Cardiology News

NEW YORK — New insights into colchicine’s disruption of the pathway that contributes to arterial inflammation and new clinical studies of the drug could pave the way toward greater use of the anti-inflammatory drug in patients with or at risk for atherosclerotic cardiovascular disease (ASCVD), researchers said at the 4th Annual Cardiometabolic Risk in Inflammatory Conditions conference.

Colchicine was approved by the US Food and Drug Administration (FDA) in June 2023 in a once-daily 0.5-mg formulation under the brand name Lodoco to reduce the risk for major adverse cardiovascular events (MACE) in patients with established atherosclerotic disease or with multiple risk factors for CVD. The Lodoco formulation is slightly smaller than the 0.6-mg formulation that’s taken twice daily for the prophylaxis and treatment of acute gout flares.

In a presentation at the conference, Binita Shah, MD, one of the principal investigators in trials of Lodoco, explained how the inflammatory pathway contributes to atherosclerosis and provided an update on how colchicine disrupts the pathway. Dr. Shah is an associate professor of medicine at New York University in New York City and director of research at NYU Langone Health Interventional Cardiology.

“Colchicine dampens inflammatory markers on neutrophils so that they are less likely to be attracted to inflamed or injured endothelium, which would be the site of where plaque is building up or where the plaque has ruptured in the setting of a heart attack,” Shah told this news organization after her presentation.

The Inflammatory Pathway

Dr. Shah explained that normal coronary endothelium resists adhesion by circulating leukocytes, but inflamed or injured coronary endothelium attracts those neutrophils via two types of selectins: L-selectins on neutrophils and E-selectins on endothelial cells. Those neutrophils then release inflammatory cytokines including interleukin-1 beta (IL-1ß), which then triggers production of IL-6 and, subsequently, high-sensitivity C-reactive protein (hsCRP), which contributes to plaque formation, she said.

“Colchicine affects these pathways with a balance for safety and effect on clinical outcomes, particularly to reduce recurrent myocardial infarction [MI],” Dr. Shah said during her presentation. 

Results from the CIRT trial demonstrated that methotrexate is ineffective in blocking the adenosine-mediated anti-inflammatory pathway, Dr. Shah said, so focusing on the IL-1ß–IL-6–hsCRP pathway, which is known to work based on the results of the CANTOS trial, could pay dividends.

“This is where colchicine can potentially play a role,” she said. 

Dr. Shah cited a secondary analysis of the CANTOS trial in which the magnitude of hsCRP reduction correlated with a reduction in MI, stroke, or cardiovascular death. The secondary analysis showed that patients who received canakinumab and achieved hsCRP ≥ 2 mg/L had a nonsignificant 5% lower risk and those who reached < 2 mg/L had a statistically significant 25% lower risk than those who received placebo.

The COPE-PCI Pilot trial demonstrated the benefit of targeting the interleukin pathways, she noted. 

Further clarification of the role of colchicine in managing patients with acute coronary syndrome may come from two other randomized trials now underway, Dr. Shah said: POPCORN is evaluating colchicine to reduce MACE after noncardiac surgery, and CLEAR SYNERGY is evaluating the best timing for colchicine therapy after an acute MI.

Dr. Shah presented preliminary data from her group from a neutrophil biomarker substudy of CLEAR SYNERGY that isolated neutrophils from patients who had an acute MI. “We treated them with various doses of colchicine and showed that the interaction between those treated neutrophils [and] the endothelial cells were a lot lower; they were less sticky to endothelial cells as colchicine was administered,” she said in her presentation. She added that colchicine also reduced neutrophil chemotaxis and neutrophil activation and potentially inhibited inflammasomes, decreasing IL-1ß production.

What’s more, colchicine has been shown to not affect platelets alone but rather platelets at the site of inflammation or plaque rupture, Dr. Shah added. “At currently used doses, colchicine does not inhibit platelet activity [by] itself, so we’ve never seen increased bleeding events, but it will dampen neutrophils’ ability to latch onto a platelet that could contribute to a clot,” she later told this news organization.

“There are multiple studies, both retrospective studies in gout cohorts as well as prospective studies in the cardiovascular cohort, that all show consistently one thing, which is that colchicine continues to reduce the risk of having a recurrent MI in patients who either have cardiovascular disease or are at high risk of having cardiovascular disease,” she said.

“I think that’s very helpful to know that it’s not just one study — it’s not just a fluke, potentially a play of chance — but multiple studies consistently showing the same thing: That there’s a reduced risk of acute MI.”
 

Slow to Embrace Colchicine

Despite this evidence, cardiologists and rheumatologists have been slow to embrace colchicine for patients at risk for cardiovascular events, said Michael S. Garshick, MD, who attended the conference and is head of the Cardio-Rheumatology Program at NYU Langone. “What [Shah] really highlighted was that for a number of years now, we’ve had several clinical trials showing the benefit of low-dose colchicine to prevent atherosclerotic cardiovascular events, and yet despite these and that there’s now an indication to use low-dose colchicine to reduce cardiovascular disease, we’re still struggling for this medication to be taken up by the general cardiology community to treat high-risk patients.

NYU Langone

“There’s still some work to do to prove that we need to break those barriers,” Dr. Garshick added. Some of the confusion surrounding the use of colchicine for ASCVD may be attributed to the 0.5-mg dose approved for CVD as opposed to the long-approved 0.6-mg dose for gout, he said. “People are generally confused: Is it OK to use the 0.6-mg dose?” Dr. Garshick said.

Potential gastrointestinal side effects may be another concerning factor, although, he added, “we didn’t see any major complications.” Another issue could be polypharmacy in many of these patients, he said.

Dr. Garshick concurred with Shah that the existing evidence supporting the use of colchicine to reduce risk for cardiovascular events is strong, but more will come out. “I think there’s going to be evolving data supporting it,” he said.

Dr. Shah disclosed financial relationships with Philips Volcano and Novo Nordisk. She is a principal investigator of the CLEAR SYNERGY biomarker substudy and the POPCORN trial. Dr. Garshick disclosed relationships with Kiniksa Pharmaceuticals, Agepha Pharma, Bristol Myers Squibb, and Horizon Therapeutics.

A version of this article appeared on Medscape.com .

NEW YORK — New insights into colchicine’s disruption of the pathway that contributes to arterial inflammation and new clinical studies of the drug could pave the way toward greater use of the anti-inflammatory drug in patients with or at risk for atherosclerotic cardiovascular disease (ASCVD), researchers said at the 4th Annual Cardiometabolic Risk in Inflammatory Conditions conference.

