent nearly all of those genetically linked with early stroke, the researchers noted.

While the findings point to blood type as a risk factor for stroke in younger people, Dr. Mitchell cautions that “at the moment, blood group does not have implications for preventive care.”

“The risk of stroke due to blood type is smaller than other risk factors that we know about, like smoking and hypertension,” he said. “I would be much more worried about these other risk factors, especially because those may be modifiable.”

He noted the next step in the study is to assess how blood type interacts with other known risk factors to raise stroke risk.

“There may be a subset of people where, if you have blood type A and you have some of these other risk factors, it’s possible that you may be at particularly high risk,” Dr. Mitchell said.
 

More research needed on younger patients

In an accompanying editorial, Jennifer Juhl Majersik, MD, associate professor of neurology at the University of Utah, Salt Lake City, and Paul Lacaze, PhD, associate professor and head of the public health genomics program at Monash University, Australia, noted that the study fills a gap in stroke research, which often focuses mostly on older individuals.

“In approximately 40% of people with EOS, the stroke is cryptogenic, and there is scant data from clinical trials to guide the selection of preventative strategies in this population, as people with EOS are often excluded from trials,” Dr. Majersik and Dr. Lacaze wrote.

“This work has deepened our understanding of EOS pathophysiology,” they added.

The editorialists noted that future research can build on the results from this analysis, “with the goal of a more precise understanding of stroke pathophysiology, leading to targeted preventative treatments for EOS and a reduction in disability in patients’ most productive years.”

Dr. Mitchell echoed the call for greater inclusion of young patients with stroke in clinical trials.

“As we’re learning, stroke in older folks isn’t the same as stroke in younger people,” he said. “There are many shared risk factors but there are also some that are different ... so there really is a need to include younger people.”

A version of this article first appeared on Medscape.com.

Contrary to expectations, vitamin K antagonists (VKAs) reduced the risk for ischemic stroke and death, compared with the factor Xa inhibitor rivaroxaban, (Xarelto, Janssen) in patients with rheumatic heart disease and atrial fibrillation (AFib), in the INVICTUS trial.

Patients receiving a VKA, typically warfarin, had a 25% lower risk for the primary outcome – a composite of stroke, systemic embolism, myocardial infarction, or death from vascular or unknown causes outcome – than receiving rivaroxaban (hazard ratio, 1.25; 95% confidence interval, 1.10-1.41).

This difference was driven primarily by a significant reduction in the risk for death in the VKA group, and without a significant increase in major bleeding, reported Ganesan Karthikeyan, MD, from the All India Institute of Medical Sciences in New Delhi.

“VKA should remain the standard of care for patients with rheumatic heart disease and atrial fibrillation,” he concluded in a hotline session at the annual congress of the European Society of Cardiology.

The study, simultaneously published in the New England Journal of Medicine, is the first randomized controlled trial to assess anticoagulant therapy in patients with rheumatic heart disease and AFib.

“Who could have possibly guessed these results? Certainly not me,” said invited discussant Renato D. Lopes, MD, MHS, PhD, Duke Clinical Research Institute, Durham, N.C. “To me, this is one more classical example of why we need to do randomized trials, since they are the only reliable way to determine treatment effects and drive clinical practice.”

Evidence gap

Rheumatic heart disease affects over 40 million people, mainly living in low- and low- to middle-income countries. About 20% of symptomatic patients have AF and an elevated stroke risk, but previous AFib trials excluded these patients, Dr. Karthikeyan noted.

INVICTUS was led by the Population Health Research Institute in Hamilton, Ont., and enrolled 4,565 patients from 24 countries in Africa, Asia, and Latin America who had rheumatic heart disease, AFib or atrial flutter, and an increased stroke risk caused by any of the following: CHA2DS2VASc score of 2 or more, moderate to severe mitral stenosis (valve area ≤ 2.0 cm²), left atrial spontaneous echo contrast, or left atrial thrombus.

Participants were randomly assigned to receive rivaroxaban, 20 mg once daily (15 mg/d if creatinine clearance was 15-49 mL/min), or a VKA titrated to an international normalized ratio (INR) of 2.0-3.0.

Warfarin was used in 79%-85% of patients assigned to VKA, with the percentage varying between visits. The INR was in therapeutic range in 33.2% of patients at baseline, 65.1% at 3 years, and 64.1% at 4 years.

During an average follow-up of 3.1 years, the primary outcome occurred in 446 patients in the VKA group (6.49% per year) and 560 patients in the rivaroxaban group (8.21% per year). The restricted mean survival time for the primary outcome was 1,675 vs. 1,599 days, respectively (difference, –76 days; 95% CI, –121 to –31 days; P for superiority < .001).

The rate of stroke or systemic embolism was similar between the VKA and rivaroxaban groups (75 vs. 94 events), although ischemic strokes were significantly lower with VKA (48 vs. 74 events).
 

No easy explanation

Deaths were significantly lower with VKA than rivaroxaban, at 442 versus 552 (restricted mean survival time for death, 1,608 vs. 1,587 days; difference, −72 days; 95% CI, –117 to –28 days).

“This reduction is not easily explained,” Dr. Karthikeyan acknowledged. “We cannot explain this reduction by the reduction in stroke that we saw because the number of deaths that are prevented by VKA are far larger than the number of strokes that are prevented. Moreover, the number of deaths were mainly heart failure or sudden deaths.”

Numbers of patients with major bleeding were also similar in the VKA and rivaroxaban groups (56 vs. 40 patients; P = .18), although numbers with fatal bleeding were lower with rivaroxaban (15 vs. 4, respectively).

By design, there were more physician interactions for monthly monitoring of INR in the VKA group, “but we do not believe such a large reduction can be explained entirely by increased health care contact,” he said. Moreover, there was no significant between-group difference in heart failure medications or hospitalizations or the need for valve replacement.