Colchicine was approved by the US Food and Drug Administration (FDA) in June 2023 in a once-daily 0.5-mg formulation under the brand name Lodoco to reduce the risk for major adverse cardiovascular events (MACE) in patients with established atherosclerotic disease or with multiple risk factors for CVD. The Lodoco formulation is slightly smaller than the 0.6-mg formulation that’s taken twice daily for the prophylaxis and treatment of acute gout flares.

In a presentation at the conference, Binita Shah, MD, one of the principal investigators in trials of Lodoco, explained how the inflammatory pathway contributes to atherosclerosis and provided an update on how colchicine disrupts the pathway. Dr. Shah is an associate professor of medicine at New York University in New York City and director of research at NYU Langone Health Interventional Cardiology.

“Colchicine dampens inflammatory markers on neutrophils so that they are less likely to be attracted to inflamed or injured endothelium, which would be the site of where plaque is building up or where the plaque has ruptured in the setting of a heart attack,” Shah told this news organization after her presentation.

The Inflammatory Pathway

Dr. Shah explained that normal coronary endothelium resists adhesion by circulating leukocytes, but inflamed or injured coronary endothelium attracts those neutrophils via two types of selectins: L-selectins on neutrophils and E-selectins on endothelial cells. Those neutrophils then release inflammatory cytokines including interleukin-1 beta (IL-1ß), which then triggers production of IL-6 and, subsequently, high-sensitivity C-reactive protein (hsCRP), which contributes to plaque formation, she said.

“Colchicine affects these pathways with a balance for safety and effect on clinical outcomes, particularly to reduce recurrent myocardial infarction [MI],” Dr. Shah said during her presentation. 

Results from the CIRT trial demonstrated that methotrexate is ineffective in blocking the adenosine-mediated anti-inflammatory pathway, Dr. Shah said, so focusing on the IL-1ß–IL-6–hsCRP pathway, which is known to work based on the results of the CANTOS trial, could pay dividends.

“This is where colchicine can potentially play a role,” she said. 

Dr. Shah cited a secondary analysis of the CANTOS trial in which the magnitude of hsCRP reduction correlated with a reduction in MI, stroke, or cardiovascular death. The secondary analysis showed that patients who received canakinumab and achieved hsCRP ≥ 2 mg/L had a nonsignificant 5% lower risk and those who reached < 2 mg/L had a statistically significant 25% lower risk than those who received placebo.

The COPE-PCI Pilot trial demonstrated the benefit of targeting the interleukin pathways, she noted. 

Further clarification of the role of colchicine in managing patients with acute coronary syndrome may come from two other randomized trials now underway, Dr. Shah said: POPCORN is evaluating colchicine to reduce MACE after noncardiac surgery, and CLEAR SYNERGY is evaluating the best timing for colchicine therapy after an acute MI.

Dr. Shah presented preliminary data from her group from a neutrophil biomarker substudy of CLEAR SYNERGY that isolated neutrophils from patients who had an acute MI. “We treated them with various doses of colchicine and showed that the interaction between those treated neutrophils [and] the endothelial cells were a lot lower; they were less sticky to endothelial cells as colchicine was administered,” she said in her presentation. She added that colchicine also reduced neutrophil chemotaxis and neutrophil activation and potentially inhibited inflammasomes, decreasing IL-1ß production.

What’s more, colchicine has been shown to not affect platelets alone but rather platelets at the site of inflammation or plaque rupture, Dr. Shah added. “At currently used doses, colchicine does not inhibit platelet activity [by] itself, so we’ve never seen increased bleeding events, but it will dampen neutrophils’ ability to latch onto a platelet that could contribute to a clot,” she later told this news organization.

“There are multiple studies, both retrospective studies in gout cohorts as well as prospective studies in the cardiovascular cohort, that all show consistently one thing, which is that colchicine continues to reduce the risk of having a recurrent MI in patients who either have cardiovascular disease or are at high risk of having cardiovascular disease,” she said.

“I think that’s very helpful to know that it’s not just one study — it’s not just a fluke, potentially a play of chance — but multiple studies consistently showing the same thing: That there’s a reduced risk of acute MI.”
 

Slow to Embrace Colchicine

Despite this evidence, cardiologists and rheumatologists have been slow to embrace colchicine for patients at risk for cardiovascular events, said Michael S. Garshick, MD, who attended the conference and is head of the Cardio-Rheumatology Program at NYU Langone. “What [Shah] really highlighted was that for a number of years now, we’ve had several clinical trials showing the benefit of low-dose colchicine to prevent atherosclerotic cardiovascular events, and yet despite these and that there’s now an indication to use low-dose colchicine to reduce cardiovascular disease, we’re still struggling for this medication to be taken up by the general cardiology community to treat high-risk patients.

NYU Langone

“There’s still some work to do to prove that we need to break those barriers,” Dr. Garshick added. Some of the confusion surrounding the use of colchicine for ASCVD may be attributed to the 0.5-mg dose approved for CVD as opposed to the long-approved 0.6-mg dose for gout, he said. “People are generally confused: Is it OK to use the 0.6-mg dose?” Dr. Garshick said.

Potential gastrointestinal side effects may be another concerning factor, although, he added, “we didn’t see any major complications.” Another issue could be polypharmacy in many of these patients, he said.

Dr. Garshick concurred with Shah that the existing evidence supporting the use of colchicine to reduce risk for cardiovascular events is strong, but more will come out. “I think there’s going to be evolving data supporting it,” he said.

Dr. Shah disclosed financial relationships with Philips Volcano and Novo Nordisk. She is a principal investigator of the CLEAR SYNERGY biomarker substudy and the POPCORN trial. Dr. Garshick disclosed relationships with Kiniksa Pharmaceuticals, Agepha Pharma, Bristol Myers Squibb, and Horizon Therapeutics.

A version of this article appeared on Medscape.com .

NEW YORK — New insights into colchicine’s disruption of the pathway that contributes to arterial inflammation and new clinical studies of the drug could pave the way toward greater use of the anti-inflammatory drug in patients with or at risk for atherosclerotic cardiovascular disease (ASCVD), researchers said at the 4th Annual Cardiometabolic Risk in Inflammatory Conditions conference.

Colchicine was approved by the US Food and Drug Administration (FDA) in June 2023 in a once-daily 0.5-mg formulation under the brand name Lodoco to reduce the risk for major adverse cardiovascular events (MACE) in patients with established atherosclerotic disease or with multiple risk factors for CVD. The Lodoco formulation is slightly smaller than the 0.6-mg formulation that’s taken twice daily for the prophylaxis and treatment of acute gout flares.