Almost a quarter (23%) of patients in the rivaroxaban group permanently discontinued the study drug versus just 6% in the VKA group.

Importantly, the mortality benefit emerged much later than in other trials and coincided with the time when the INR became therapeutic at about 3 years, Dr. Karthikeyan said. But it is unknown whether this is because of the INR or an unrelated effect.
 

More physician contact

Following the presentation, session cochair C. Michael Gibson, MD, Baim Institute for Clinical Research, Harvard Medical School, Boston, questioned the 23% discontinuation rate for rivaroxaban. “Is this really a superiority of warfarin or is this superiority of having someone come in and see their physician for a lot of checks on their INR?”

In response, Dr. Karthikeyan said that permanent discontinuation rates were about 20%-25% in shorter-duration direct oral anticoagulant trials, such as RELY, ROCKET-AF, and ARISTOLE, and exceeded 30% in ENGAGE-AF with 2.8 years’ follow-up.

“So, this is not new,” he said, adding that 31.4% of rivaroxaban patients did so for valve replacement surgery and subsequently received nonstudy VKA.

Dr. Lopes said it is important to keep in mind that INVICTUS enrolled a “very different population” that was younger (mean age, 50.5 years), was much more often female (72.3%), and had fewer comorbidities than patients with AFib who did not have rheumatic heart disease in the pivotal trials.

“It will be interesting to see the treatment effect according to mitral stenosis severity, since we had about 30% with mild mitral stenosis and additionally 18% of patients without mitral stenosis,” he added.

Co–principal investigator Stuart J. Connolly, MD, from the Population Health Research Institute, said physician contacts may be a factor but that the mortality difference was clear, highly significant, and sufficiently powered.

“What’s amazing is that what we’re seeing here is something that hasn’t been previously described with VKA or warfarin, which is that it reduces mortality,” he said in an interview.

Rivaroxaban has never been shown to reduce mortality in any particular condition, and a meta-analysis of other novel oral anticoagulants shows only a small reduction in mortality, caused almost completely by less intracranial hemorrhage than warfarin, he added. “So, we don’t think this is a problem with rivaroxaban. In some ways, rivaroxaban is an innocent bystander to a trial of warfarin in patients with rheumatic heart disease and atrial fibrillation.”

Dr. Connolly said more work is needed to explain the findings and analyses are planned to see which patients are at highest risk for death as well as looking at the relationship between INR control and outcomes.

“We need to do more research on what it is about VKA that could explain this,” he said. “Is it affecting the myocardium in some way, is it preventing fibrosis, is there some off target effect, not on the anticoagulation system, that could explain this?”

Athena Poppas, MD, chief of cardiology at Brown University, Providence, R.I., and past president of the American College of Cardiology, said “INVICTUS is an incredibly important study that needed to be done.”

“The results – though disappointing and surprising in some ways – I don’t think we can explain them away and change what we are doing right now,” she said in an interview.

Although warfarin is a cheap drug, Dr. Poppas said, it would be tremendously helpful to have an alternative treatment for these patients. Mechanistic studies are needed to understand the observed mortality advantage and low bleeding rates but that trials of other novel anticoagulants are also needed.

“But I’m not sure that will happen,” she added. “It’s unlikely to be industry sponsored, so it would be a very expensive lift with a low likelihood of success.”

In an editorial accompanying the paper, Gregory Y.H. Lip, MD, University of Liverpool (England), pointed out that observational data show similar or even higher risks for major bleeding with rivaroxaban than with warfarin. “To improve outcomes in these patients, we therefore need to look beyond anticoagulation alone or beyond a type of anticoagulation drug per se. Indeed, a one-size-fits-all approach may not be appropriate.”

The study was funded by an unrestricted grant from Bayer. Dr. Karthikeyan and Dr. Poppas reported no relevant conflicts of interest.

A version of this article first appeared on Medscape.com.

Contrary to expectations, vitamin K antagonists (VKAs) reduced the risk for ischemic stroke and death, compared with the factor Xa inhibitor rivaroxaban, (Xarelto, Janssen) in patients with rheumatic heart disease and atrial fibrillation (AFib), in the INVICTUS trial.

Patients receiving a VKA, typically warfarin, had a 25% lower risk for the primary outcome – a composite of stroke, systemic embolism, myocardial infarction, or death from vascular or unknown causes outcome – than receiving rivaroxaban (hazard ratio, 1.25; 95% confidence interval, 1.10-1.41).

This difference was driven primarily by a significant reduction in the risk for death in the VKA group, and without a significant increase in major bleeding, reported Ganesan Karthikeyan, MD, from the All India Institute of Medical Sciences in New Delhi.

“VKA should remain the standard of care for patients with rheumatic heart disease and atrial fibrillation,” he concluded in a hotline session at the annual congress of the European Society of Cardiology.

The study, simultaneously published in the New England Journal of Medicine, is the first randomized controlled trial to assess anticoagulant therapy in patients with rheumatic heart disease and AFib.

“Who could have possibly guessed these results? Certainly not me,” said invited discussant Renato D. Lopes, MD, MHS, PhD, Duke Clinical Research Institute, Durham, N.C. “To me, this is one more classical example of why we need to do randomized trials, since they are the only reliable way to determine treatment effects and drive clinical practice.”

Evidence gap

Rheumatic heart disease affects over 40 million people, mainly living in low- and low- to middle-income countries. About 20% of symptomatic patients have AF and an elevated stroke risk, but previous AFib trials excluded these patients, Dr. Karthikeyan noted.

INVICTUS was led by the Population Health Research Institute in Hamilton, Ont., and enrolled 4,565 patients from 24 countries in Africa, Asia, and Latin America who had rheumatic heart disease, AFib or atrial flutter, and an increased stroke risk caused by any of the following: CHA2DS2VASc score of 2 or more, moderate to severe mitral stenosis (valve area ≤ 2.0 cm²), left atrial spontaneous echo contrast, or left atrial thrombus.

Participants were randomly assigned to receive rivaroxaban, 20 mg once daily (15 mg/d if creatinine clearance was 15-49 mL/min), or a VKA titrated to an international normalized ratio (INR) of 2.0-3.0.

Warfarin was used in 79%-85% of patients assigned to VKA, with the percentage varying between visits. The INR was in therapeutic range in 33.2% of patients at baseline, 65.1% at 3 years, and 64.1% at 4 years.

During an average follow-up of 3.1 years, the primary outcome occurred in 446 patients in the VKA group (6.49% per year) and 560 patients in the rivaroxaban group (8.21% per year). The restricted mean survival time for the primary outcome was 1,675 vs. 1,599 days, respectively (difference, –76 days; 95% CI, –121 to –31 days; P for superiority < .001).

The rate of stroke or systemic embolism was similar between the VKA and rivaroxaban groups (75 vs. 94 events), although ischemic strokes were significantly lower with VKA (48 vs. 74 events).
 

No easy explanation

Deaths were significantly lower with VKA than rivaroxaban, at 442 versus 552 (restricted mean survival time for death, 1,608 vs. 1,587 days; difference, −72 days; 95% CI, –117 to –28 days).

“This reduction is not easily explained,” Dr. Karthikeyan acknowledged. “We cannot explain this reduction by the reduction in stroke that we saw because the number of deaths that are prevented by VKA are far larger than the number of strokes that are prevented. Moreover, the number of deaths were mainly heart failure or sudden deaths.”

Numbers of patients with major bleeding were also similar in the VKA and rivaroxaban groups (56 vs. 40 patients; P = .18), although numbers with fatal bleeding were lower with rivaroxaban (15 vs. 4, respectively).

By design, there were more physician interactions for monthly monitoring of INR in the VKA group, “but we do not believe such a large reduction can be explained entirely by increased health care contact,” he said. Moreover, there was no significant between-group difference in heart failure medications or hospitalizations or the need for valve replacement.

Almost a quarter (23%) of patients in the rivaroxaban group permanently discontinued the study drug versus just 6% in the VKA group.

Importantly, the mortality benefit emerged much later than in other trials and coincided with the time when the INR became therapeutic at about 3 years, Dr. Karthikeyan said. But it is unknown whether this is because of the INR or an unrelated effect.
 

More physician contact

Following the presentation, session cochair C. Michael Gibson, MD, Baim Institute for Clinical Research, Harvard Medical School, Boston, questioned the 23% discontinuation rate for rivaroxaban. “Is this really a superiority of warfarin or is this superiority of having someone come in and see their physician for a lot of checks on their INR?”

In response, Dr. Karthikeyan said that permanent discontinuation rates were about 20%-25% in shorter-duration direct oral anticoagulant trials, such as RELY, ROCKET-AF, and ARISTOLE, and exceeded 30% in ENGAGE-AF with 2.8 years’ follow-up.

“So, this is not new,” he said, adding that 31.4% of rivaroxaban patients did so for valve replacement surgery and subsequently received nonstudy VKA.

Dr. Lopes said it is important to keep in mind that INVICTUS enrolled a “very different population” that was younger (mean age, 50.5 years), was much more often female (72.3%), and had fewer comorbidities than patients with AFib who did not have rheumatic heart disease in the pivotal trials.

“It will be interesting to see the treatment effect according to mitral stenosis severity, since we had about 30% with mild mitral stenosis and additionally 18% of patients without mitral stenosis,” he added.

Co–principal investigator Stuart J. Connolly, MD, from the Population Health Research Institute, said physician contacts may be a factor but that the mortality difference was clear, highly significant, and sufficiently powered.

“What’s amazing is that what we’re seeing here is something that hasn’t been previously described with VKA or warfarin, which is that it reduces mortality,” he said in an interview.

Rivaroxaban has never been shown to reduce mortality in any particular condition, and a meta-analysis of other novel oral anticoagulants shows only a small reduction in mortality, caused almost completely by less intracranial hemorrhage than warfarin, he added. “So, we don’t think this is a problem with rivaroxaban. In some ways, rivaroxaban is an innocent bystander to a trial of warfarin in patients with rheumatic heart disease and atrial fibrillation.”

Dr. Connolly said more work is needed to explain the findings and analyses are planned to see which patients are at highest risk for death as well as looking at the relationship between INR control and outcomes.

“We need to do more research on what it is about VKA that could explain this,” he said. “Is it affecting the myocardium in some way, is it preventing fibrosis, is there some off target effect, not on the anticoagulation system, that could explain this?”

Athena Poppas, MD, chief of cardiology at Brown University, Providence, R.I., and past president of the American College of Cardiology, said “INVICTUS is an incredibly important study that needed to be done.”

“The results – though disappointing and surprising in some ways – I don’t think we can explain them away and change what we are doing right now,” she said in an interview.

Although warfarin is a cheap drug, Dr. Poppas said, it would be tremendously helpful to have an alternative treatment for these patients. Mechanistic studies are needed to understand the observed mortality advantage and low bleeding rates but that trials of other novel anticoagulants are also needed.

“But I’m not sure that will happen,” she added. “It’s unlikely to be industry sponsored, so it would be a very expensive lift with a low likelihood of success.”

In an editorial accompanying the paper, Gregory Y.H. Lip, MD, University of Liverpool (England), pointed out that observational data show similar or even higher risks for major bleeding with rivaroxaban than with warfarin. “To improve outcomes in these patients, we therefore need to look beyond anticoagulation alone or beyond a type of anticoagulation drug per se. Indeed, a one-size-fits-all approach may not be appropriate.”

The study was funded by an unrestricted grant from Bayer. Dr. Karthikeyan and Dr. Poppas reported no relevant conflicts of interest.

A version of this article first appeared on Medscape.com.