In a presentation at the conference, Binita Shah, MD, one of the principal investigators in trials of Lodoco, explained how the inflammatory pathway contributes to atherosclerosis and provided an update on how colchicine disrupts the pathway. Dr. Shah is an associate professor of medicine at New York University in New York City and director of research at NYU Langone Health Interventional Cardiology.

“Colchicine dampens inflammatory markers on neutrophils so that they are less likely to be attracted to inflamed or injured endothelium, which would be the site of where plaque is building up or where the plaque has ruptured in the setting of a heart attack,” Shah told this news organization after her presentation.

The Inflammatory Pathway

Dr. Shah explained that normal coronary endothelium resists adhesion by circulating leukocytes, but inflamed or injured coronary endothelium attracts those neutrophils via two types of selectins: L-selectins on neutrophils and E-selectins on endothelial cells. Those neutrophils then release inflammatory cytokines including interleukin-1 beta (IL-1ß), which then triggers production of IL-6 and, subsequently, high-sensitivity C-reactive protein (hsCRP), which contributes to plaque formation, she said.

“Colchicine affects these pathways with a balance for safety and effect on clinical outcomes, particularly to reduce recurrent myocardial infarction [MI],” Dr. Shah said during her presentation. 

Results from the CIRT trial demonstrated that methotrexate is ineffective in blocking the adenosine-mediated anti-inflammatory pathway, Dr. Shah said, so focusing on the IL-1ß–IL-6–hsCRP pathway, which is known to work based on the results of the CANTOS trial, could pay dividends.

“This is where colchicine can potentially play a role,” she said. 

Dr. Shah cited a secondary analysis of the CANTOS trial in which the magnitude of hsCRP reduction correlated with a reduction in MI, stroke, or cardiovascular death. The secondary analysis showed that patients who received canakinumab and achieved hsCRP ≥ 2 mg/L had a nonsignificant 5% lower risk and those who reached < 2 mg/L had a statistically significant 25% lower risk than those who received placebo.

The COPE-PCI Pilot trial demonstrated the benefit of targeting the interleukin pathways, she noted. 

Further clarification of the role of colchicine in managing patients with acute coronary syndrome may come from two other randomized trials now underway, Dr. Shah said: POPCORN is evaluating colchicine to reduce MACE after noncardiac surgery, and CLEAR SYNERGY is evaluating the best timing for colchicine therapy after an acute MI.

Dr. Shah presented preliminary data from her group from a neutrophil biomarker substudy of CLEAR SYNERGY that isolated neutrophils from patients who had an acute MI. “We treated them with various doses of colchicine and showed that the interaction between those treated neutrophils [and] the endothelial cells were a lot lower; they were less sticky to endothelial cells as colchicine was administered,” she said in her presentation. She added that colchicine also reduced neutrophil chemotaxis and neutrophil activation and potentially inhibited inflammasomes, decreasing IL-1ß production.

What’s more, colchicine has been shown to not affect platelets alone but rather platelets at the site of inflammation or plaque rupture, Dr. Shah added. “At currently used doses, colchicine does not inhibit platelet activity [by] itself, so we’ve never seen increased bleeding events, but it will dampen neutrophils’ ability to latch onto a platelet that could contribute to a clot,” she later told this news organization.

“There are multiple studies, both retrospective studies in gout cohorts as well as prospective studies in the cardiovascular cohort, that all show consistently one thing, which is that colchicine continues to reduce the risk of having a recurrent MI in patients who either have cardiovascular disease or are at high risk of having cardiovascular disease,” she said.

“I think that’s very helpful to know that it’s not just one study — it’s not just a fluke, potentially a play of chance — but multiple studies consistently showing the same thing: That there’s a reduced risk of acute MI.”
 

Slow to Embrace Colchicine

Despite this evidence, cardiologists and rheumatologists have been slow to embrace colchicine for patients at risk for cardiovascular events, said Michael S. Garshick, MD, who attended the conference and is head of the Cardio-Rheumatology Program at NYU Langone. “What [Shah] really highlighted was that for a number of years now, we’ve had several clinical trials showing the benefit of low-dose colchicine to prevent atherosclerotic cardiovascular events, and yet despite these and that there’s now an indication to use low-dose colchicine to reduce cardiovascular disease, we’re still struggling for this medication to be taken up by the general cardiology community to treat high-risk patients.

NYU Langone

“There’s still some work to do to prove that we need to break those barriers,” Dr. Garshick added. Some of the confusion surrounding the use of colchicine for ASCVD may be attributed to the 0.5-mg dose approved for CVD as opposed to the long-approved 0.6-mg dose for gout, he said. “People are generally confused: Is it OK to use the 0.6-mg dose?” Dr. Garshick said.

Potential gastrointestinal side effects may be another concerning factor, although, he added, “we didn’t see any major complications.” Another issue could be polypharmacy in many of these patients, he said.

Dr. Garshick concurred with Shah that the existing evidence supporting the use of colchicine to reduce risk for cardiovascular events is strong, but more will come out. “I think there’s going to be evolving data supporting it,” he said.

Dr. Shah disclosed financial relationships with Philips Volcano and Novo Nordisk. She is a principal investigator of the CLEAR SYNERGY biomarker substudy and the POPCORN trial. Dr. Garshick disclosed relationships with Kiniksa Pharmaceuticals, Agepha Pharma, Bristol Myers Squibb, and Horizon Therapeutics.

A version of this article appeared on Medscape.com .

Amyloidosis is a condition marked by the accumulation of insoluble beta-sheet fibrillar protein aggregates in tissues that can be acquired or hereditary. Hereditary amyloidogenic transthyretin (hATTR) amyloidosis is an autosomal-dominant disease caused by pathogenic variants in the TTR gene. The TTR protein is essential for transporting thyroxine and retinol-binding protein and is primarily synthesized in the liver, becoming unstable as a result of the pathogenic mutations. Inherited pathogenic variants lead to the protein’s misfolding, aggregation, and deposition as amyloid fibrils in different organs, resulting in progressive multisystem dysfunction. hATTR amyloidosis is a heterogenous disease, characterized by a wide range of clinical manifestations affecting the peripheral (both somatic and autonomic) nervous system, heart, kidneys, and central nervous system (CNS); however, the heart and peripheral nerves appear to be the main targets of the TTR-related pathologic process. Without treatment, the prognosis is poor, with an average life expectancy of 7-11 years; however, in recent years, the development of new therapeutics has brought new hope to patients.