Contrary to expectations, vitamin K antagonists (VKAs) reduced the risk for ischemic stroke and death, compared with the factor Xa inhibitor rivaroxaban, (Xarelto, Janssen) in patients with rheumatic heart disease and atrial fibrillation (AFib), in the INVICTUS trial.

Patients receiving a VKA, typically warfarin, had a 25% lower risk for the primary outcome – a composite of stroke, systemic embolism, myocardial infarction, or death from vascular or unknown causes outcome – than receiving rivaroxaban (hazard ratio, 1.25; 95% confidence interval, 1.10-1.41).

This difference was driven primarily by a significant reduction in the risk for death in the VKA group, and without a significant increase in major bleeding, reported Ganesan Karthikeyan, MD, from the All India Institute of Medical Sciences in New Delhi.

“VKA should remain the standard of care for patients with rheumatic heart disease and atrial fibrillation,” he concluded in a hotline session at the annual congress of the European Society of Cardiology.

The study, simultaneously published in the New England Journal of Medicine, is the first randomized controlled trial to assess anticoagulant therapy in patients with rheumatic heart disease and AFib.

“Who could have possibly guessed these results? Certainly not me,” said invited discussant Renato D. Lopes, MD, MHS, PhD, Duke Clinical Research Institute, Durham, N.C. “To me, this is one more classical example of why we need to do randomized trials, since they are the only reliable way to determine treatment effects and drive clinical practice.”

Evidence gap

Rheumatic heart disease affects over 40 million people, mainly living in low- and low- to middle-income countries. About 20% of symptomatic patients have AF and an elevated stroke risk, but previous AFib trials excluded these patients, Dr. Karthikeyan noted.

INVICTUS was led by the Population Health Research Institute in Hamilton, Ont., and enrolled 4,565 patients from 24 countries in Africa, Asia, and Latin America who had rheumatic heart disease, AFib or atrial flutter, and an increased stroke risk caused by any of the following: CHA2DS2VASc score of 2 or more, moderate to severe mitral stenosis (valve area ≤ 2.0 cm²), left atrial spontaneous echo contrast, or left atrial thrombus.

Participants were randomly assigned to receive rivaroxaban, 20 mg once daily (15 mg/d if creatinine clearance was 15-49 mL/min), or a VKA titrated to an international normalized ratio (INR) of 2.0-3.0.

Warfarin was used in 79%-85% of patients assigned to VKA, with the percentage varying between visits. The INR was in therapeutic range in 33.2% of patients at baseline, 65.1% at 3 years, and 64.1% at 4 years.

During an average follow-up of 3.1 years, the primary outcome occurred in 446 patients in the VKA group (6.49% per year) and 560 patients in the rivaroxaban group (8.21% per year). The restricted mean survival time for the primary outcome was 1,675 vs. 1,599 days, respectively (difference, –76 days; 95% CI, –121 to –31 days; P for superiority < .001).

The rate of stroke or systemic embolism was similar between the VKA and rivaroxaban groups (75 vs. 94 events), although ischemic strokes were significantly lower with VKA (48 vs. 74 events).
 

No easy explanation

Deaths were significantly lower with VKA than rivaroxaban, at 442 versus 552 (restricted mean survival time for death, 1,608 vs. 1,587 days; difference, −72 days; 95% CI, –117 to –28 days).

“This reduction is not easily explained,” Dr. Karthikeyan acknowledged. “We cannot explain this reduction by the reduction in stroke that we saw because the number of deaths that are prevented by VKA are far larger than the number of strokes that are prevented. Moreover, the number of deaths were mainly heart failure or sudden deaths.”

Numbers of patients with major bleeding were also similar in the VKA and rivaroxaban groups (56 vs. 40 patients; P = .18), although numbers with fatal bleeding were lower with rivaroxaban (15 vs. 4, respectively).

By design, there were more physician interactions for monthly monitoring of INR in the VKA group, “but we do not believe such a large reduction can be explained entirely by increased health care contact,” he said. Moreover, there was no significant between-group difference in heart failure medications or hospitalizations or the need for valve replacement.

Almost a quarter (23%) of patients in the rivaroxaban group permanently discontinued the study drug versus just 6% in the VKA group.

Importantly, the mortality benefit emerged much later than in other trials and coincided with the time when the INR became therapeutic at about 3 years, Dr. Karthikeyan said. But it is unknown whether this is because of the INR or an unrelated effect.
 

More physician contact

Following the presentation, session cochair C. Michael Gibson, MD, Baim Institute for Clinical Research, Harvard Medical School, Boston, questioned the 23% discontinuation rate for rivaroxaban. “Is this really a superiority of warfarin or is this superiority of having someone come in and see their physician for a lot of checks on their INR?”

In response, Dr. Karthikeyan said that permanent discontinuation rates were about 20%-25% in shorter-duration direct oral anticoagulant trials, such as RELY, ROCKET-AF, and ARISTOLE, and exceeded 30% in ENGAGE-AF with 2.8 years’ follow-up.

“So, this is not new,” he said, adding that 31.4% of rivaroxaban patients did so for valve replacement surgery and subsequently received nonstudy VKA.

Dr. Lopes said it is important to keep in mind that INVICTUS enrolled a “very different population” that was younger (mean age, 50.5 years), was much more often female (72.3%), and had fewer comorbidities than patients with AFib who did not have rheumatic heart disease in the pivotal trials.

“It will be interesting to see the treatment effect according to mitral stenosis severity, since we had about 30% with mild mitral stenosis and additionally 18% of patients without mitral stenosis,” he added.

Co–principal investigator Stuart J. Connolly, MD, from the Population Health Research Institute, said physician contacts may be a factor but that the mortality difference was clear, highly significant, and sufficiently powered.

“What’s amazing is that what we’re seeing here is something that hasn’t been previously described with VKA or warfarin, which is that it reduces mortality,” he said in an interview.

Rivaroxaban has never been shown to reduce mortality in any particular condition, and a meta-analysis of other novel oral anticoagulants shows only a small reduction in mortality, caused almost completely by less intracranial hemorrhage than warfarin, he added. “So, we don’t think this is a problem with rivaroxaban. In some ways, rivaroxaban is an innocent bystander to a trial of warfarin in patients with rheumatic heart disease and atrial fibrillation.”

Dr. Connolly said more work is needed to explain the findings and analyses are planned to see which patients are at highest risk for death as well as looking at the relationship between INR control and outcomes.

“We need to do more research on what it is about VKA that could explain this,” he said. “Is it affecting the myocardium in some way, is it preventing fibrosis, is there some off target effect, not on the anticoagulation system, that could explain this?”

Athena Poppas, MD, chief of cardiology at Brown University, Providence, R.I., and past president of the American College of Cardiology, said “INVICTUS is an incredibly important study that needed to be done.”

“The results – though disappointing and surprising in some ways – I don’t think we can explain them away and change what we are doing right now,” she said in an interview.

Although warfarin is a cheap drug, Dr. Poppas said, it would be tremendously helpful to have an alternative treatment for these patients. Mechanistic studies are needed to understand the observed mortality advantage and low bleeding rates but that trials of other novel anticoagulants are also needed.

“But I’m not sure that will happen,” she added. “It’s unlikely to be industry sponsored, so it would be a very expensive lift with a low likelihood of success.”

In an editorial accompanying the paper, Gregory Y.H. Lip, MD, University of Liverpool (England), pointed out that observational data show similar or even higher risks for major bleeding with rivaroxaban than with warfarin. “To improve outcomes in these patients, we therefore need to look beyond anticoagulation alone or beyond a type of anticoagulation drug per se. Indeed, a one-size-fits-all approach may not be appropriate.”

The study was funded by an unrestricted grant from Bayer. Dr. Karthikeyan and Dr. Poppas reported no relevant conflicts of interest.

A version of this article first appeared on Medscape.com.

The new factor XI inhibitor antithrombotic, milvexian (Bristol-Myers Squibb/Janssen), has shown promising results in a dose-finding phase 2 trial in patients with acute ischemic stroke or transient ischemic attack (TIA), when given in addition to dual antiplatelet therapy.

Although there was no significant reduction in the primary composite endpoint of ischemic stroke or incident infarct on brain MRI at 90 days with milvexian versus placebo in the AXIOMATIC-SSP study, with no apparent dose response, the drug numerically reduced the risk for symptomatic ischemic stroke at most doses. And doses from 25 mg to 100 mg twice daily showed an approximately 30% relative risk reduction in symptomatic ischemic stroke versus placebo.

Milvexian at 25 mg once and twice daily was associated with a low incidence of major bleeding; a moderate increase in bleeding was seen with higher doses.

There was no increase in severe bleeding, compared with placebo, and no fatal bleeding occurred any study group.

“Based on the observed efficacy signal for ischemic stroke, the bleeding profile, and the overall safety and tolerability, milvexian will be further studied in a phase 3 trial in a similar stroke population,” concluded lead investigator, Mukul Sharma, MD, associate professor of medicine at McMaster University, Hamilton, Ont.

Dr. Sharma presented the AXIOMATIC-SSP study results at the annual congress of the European Society of Cardiology.
 

New generation

Dr. Sharma explained that factor XI inhibitors represent the latest hope for a new generation of antithrombotic drugs with a low bleeding risk.

This has come about after observations that individuals born with factor XI deficiency have lower rates of ischemic stroke and thromboembolism than matched controls, without an offsetting increase in cerebral hemorrhage. In addition, spontaneous bleeding in these individuals is uncommon, and it is thought that factor XI is a strong driver of thrombus growth but plays a less important role in hemostasis, he noted.

“I think there is a tremendous niche for these drugs in stroke prevention,” Dr. Sharma said in an interview. “There is a huge unmet need in stroke patients for something other than aspirin over the long term which is effective but doesn’t cause hemorrhage.”

Dr. Sharma reported that antithrombotic efficacy of milvexian has already been demonstrated in a study of patients undergoing knee replacement in which the drug showed similar or increased efficacy in reducing thromboembolism, compared with enoxaparin, 40 mg, without an increase in major bleeding.

The aim of the current AXIOMATIC-SSP study was to find a dose suitable for use in the treatment of patients with acute stroke or TIA.

Patients with an acute ischemic stroke or TIA are at a high risk for another stroke in the first few months. Although antiplatelet drugs have reduced this event rate, there is still a significant residual risk for ischemic stroke, and the potential for major bleeding with additional antithrombotic therapies has limited the effectiveness of these options, Dr. Sharma explained. Currently, no anticoagulants are approved for noncardioembolic ischemic stroke prevention in the early phase.

The AXIOMATIC-SSP study included 2,366 patients within 48 hours of onset of a mild to moderate acute nonlacunar ischemic stroke. All patients had visible atherosclerotic plaque in a vessel supplying the affected brain region, and they all received background treatment with open-label aspirin and clopidogrel for 21 days, followed by open-label aspirin alone from days 22 to 90.

They were randomly assigned to one of five doses of milvexian (25, 50, 100, or 200 mg twice daily or 25 mg once daily) or placebo daily for 90 days.

The primary efficacy endpoint (symptomatic ischemic stroke or incident infarct on brain MRI) was numerically lower at the 50-mg and 100-mg twice-daily doses, and there was no apparent dose response (placebo, 16.6%; 25 mg once daily, 16.2%; 25 mg twice daily, 18.5%; 50 mg twice daily, 14.1%; 100 mg twice daily, 14.7%; 200 mg twice daily, 16.4%).