Here are five things to know about hereditary amyloidosis.
 

1. Diagnosis of hereditary amyloidosis requires a high level of suspicion.

The diagnosis of hATTR amyloidosis presents a significant challenge, particularly in nonendemic regions where a lack of family history and heterogeneity of clinical presentation can delay diagnosis by 4-5 years. A timely diagnosis requires clinicians to maintain a high index of suspicion, especially when evaluating patients with neuropathic symptoms. Early diagnosis is crucial to begin patients on recently available disease-modifying therapies that can slow the disease course. Failure to recognize is the major barrier to improved patient outcomes.

Confirming the diagnosis involves detecting amyloid deposits in tissue biopsy specimens from various possible sites, including the skin, nerves, myocardium, and others. However, the diagnosis can be challenging owing to the uneven distribution of amyloid fibrils, sometimes requiring multiple biopsies or alternative diagnostic approaches, such as TTR gene sequencing, to confirm the presence of an amyloidogenic pathogenic variant. Biopsy for hATTR amyloidosis is not required if imaging of the clinical phenotype and genetic testing are consistent.

Once diagnosed, the assessment of organ involvement is essential, using nerve conduction studies, cardiac investigations (eg, echocardiography, ECG, scintigraphy), ophthalmologic assessments, and complete renal function evaluations to fully understand the extent of disease impact.
 

2. Hereditary amyloidosis diseases are classified into two primary categories.

Hereditary amyloidosis represents a group of diseases caused by inherited gene mutations and is classified into two main types: ATTR (transthyretin-related) and non-TTR. Most cases of hereditary amyloidosis are associated with the TTR gene. Mutations in this protein lead to different forms of ATTR amyloidosis, categorized on the basis of the specific mutation involved, such as hATTR50M (genotype Val50Met), which is the most prevalent form.

ATTR mutations result in a variety of health issues, manifesting in three primary forms:

• Neuropathic ATTR (genotype Val50Met): Early symptoms include sensorimotor polyneuropathy of the legs, carpal tunnel syndrome, autonomic dysfunction, constipation/diarrhea, and impotence; late symptoms include cardiomyopathy, vitreous opacities, glaucoma, nephropathy, and CNS symptoms.
• Cardiac ATTR (genotype Val142Ile): This type is characterized by cardiomegaly, conduction block, arrhythmia, anginal pain, congestive heart failure, and sudden death.
• Leptomeningeal ATTR (genotype Asp38Gly): This is characterized by transient focal neurologic episodes, intracerebral and/or subarachnoid hemorrhages, dementia, ataxia, and psychosis.

Non-TTR amyloidoses are rarer than are ATTR variations and involve mutations in different genes that also have significant health impacts. These include proteins such as apolipoprotein AI, fibrinogen A alpha, lysozyme, apolipoprotein AII, gelsolin, and cystatin C. Each type contributes to a range of symptoms and requires individualized management approaches.
 

3. Heightened disease awareness has increased the recognized prevalence of hereditary amyloidosis.

hATTR amyloidosis has historically been recognized as a rare disease, with significant clusters in Portugal, Brazil, Sweden, and Japan and alongside smaller foci in regions such as Cyprus and Majorca. This disease›s variable incidence across Europe is now perceived to be on the rise. It is attributed to heightened disease awareness among healthcare providers and the broader availability of genetic testing, extending its recognized impact to at least 29 countries globally. The genetic landscape of hATTR amyloidosis is diverse, with over 140 mutations identified in the TTR gene. Among these, the Val50Met mutation is particularly notable for its association with large patient clusters in the endemic regions.

Morbidity and mortality associated with hATTR amyloidosis are significant, with an average lifespan of 7-11 years post diagnosis; however, survival rates can vary widely depending on the specific genetic variant and organ involvement. Early diagnosis can substantially improve outcomes; yet, for many, the prognosis remains poor, especially in cases dominated by cardiomyopathy. Genetics play a central role in the disease›s transmission, with autosomal-dominant inheritance patterns and high penetrance among carriers of pathogenic mutations. Research continues to uncover the broad spectrum of genetic variations contributing to hATTR amyloidosis, with ongoing studies poised to expand our understanding of its molecular underpinnings and potential treatment options.

4. The effect on quality of life is significant both in patients living with hATTR amyloidosis and their caregivers.

hATTR amyloidosis imposes a multifaceted burden on patients and their caregivers as the disease progresses. Symptoms range from sensorimotor impairment and gastrointestinal or autonomic dysfunction to heart failure, leading to significant health-related quality-of-life deficits. The systemic nature of hATTR amyloidosis significantly affects patients› lifestyles, daily activities, and general well-being, especially because it typically manifests in adulthood — a crucial time for occupational changes. The progression of hATTR amyloidosis exacerbates the challenges in maintaining employment and managing household chores, with symptomatic patients often unable to work and experiencing difficulties with absenteeism and presenteeism when they are able to work.

hATTR amyloidosis leads to physical, mental, occupational, and social limitations for patients, and it also places a considerable strain on their families and caregivers, who report poor mental health, work impairment, and a high time commitment (mean, 45.9 h/wk) to providing care.

5. There have been significant advancements in therapeutic options for early-stage hATTR amyloidosis.

After diagnosis, prompt initiation of treatment is recommended to delay the progression of hATTR amyloidosis; a multidisciplinary approach is essential, incorporating anti-amyloid therapy to inhibit further production and/or deposition of amyloid aggregates. Treatment strategies also include addressing symptomatic therapy and managing cardiac, renal, and ocular involvement. Although many therapies have been developed, especially for the early stages of hATTR amyloidosis, therapeutic benefits for patients with advanced disease remain limited.

Recent advancements in the treatment of hATTR amyloidosis have introduced RNA-targeted therapies including patisiran, vutrisiran, and eplontersen, which have shown efficacy in reducing hepatic TTR synthesis and the aggregation of misfolded monomers into amyloid deposits. These therapies, ranging from small interfering RNA formulations to antisense oligonucleotides, offer benefits in managing both cardiomyopathy and neuropathy associated with hATTR amyloidosis , administered through various methods, including intravenous infusions and subcutaneous injections. In addition, the stabilization of TTR tetramers with the use of drugs such as tafamidis and diflunisal has effectively prevented the formation of amyloidogenic monomers. Moreover, other investigational agents, including TTR stabilizers like acoramidis and tolcapone, as well as novel compounds that inhibit amyloid formation and disrupt fibrils, are expanding the therapeutic landscape for hATTR amyloidosis , providing hope for improved management of this complex condition.

Dr. Gertz is a professor and consultant in the Department of Hematology, Mayo Clinic, Rochester, Minnesota. He has disclosed the following relevant financial relationships: Received income in an amount equal to or greater than $250 from AstraZeneca, Ionis, and Alnylym.

A version of this article appeared on Medscape.com.

Amyloidosis is a condition marked by the accumulation of insoluble beta-sheet fibrillar protein aggregates in tissues that can be acquired or hereditary. Hereditary amyloidogenic transthyretin (hATTR) amyloidosis is an autosomal-dominant disease caused by pathogenic variants in the TTR gene. The TTR protein is essential for transporting thyroxine and retinol-binding protein and is primarily synthesized in the liver, becoming unstable as a result of the pathogenic mutations. Inherited pathogenic variants lead to the protein’s misfolding, aggregation, and deposition as amyloid fibrils in different organs, resulting in progressive multisystem dysfunction. hATTR amyloidosis is a heterogenous disease, characterized by a wide range of clinical manifestations affecting the peripheral (both somatic and autonomic) nervous system, heart, kidneys, and central nervous system (CNS); however, the heart and peripheral nerves appear to be the main targets of the TTR-related pathologic process. Without treatment, the prognosis is poor, with an average life expectancy of 7-11 years; however, in recent years, the development of new therapeutics has brought new hope to patients.

Here are five things to know about hereditary amyloidosis.
 

1. Diagnosis of hereditary amyloidosis requires a high level of suspicion.

The diagnosis of hATTR amyloidosis presents a significant challenge, particularly in nonendemic regions where a lack of family history and heterogeneity of clinical presentation can delay diagnosis by 4-5 years. A timely diagnosis requires clinicians to maintain a high index of suspicion, especially when evaluating patients with neuropathic symptoms. Early diagnosis is crucial to begin patients on recently available disease-modifying therapies that can slow the disease course. Failure to recognize is the major barrier to improved patient outcomes.

Confirming the diagnosis involves detecting amyloid deposits in tissue biopsy specimens from various possible sites, including the skin, nerves, myocardium, and others. However, the diagnosis can be challenging owing to the uneven distribution of amyloid fibrils, sometimes requiring multiple biopsies or alternative diagnostic approaches, such as TTR gene sequencing, to confirm the presence of an amyloidogenic pathogenic variant. Biopsy for hATTR amyloidosis is not required if imaging of the clinical phenotype and genetic testing are consistent.

Once diagnosed, the assessment of organ involvement is essential, using nerve conduction studies, cardiac investigations (eg, echocardiography, ECG, scintigraphy), ophthalmologic assessments, and complete renal function evaluations to fully understand the extent of disease impact.
 

2. Hereditary amyloidosis diseases are classified into two primary categories.

Hereditary amyloidosis represents a group of diseases caused by inherited gene mutations and is classified into two main types: ATTR (transthyretin-related) and non-TTR. Most cases of hereditary amyloidosis are associated with the TTR gene. Mutations in this protein lead to different forms of ATTR amyloidosis, categorized on the basis of the specific mutation involved, such as hATTR50M (genotype Val50Met), which is the most prevalent form.

ATTR mutations result in a variety of health issues, manifesting in three primary forms:

• Neuropathic ATTR (genotype Val50Met): Early symptoms include sensorimotor polyneuropathy of the legs, carpal tunnel syndrome, autonomic dysfunction, constipation/diarrhea, and impotence; late symptoms include cardiomyopathy, vitreous opacities, glaucoma, nephropathy, and CNS symptoms.
• Cardiac ATTR (genotype Val142Ile): This type is characterized by cardiomegaly, conduction block, arrhythmia, anginal pain, congestive heart failure, and sudden death.
• Leptomeningeal ATTR (genotype Asp38Gly): This is characterized by transient focal neurologic episodes, intracerebral and/or subarachnoid hemorrhages, dementia, ataxia, and psychosis.

Non-TTR amyloidoses are rarer than are ATTR variations and involve mutations in different genes that also have significant health impacts. These include proteins such as apolipoprotein AI, fibrinogen A alpha, lysozyme, apolipoprotein AII, gelsolin, and cystatin C. Each type contributes to a range of symptoms and requires individualized management approaches.
 

3. Heightened disease awareness has increased the recognized prevalence of hereditary amyloidosis.

hATTR amyloidosis has historically been recognized as a rare disease, with significant clusters in Portugal, Brazil, Sweden, and Japan and alongside smaller foci in regions such as Cyprus and Majorca. This disease›s variable incidence across Europe is now perceived to be on the rise. It is attributed to heightened disease awareness among healthcare providers and the broader availability of genetic testing, extending its recognized impact to at least 29 countries globally. The genetic landscape of hATTR amyloidosis is diverse, with over 140 mutations identified in the TTR gene. Among these, the Val50Met mutation is particularly notable for its association with large patient clusters in the endemic regions.

Morbidity and mortality associated with hATTR amyloidosis are significant, with an average lifespan of 7-11 years post diagnosis; however, survival rates can vary widely depending on the specific genetic variant and organ involvement. Early diagnosis can substantially improve outcomes; yet, for many, the prognosis remains poor, especially in cases dominated by cardiomyopathy. Genetics play a central role in the disease›s transmission, with autosomal-dominant inheritance patterns and high penetrance among carriers of pathogenic mutations. Research continues to uncover the broad spectrum of genetic variations contributing to hATTR amyloidosis, with ongoing studies poised to expand our understanding of its molecular underpinnings and potential treatment options.

4. The effect on quality of life is significant both in patients living with hATTR amyloidosis and their caregivers.

hATTR amyloidosis imposes a multifaceted burden on patients and their caregivers as the disease progresses. Symptoms range from sensorimotor impairment and gastrointestinal or autonomic dysfunction to heart failure, leading to significant health-related quality-of-life deficits. The systemic nature of hATTR amyloidosis significantly affects patients› lifestyles, daily activities, and general well-being, especially because it typically manifests in adulthood — a crucial time for occupational changes. The progression of hATTR amyloidosis exacerbates the challenges in maintaining employment and managing household chores, with symptomatic patients often unable to work and experiencing difficulties with absenteeism and presenteeism when they are able to work.

hATTR amyloidosis leads to physical, mental, occupational, and social limitations for patients, and it also places a considerable strain on their families and caregivers, who report poor mental health, work impairment, and a high time commitment (mean, 45.9 h/wk) to providing care.