However, milvexian was associated with a numerically lower risk for clinical ischemic stroke at all doses except 200 mg twice daily, with doses from 25 to 100 mg twice daily showing an approximately 30% relative risk reduction versus placebo (placebo, 5.5%; 25 mg once daily, 4.6%; 25 mg twice daily, 3.8%; 50 mg twice daily, 4.0%; 100 mg twice daily, 3.5%; 200 mg twice daily, 7.7%).

The main safety endpoint was major bleeding, defined as Bleeding Academic Research Consortium type 3 or 5 bleeding. This was similar to placebo for milvexian 25 mg once daily and twice daily (all 0.6%) but was moderately increased in the 50 mg twice daily (1.5%), 100 mg twice daily (1.6%), and 200 mg twice daily (1.5%) groups.

Most major bleeding episodes were gastrointestinal. There was no increase in severe bleeding or symptomatic intracranial hemorrhage versus placebo, and no fatal bleeding occurred in any arm of the study.
 

Incremental improvement

On the hope for a class of drugs that reduce ischemic events without increasing bleeding, Dr. Sharma said, “we keep hoping for a home run where there is no increase in bleeding with a new generation of antithrombotic, but what we seem to get is an incremental improvement with each new class.

“Factor Xa inhibitors have a lower rate of bleeding, compared to warfarin. I think we will see another incremental improvement in bleeding with these new factor XI inhibitors and hopefully less of the more serious bleeding,” he said in an interview.

He pointed out that, in this study, milvexian was given on top of dual antiplatelet therapy. “In stroke neurology that sounds very risky as we know that going from a single antiplatelet to two antiplatelet agents increases the risk of bleeding and now we are adding in a third antithrombotic, but we feel comfortable doing it because of what has been observed in patients who have a genetic deficiency of factor XI – very low rates of spontaneous bleeding and they don’t bleed intracranially largely,” he added.

In addition to milvexian, another oral factor XI inhibitor, asundexian (Bayer), is also in development, and similar results were reported in a phase 2 stroke trial (PACIFIC-STROKE) at the same ESC session.

Both drugs are now believed to be going forward into phase 3 trials.

Discussant of the study at the ESC Hotline session, Giovanna Liuzzo, MD, Catholic University of Rome, highlighted the large unmet need for stroke therapies, noting that patients with acute stroke or TIA have a stroke recurrence rate of 5% at 30 days and 17% at 2 years. Although antiplatelet agents are recommended, the use of anticoagulants has been limited by concerns over bleeding risk, and the factor XI inhibitors are promising in that they have the potential for a lower bleeding risk.

She suggested that results from the AXIOMATIC-SSP could point to a dose of milvexian of 25 mg twice daily as a balance between efficacy and bleeding to be taken into larger phase 3 trials

“The jury is still out on the safety and efficacy of milvexian as an adjunct to dual antiplatelet therapy for the prevention of recurrent noncardioembolic stroke,” Dr. Liuzzo concluded. “Only large-scale phase 3 trials will establish the safety and efficacy of factor XI inhibitors in the prevention of venous and arterial thrombosis.”

The AXIOMATIC-SSP study was funded by the Bristol-Myers Squibb/Janssen alliance. Dr. Sharma reported research contracts with Bristol-Myers Squibb, Bayer, and AstraZeneca, and consulting fees from Janssen, Bayer, HLS Therapeutics, and Alexion.

A version of this article first appeared on Medscape.com.

The new factor XI inhibitor antithrombotic, milvexian (Bristol-Myers Squibb/Janssen), has shown promising results in a dose-finding phase 2 trial in patients with acute ischemic stroke or transient ischemic attack (TIA), when given in addition to dual antiplatelet therapy.

Although there was no significant reduction in the primary composite endpoint of ischemic stroke or incident infarct on brain MRI at 90 days with milvexian versus placebo in the AXIOMATIC-SSP study, with no apparent dose response, the drug numerically reduced the risk for symptomatic ischemic stroke at most doses. And doses from 25 mg to 100 mg twice daily showed an approximately 30% relative risk reduction in symptomatic ischemic stroke versus placebo.

Milvexian at 25 mg once and twice daily was associated with a low incidence of major bleeding; a moderate increase in bleeding was seen with higher doses.

There was no increase in severe bleeding, compared with placebo, and no fatal bleeding occurred any study group.

“Based on the observed efficacy signal for ischemic stroke, the bleeding profile, and the overall safety and tolerability, milvexian will be further studied in a phase 3 trial in a similar stroke population,” concluded lead investigator, Mukul Sharma, MD, associate professor of medicine at McMaster University, Hamilton, Ont.

Dr. Sharma presented the AXIOMATIC-SSP study results at the annual congress of the European Society of Cardiology.
 

New generation

Dr. Sharma explained that factor XI inhibitors represent the latest hope for a new generation of antithrombotic drugs with a low bleeding risk.

This has come about after observations that individuals born with factor XI deficiency have lower rates of ischemic stroke and thromboembolism than matched controls, without an offsetting increase in cerebral hemorrhage. In addition, spontaneous bleeding in these individuals is uncommon, and it is thought that factor XI is a strong driver of thrombus growth but plays a less important role in hemostasis, he noted.

“I think there is a tremendous niche for these drugs in stroke prevention,” Dr. Sharma said in an interview. “There is a huge unmet need in stroke patients for something other than aspirin over the long term which is effective but doesn’t cause hemorrhage.”

Dr. Sharma reported that antithrombotic efficacy of milvexian has already been demonstrated in a study of patients undergoing knee replacement in which the drug showed similar or increased efficacy in reducing thromboembolism, compared with enoxaparin, 40 mg, without an increase in major bleeding.

The aim of the current AXIOMATIC-SSP study was to find a dose suitable for use in the treatment of patients with acute stroke or TIA.