5. There have been significant advancements in therapeutic options for early-stage hATTR amyloidosis.

After diagnosis, prompt initiation of treatment is recommended to delay the progression of hATTR amyloidosis; a multidisciplinary approach is essential, incorporating anti-amyloid therapy to inhibit further production and/or deposition of amyloid aggregates. Treatment strategies also include addressing symptomatic therapy and managing cardiac, renal, and ocular involvement. Although many therapies have been developed, especially for the early stages of hATTR amyloidosis, therapeutic benefits for patients with advanced disease remain limited.

Recent advancements in the treatment of hATTR amyloidosis have introduced RNA-targeted therapies including patisiran, vutrisiran, and eplontersen, which have shown efficacy in reducing hepatic TTR synthesis and the aggregation of misfolded monomers into amyloid deposits. These therapies, ranging from small interfering RNA formulations to antisense oligonucleotides, offer benefits in managing both cardiomyopathy and neuropathy associated with hATTR amyloidosis , administered through various methods, including intravenous infusions and subcutaneous injections. In addition, the stabilization of TTR tetramers with the use of drugs such as tafamidis and diflunisal has effectively prevented the formation of amyloidogenic monomers. Moreover, other investigational agents, including TTR stabilizers like acoramidis and tolcapone, as well as novel compounds that inhibit amyloid formation and disrupt fibrils, are expanding the therapeutic landscape for hATTR amyloidosis , providing hope for improved management of this complex condition.

Dr. Gertz is a professor and consultant in the Department of Hematology, Mayo Clinic, Rochester, Minnesota. He has disclosed the following relevant financial relationships: Received income in an amount equal to or greater than $250 from AstraZeneca, Ionis, and Alnylym.

A version of this article appeared on Medscape.com.

Amyloidosis is a condition marked by the accumulation of insoluble beta-sheet fibrillar protein aggregates in tissues that can be acquired or hereditary. Hereditary amyloidogenic transthyretin (hATTR) amyloidosis is an autosomal-dominant disease caused by pathogenic variants in the TTR gene. The TTR protein is essential for transporting thyroxine and retinol-binding protein and is primarily synthesized in the liver, becoming unstable as a result of the pathogenic mutations. Inherited pathogenic variants lead to the protein’s misfolding, aggregation, and deposition as amyloid fibrils in different organs, resulting in progressive multisystem dysfunction. hATTR amyloidosis is a heterogenous disease, characterized by a wide range of clinical manifestations affecting the peripheral (both somatic and autonomic) nervous system, heart, kidneys, and central nervous system (CNS); however, the heart and peripheral nerves appear to be the main targets of the TTR-related pathologic process. Without treatment, the prognosis is poor, with an average life expectancy of 7-11 years; however, in recent years, the development of new therapeutics has brought new hope to patients.

Here are five things to know about hereditary amyloidosis.
 

1. Diagnosis of hereditary amyloidosis requires a high level of suspicion.

The diagnosis of hATTR amyloidosis presents a significant challenge, particularly in nonendemic regions where a lack of family history and heterogeneity of clinical presentation can delay diagnosis by 4-5 years. A timely diagnosis requires clinicians to maintain a high index of suspicion, especially when evaluating patients with neuropathic symptoms. Early diagnosis is crucial to begin patients on recently available disease-modifying therapies that can slow the disease course. Failure to recognize is the major barrier to improved patient outcomes.

Confirming the diagnosis involves detecting amyloid deposits in tissue biopsy specimens from various possible sites, including the skin, nerves, myocardium, and others. However, the diagnosis can be challenging owing to the uneven distribution of amyloid fibrils, sometimes requiring multiple biopsies or alternative diagnostic approaches, such as TTR gene sequencing, to confirm the presence of an amyloidogenic pathogenic variant. Biopsy for hATTR amyloidosis is not required if imaging of the clinical phenotype and genetic testing are consistent.

Once diagnosed, the assessment of organ involvement is essential, using nerve conduction studies, cardiac investigations (eg, echocardiography, ECG, scintigraphy), ophthalmologic assessments, and complete renal function evaluations to fully understand the extent of disease impact.
 

2. Hereditary amyloidosis diseases are classified into two primary categories.

Hereditary amyloidosis represents a group of diseases caused by inherited gene mutations and is classified into two main types: ATTR (transthyretin-related) and non-TTR. Most cases of hereditary amyloidosis are associated with the TTR gene. Mutations in this protein lead to different forms of ATTR amyloidosis, categorized on the basis of the specific mutation involved, such as hATTR50M (genotype Val50Met), which is the most prevalent form.

ATTR mutations result in a variety of health issues, manifesting in three primary forms:

• Neuropathic ATTR (genotype Val50Met): Early symptoms include sensorimotor polyneuropathy of the legs, carpal tunnel syndrome, autonomic dysfunction, constipation/diarrhea, and impotence; late symptoms include cardiomyopathy, vitreous opacities, glaucoma, nephropathy, and CNS symptoms.
• Cardiac ATTR (genotype Val142Ile): This type is characterized by cardiomegaly, conduction block, arrhythmia, anginal pain, congestive heart failure, and sudden death.
• Leptomeningeal ATTR (genotype Asp38Gly): This is characterized by transient focal neurologic episodes, intracerebral and/or subarachnoid hemorrhages, dementia, ataxia, and psychosis.

Non-TTR amyloidoses are rarer than are ATTR variations and involve mutations in different genes that also have significant health impacts. These include proteins such as apolipoprotein AI, fibrinogen A alpha, lysozyme, apolipoprotein AII, gelsolin, and cystatin C. Each type contributes to a range of symptoms and requires individualized management approaches.
 

3. Heightened disease awareness has increased the recognized prevalence of hereditary amyloidosis.

hATTR amyloidosis has historically been recognized as a rare disease, with significant clusters in Portugal, Brazil, Sweden, and Japan and alongside smaller foci in regions such as Cyprus and Majorca. This disease›s variable incidence across Europe is now perceived to be on the rise. It is attributed to heightened disease awareness among healthcare providers and the broader availability of genetic testing, extending its recognized impact to at least 29 countries globally. The genetic landscape of hATTR amyloidosis is diverse, with over 140 mutations identified in the TTR gene. Among these, the Val50Met mutation is particularly notable for its association with large patient clusters in the endemic regions.

Morbidity and mortality associated with hATTR amyloidosis are significant, with an average lifespan of 7-11 years post diagnosis; however, survival rates can vary widely depending on the specific genetic variant and organ involvement. Early diagnosis can substantially improve outcomes; yet, for many, the prognosis remains poor, especially in cases dominated by cardiomyopathy. Genetics play a central role in the disease›s transmission, with autosomal-dominant inheritance patterns and high penetrance among carriers of pathogenic mutations. Research continues to uncover the broad spectrum of genetic variations contributing to hATTR amyloidosis, with ongoing studies poised to expand our understanding of its molecular underpinnings and potential treatment options.

4. The effect on quality of life is significant both in patients living with hATTR amyloidosis and their caregivers.

hATTR amyloidosis imposes a multifaceted burden on patients and their caregivers as the disease progresses. Symptoms range from sensorimotor impairment and gastrointestinal or autonomic dysfunction to heart failure, leading to significant health-related quality-of-life deficits. The systemic nature of hATTR amyloidosis significantly affects patients› lifestyles, daily activities, and general well-being, especially because it typically manifests in adulthood — a crucial time for occupational changes. The progression of hATTR amyloidosis exacerbates the challenges in maintaining employment and managing household chores, with symptomatic patients often unable to work and experiencing difficulties with absenteeism and presenteeism when they are able to work.

hATTR amyloidosis leads to physical, mental, occupational, and social limitations for patients, and it also places a considerable strain on their families and caregivers, who report poor mental health, work impairment, and a high time commitment (mean, 45.9 h/wk) to providing care.

5. There have been significant advancements in therapeutic options for early-stage hATTR amyloidosis.

After diagnosis, prompt initiation of treatment is recommended to delay the progression of hATTR amyloidosis; a multidisciplinary approach is essential, incorporating anti-amyloid therapy to inhibit further production and/or deposition of amyloid aggregates. Treatment strategies also include addressing symptomatic therapy and managing cardiac, renal, and ocular involvement. Although many therapies have been developed, especially for the early stages of hATTR amyloidosis, therapeutic benefits for patients with advanced disease remain limited.

Recent advancements in the treatment of hATTR amyloidosis have introduced RNA-targeted therapies including patisiran, vutrisiran, and eplontersen, which have shown efficacy in reducing hepatic TTR synthesis and the aggregation of misfolded monomers into amyloid deposits. These therapies, ranging from small interfering RNA formulations to antisense oligonucleotides, offer benefits in managing both cardiomyopathy and neuropathy associated with hATTR amyloidosis , administered through various methods, including intravenous infusions and subcutaneous injections. In addition, the stabilization of TTR tetramers with the use of drugs such as tafamidis and diflunisal has effectively prevented the formation of amyloidogenic monomers. Moreover, other investigational agents, including TTR stabilizers like acoramidis and tolcapone, as well as novel compounds that inhibit amyloid formation and disrupt fibrils, are expanding the therapeutic landscape for hATTR amyloidosis , providing hope for improved management of this complex condition.

Dr. Gertz is a professor and consultant in the Department of Hematology, Mayo Clinic, Rochester, Minnesota. He has disclosed the following relevant financial relationships: Received income in an amount equal to or greater than $250 from AstraZeneca, Ionis, and Alnylym.

A version of this article appeared on Medscape.com.

Older men with chronic kidney disease (CKD) show higher resting muscle sympathetic nerve activity, but not vascular stiffness, compared with older women, offering clues to the underlying reasons why men with CKD have a higher cardiovascular risk than do women with the disease.

“Although it is well established that sympathetic nerve system activity is chronically elevated in patients with impaired kidney function, we show for the first time that males with CKD have higher resting muscle sympathetic nerve activity compared with females with CKD,” report the authors on research published in the American Journal of Physiology-Renal Physiology.

“For clinicians, the key takeaway is the importance of recognizing sex-specific differences in sympathetic activity and vascular function when assessing cardiovascular risk in CKD patients,” first author Matias G. Zanuzzi, MD, of the Division of Renal Medicine, Department of Medicine, Emory University School of Medicine, Atlanta, Georgia, told this news organization.

In the general population, cardiovascular risk is lower in younger women vs men, but their risks converge in older age as women develop similar levels of sympathetic overactivity, vascular stiffness, and cardiovascular risk.

However, an exception to that pattern is seen in the CKD population, where men continue to have a higher cardiovascular mortality risk vs women even in older age.

Studies evaluating the reasons for that have been conflicting, with some reporting a tendency of higher muscle sympathetic nerve activity in older women compared with men and others suggest the opposite finding — lower activity vs men.

To further investigate, Dr. Zanuzzi and colleagues enrolled 129 participants, including 96 men and 33 women with stage III or IV CKD.

The mean age of the study participants was 64 years for men and65 years for women. Most had obesity, and importantly, more than 80% of participants in each group was Black. There were no significant differences between the groups in terms of body mass index or comorbidities, including smoking, diabetes, or hypertension.

At two separate study visits, vascular stiffness was assessed with carotid-femoral pulse wave velocity measurement, and resting muscle sympathetic nerve activity was measured using microneurography. 

The results showed that men with CKD had significantly higher resting muscle sympathetic nerve activity compared with women with CKD (68 vs 55 bursts per 100 heartbeats; P = .005), whereas no differences in vascular stiffness were observed between the genders (P = .248).

“The findings suggest that the higher cardiovascular disease risk observed in older males with CKD may be influenced by elevated sympathetic activity,” Dr. Zanuzzi explained.

“However, the lack of significant differences in vascular stiffness between genders implies that additional factors beyond vascular remodeling may contribute to the observed sex-specific differences in cardiovascular risk,” he said.

Of note, resting vascular stiffness was not associated with muscular sympathetic nerve activity in either men or women, which was surprising to the authors, Dr. Zanuzzi noted.

“This underscores the multifactorial nature of vascular pathophysiology in CKD and underscores the need for further research to unravel the underlying mechanisms.”

In other findings, although prior studies have shown a positive correlation between age and resting muscle sympathetic nerve activity in White, healthy women and men without obesity,, no similar relationship was observed in men or women with CKD.

“These findings suggest that the protective effect of younger age on sympathetic function may not be present in the setting of decreased kidney function in both males and females,” the authors note.

In addition, whereas previous research has shown a clear association between sympathetic overactivity and a wide variety of measures of obesity, in the current study, that association was only observed in men with CKD.

Important limitations of the study include the cross-sectional design and that the population was predominantly Black, Dr. Zanuzzi noted.