Patients with an acute ischemic stroke or TIA are at a high risk for another stroke in the first few months. Although antiplatelet drugs have reduced this event rate, there is still a significant residual risk for ischemic stroke, and the potential for major bleeding with additional antithrombotic therapies has limited the effectiveness of these options, Dr. Sharma explained. Currently, no anticoagulants are approved for noncardioembolic ischemic stroke prevention in the early phase.

The AXIOMATIC-SSP study included 2,366 patients within 48 hours of onset of a mild to moderate acute nonlacunar ischemic stroke. All patients had visible atherosclerotic plaque in a vessel supplying the affected brain region, and they all received background treatment with open-label aspirin and clopidogrel for 21 days, followed by open-label aspirin alone from days 22 to 90.

They were randomly assigned to one of five doses of milvexian (25, 50, 100, or 200 mg twice daily or 25 mg once daily) or placebo daily for 90 days.

The primary efficacy endpoint (symptomatic ischemic stroke or incident infarct on brain MRI) was numerically lower at the 50-mg and 100-mg twice-daily doses, and there was no apparent dose response (placebo, 16.6%; 25 mg once daily, 16.2%; 25 mg twice daily, 18.5%; 50 mg twice daily, 14.1%; 100 mg twice daily, 14.7%; 200 mg twice daily, 16.4%).

However, milvexian was associated with a numerically lower risk for clinical ischemic stroke at all doses except 200 mg twice daily, with doses from 25 to 100 mg twice daily showing an approximately 30% relative risk reduction versus placebo (placebo, 5.5%; 25 mg once daily, 4.6%; 25 mg twice daily, 3.8%; 50 mg twice daily, 4.0%; 100 mg twice daily, 3.5%; 200 mg twice daily, 7.7%).

The main safety endpoint was major bleeding, defined as Bleeding Academic Research Consortium type 3 or 5 bleeding. This was similar to placebo for milvexian 25 mg once daily and twice daily (all 0.6%) but was moderately increased in the 50 mg twice daily (1.5%), 100 mg twice daily (1.6%), and 200 mg twice daily (1.5%) groups.

Most major bleeding episodes were gastrointestinal. There was no increase in severe bleeding or symptomatic intracranial hemorrhage versus placebo, and no fatal bleeding occurred in any arm of the study.
 

Incremental improvement

On the hope for a class of drugs that reduce ischemic events without increasing bleeding, Dr. Sharma said, “we keep hoping for a home run where there is no increase in bleeding with a new generation of antithrombotic, but what we seem to get is an incremental improvement with each new class.

“Factor Xa inhibitors have a lower rate of bleeding, compared to warfarin. I think we will see another incremental improvement in bleeding with these new factor XI inhibitors and hopefully less of the more serious bleeding,” he said in an interview.

He pointed out that, in this study, milvexian was given on top of dual antiplatelet therapy. “In stroke neurology that sounds very risky as we know that going from a single antiplatelet to two antiplatelet agents increases the risk of bleeding and now we are adding in a third antithrombotic, but we feel comfortable doing it because of what has been observed in patients who have a genetic deficiency of factor XI – very low rates of spontaneous bleeding and they don’t bleed intracranially largely,” he added.

In addition to milvexian, another oral factor XI inhibitor, asundexian (Bayer), is also in development, and similar results were reported in a phase 2 stroke trial (PACIFIC-STROKE) at the same ESC session.

Both drugs are now believed to be going forward into phase 3 trials.

Discussant of the study at the ESC Hotline session, Giovanna Liuzzo, MD, Catholic University of Rome, highlighted the large unmet need for stroke therapies, noting that patients with acute stroke or TIA have a stroke recurrence rate of 5% at 30 days and 17% at 2 years. Although antiplatelet agents are recommended, the use of anticoagulants has been limited by concerns over bleeding risk, and the factor XI inhibitors are promising in that they have the potential for a lower bleeding risk.

She suggested that results from the AXIOMATIC-SSP could point to a dose of milvexian of 25 mg twice daily as a balance between efficacy and bleeding to be taken into larger phase 3 trials

“The jury is still out on the safety and efficacy of milvexian as an adjunct to dual antiplatelet therapy for the prevention of recurrent noncardioembolic stroke,” Dr. Liuzzo concluded. “Only large-scale phase 3 trials will establish the safety and efficacy of factor XI inhibitors in the prevention of venous and arterial thrombosis.”

The AXIOMATIC-SSP study was funded by the Bristol-Myers Squibb/Janssen alliance. Dr. Sharma reported research contracts with Bristol-Myers Squibb, Bayer, and AstraZeneca, and consulting fees from Janssen, Bayer, HLS Therapeutics, and Alexion.

A version of this article first appeared on Medscape.com.

The new factor XI inhibitor antithrombotic, milvexian (Bristol-Myers Squibb/Janssen), has shown promising results in a dose-finding phase 2 trial in patients with acute ischemic stroke or transient ischemic attack (TIA), when given in addition to dual antiplatelet therapy.

Although there was no significant reduction in the primary composite endpoint of ischemic stroke or incident infarct on brain MRI at 90 days with milvexian versus placebo in the AXIOMATIC-SSP study, with no apparent dose response, the drug numerically reduced the risk for symptomatic ischemic stroke at most doses. And doses from 25 mg to 100 mg twice daily showed an approximately 30% relative risk reduction in symptomatic ischemic stroke versus placebo.

Milvexian at 25 mg once and twice daily was associated with a low incidence of major bleeding; a moderate increase in bleeding was seen with higher doses.

There was no increase in severe bleeding, compared with placebo, and no fatal bleeding occurred any study group.

“Based on the observed efficacy signal for ischemic stroke, the bleeding profile, and the overall safety and tolerability, milvexian will be further studied in a phase 3 trial in a similar stroke population,” concluded lead investigator, Mukul Sharma, MD, associate professor of medicine at McMaster University, Hamilton, Ont.

Dr. Sharma presented the AXIOMATIC-SSP study results at the annual congress of the European Society of Cardiology.
 

New generation

Dr. Sharma explained that factor XI inhibitors represent the latest hope for a new generation of antithrombotic drugs with a low bleeding risk.

This has come about after observations that individuals born with factor XI deficiency have lower rates of ischemic stroke and thromboembolism than matched controls, without an offsetting increase in cerebral hemorrhage. In addition, spontaneous bleeding in these individuals is uncommon, and it is thought that factor XI is a strong driver of thrombus growth but plays a less important role in hemostasis, he noted.

“I think there is a tremendous niche for these drugs in stroke prevention,” Dr. Sharma said in an interview. “There is a huge unmet need in stroke patients for something other than aspirin over the long term which is effective but doesn’t cause hemorrhage.”

Dr. Sharma reported that antithrombotic efficacy of milvexian has already been demonstrated in a study of patients undergoing knee replacement in which the drug showed similar or increased efficacy in reducing thromboembolism, compared with enoxaparin, 40 mg, without an increase in major bleeding.

The aim of the current AXIOMATIC-SSP study was to find a dose suitable for use in the treatment of patients with acute stroke or TIA.

Patients with an acute ischemic stroke or TIA are at a high risk for another stroke in the first few months. Although antiplatelet drugs have reduced this event rate, there is still a significant residual risk for ischemic stroke, and the potential for major bleeding with additional antithrombotic therapies has limited the effectiveness of these options, Dr. Sharma explained. Currently, no anticoagulants are approved for noncardioembolic ischemic stroke prevention in the early phase.

The AXIOMATIC-SSP study included 2,366 patients within 48 hours of onset of a mild to moderate acute nonlacunar ischemic stroke. All patients had visible atherosclerotic plaque in a vessel supplying the affected brain region, and they all received background treatment with open-label aspirin and clopidogrel for 21 days, followed by open-label aspirin alone from days 22 to 90.

They were randomly assigned to one of five doses of milvexian (25, 50, 100, or 200 mg twice daily or 25 mg once daily) or placebo daily for 90 days.

The primary efficacy endpoint (symptomatic ischemic stroke or incident infarct on brain MRI) was numerically lower at the 50-mg and 100-mg twice-daily doses, and there was no apparent dose response (placebo, 16.6%; 25 mg once daily, 16.2%; 25 mg twice daily, 18.5%; 50 mg twice daily, 14.1%; 100 mg twice daily, 14.7%; 200 mg twice daily, 16.4%).

However, milvexian was associated with a numerically lower risk for clinical ischemic stroke at all doses except 200 mg twice daily, with doses from 25 to 100 mg twice daily showing an approximately 30% relative risk reduction versus placebo (placebo, 5.5%; 25 mg once daily, 4.6%; 25 mg twice daily, 3.8%; 50 mg twice daily, 4.0%; 100 mg twice daily, 3.5%; 200 mg twice daily, 7.7%).

The main safety endpoint was major bleeding, defined as Bleeding Academic Research Consortium type 3 or 5 bleeding. This was similar to placebo for milvexian 25 mg once daily and twice daily (all 0.6%) but was moderately increased in the 50 mg twice daily (1.5%), 100 mg twice daily (1.6%), and 200 mg twice daily (1.5%) groups.

Most major bleeding episodes were gastrointestinal. There was no increase in severe bleeding or symptomatic intracranial hemorrhage versus placebo, and no fatal bleeding occurred in any arm of the study.
 

Incremental improvement

On the hope for a class of drugs that reduce ischemic events without increasing bleeding, Dr. Sharma said, “we keep hoping for a home run where there is no increase in bleeding with a new generation of antithrombotic, but what we seem to get is an incremental improvement with each new class.

“Factor Xa inhibitors have a lower rate of bleeding, compared to warfarin. I think we will see another incremental improvement in bleeding with these new factor XI inhibitors and hopefully less of the more serious bleeding,” he said in an interview.

He pointed out that, in this study, milvexian was given on top of dual antiplatelet therapy. “In stroke neurology that sounds very risky as we know that going from a single antiplatelet to two antiplatelet agents increases the risk of bleeding and now we are adding in a third antithrombotic, but we feel comfortable doing it because of what has been observed in patients who have a genetic deficiency of factor XI – very low rates of spontaneous bleeding and they don’t bleed intracranially largely,” he added.

In addition to milvexian, another oral factor XI inhibitor, asundexian (Bayer), is also in development, and similar results were reported in a phase 2 stroke trial (PACIFIC-STROKE) at the same ESC session.

Both drugs are now believed to be going forward into phase 3 trials.

Discussant of the study at the ESC Hotline session, Giovanna Liuzzo, MD, Catholic University of Rome, highlighted the large unmet need for stroke therapies, noting that patients with acute stroke or TIA have a stroke recurrence rate of 5% at 30 days and 17% at 2 years. Although antiplatelet agents are recommended, the use of anticoagulants has been limited by concerns over bleeding risk, and the factor XI inhibitors are promising in that they have the potential for a lower bleeding risk.

She suggested that results from the AXIOMATIC-SSP could point to a dose of milvexian of 25 mg twice daily as a balance between efficacy and bleeding to be taken into larger phase 3 trials

“The jury is still out on the safety and efficacy of milvexian as an adjunct to dual antiplatelet therapy for the prevention of recurrent noncardioembolic stroke,” Dr. Liuzzo concluded. “Only large-scale phase 3 trials will establish the safety and efficacy of factor XI inhibitors in the prevention of venous and arterial thrombosis.”

The AXIOMATIC-SSP study was funded by the Bristol-Myers Squibb/Janssen alliance. Dr. Sharma reported research contracts with Bristol-Myers Squibb, Bayer, and AstraZeneca, and consulting fees from Janssen, Bayer, HLS Therapeutics, and Alexion.

A version of this article first appeared on Medscape.com.