“Generalizability to other demographic groups may be limited, and future longitudinal studies are needed to validate these findings and explore potential causal relationships,” he said.

The findings underscore “the need for novel therapeutic approaches targeting sympathetic overactivity and vascular stiffness in CKD patients, especially considering the observed sex-specific differences,” Dr. Zanuzzi added. 

“Potential interventions may include pharmacological agents that modulate sympathetic tone or vascular remodeling pathways,” he said.

“Lifestyle modifications focusing on stress reduction and cardiovascular health promotion could also play a crucial role in mitigating cardiovascular risk.”

Dr. Zanuzzi concluded that “tailoring treatment strategies to address these differences may lead to more personalized and effective management approaches, ultimately improving clinical outcomes in this high-risk population.”

The authors had no disclosures to report.

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

Older men with chronic kidney disease (CKD) show higher resting muscle sympathetic nerve activity, but not vascular stiffness, compared with older women, offering clues to the underlying reasons why men with CKD have a higher cardiovascular risk than do women with the disease.

“Although it is well established that sympathetic nerve system activity is chronically elevated in patients with impaired kidney function, we show for the first time that males with CKD have higher resting muscle sympathetic nerve activity compared with females with CKD,” report the authors on research published in the American Journal of Physiology-Renal Physiology.

“For clinicians, the key takeaway is the importance of recognizing sex-specific differences in sympathetic activity and vascular function when assessing cardiovascular risk in CKD patients,” first author Matias G. Zanuzzi, MD, of the Division of Renal Medicine, Department of Medicine, Emory University School of Medicine, Atlanta, Georgia, told this news organization.

In the general population, cardiovascular risk is lower in younger women vs men, but their risks converge in older age as women develop similar levels of sympathetic overactivity, vascular stiffness, and cardiovascular risk.

However, an exception to that pattern is seen in the CKD population, where men continue to have a higher cardiovascular mortality risk vs women even in older age.

Studies evaluating the reasons for that have been conflicting, with some reporting a tendency of higher muscle sympathetic nerve activity in older women compared with men and others suggest the opposite finding — lower activity vs men.

To further investigate, Dr. Zanuzzi and colleagues enrolled 129 participants, including 96 men and 33 women with stage III or IV CKD.

The mean age of the study participants was 64 years for men and65 years for women. Most had obesity, and importantly, more than 80% of participants in each group was Black. There were no significant differences between the groups in terms of body mass index or comorbidities, including smoking, diabetes, or hypertension.

At two separate study visits, vascular stiffness was assessed with carotid-femoral pulse wave velocity measurement, and resting muscle sympathetic nerve activity was measured using microneurography. 

The results showed that men with CKD had significantly higher resting muscle sympathetic nerve activity compared with women with CKD (68 vs 55 bursts per 100 heartbeats; P = .005), whereas no differences in vascular stiffness were observed between the genders (P = .248).

“The findings suggest that the higher cardiovascular disease risk observed in older males with CKD may be influenced by elevated sympathetic activity,” Dr. Zanuzzi explained.

“However, the lack of significant differences in vascular stiffness between genders implies that additional factors beyond vascular remodeling may contribute to the observed sex-specific differences in cardiovascular risk,” he said.

Of note, resting vascular stiffness was not associated with muscular sympathetic nerve activity in either men or women, which was surprising to the authors, Dr. Zanuzzi noted.

“This underscores the multifactorial nature of vascular pathophysiology in CKD and underscores the need for further research to unravel the underlying mechanisms.”

In other findings, although prior studies have shown a positive correlation between age and resting muscle sympathetic nerve activity in White, healthy women and men without obesity,, no similar relationship was observed in men or women with CKD.

“These findings suggest that the protective effect of younger age on sympathetic function may not be present in the setting of decreased kidney function in both males and females,” the authors note.

In addition, whereas previous research has shown a clear association between sympathetic overactivity and a wide variety of measures of obesity, in the current study, that association was only observed in men with CKD.

Important limitations of the study include the cross-sectional design and that the population was predominantly Black, Dr. Zanuzzi noted.

“Generalizability to other demographic groups may be limited, and future longitudinal studies are needed to validate these findings and explore potential causal relationships,” he said.

The findings underscore “the need for novel therapeutic approaches targeting sympathetic overactivity and vascular stiffness in CKD patients, especially considering the observed sex-specific differences,” Dr. Zanuzzi added. 

“Potential interventions may include pharmacological agents that modulate sympathetic tone or vascular remodeling pathways,” he said.

“Lifestyle modifications focusing on stress reduction and cardiovascular health promotion could also play a crucial role in mitigating cardiovascular risk.”

Dr. Zanuzzi concluded that “tailoring treatment strategies to address these differences may lead to more personalized and effective management approaches, ultimately improving clinical outcomes in this high-risk population.”

The authors had no disclosures to report.

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

Older men with chronic kidney disease (CKD) show higher resting muscle sympathetic nerve activity, but not vascular stiffness, compared with older women, offering clues to the underlying reasons why men with CKD have a higher cardiovascular risk than do women with the disease.

“Although it is well established that sympathetic nerve system activity is chronically elevated in patients with impaired kidney function, we show for the first time that males with CKD have higher resting muscle sympathetic nerve activity compared with females with CKD,” report the authors on research published in the American Journal of Physiology-Renal Physiology.

“For clinicians, the key takeaway is the importance of recognizing sex-specific differences in sympathetic activity and vascular function when assessing cardiovascular risk in CKD patients,” first author Matias G. Zanuzzi, MD, of the Division of Renal Medicine, Department of Medicine, Emory University School of Medicine, Atlanta, Georgia, told this news organization.

In the general population, cardiovascular risk is lower in younger women vs men, but their risks converge in older age as women develop similar levels of sympathetic overactivity, vascular stiffness, and cardiovascular risk.

However, an exception to that pattern is seen in the CKD population, where men continue to have a higher cardiovascular mortality risk vs women even in older age.

Studies evaluating the reasons for that have been conflicting, with some reporting a tendency of higher muscle sympathetic nerve activity in older women compared with men and others suggest the opposite finding — lower activity vs men.

To further investigate, Dr. Zanuzzi and colleagues enrolled 129 participants, including 96 men and 33 women with stage III or IV CKD.

The mean age of the study participants was 64 years for men and65 years for women. Most had obesity, and importantly, more than 80% of participants in each group was Black. There were no significant differences between the groups in terms of body mass index or comorbidities, including smoking, diabetes, or hypertension.

At two separate study visits, vascular stiffness was assessed with carotid-femoral pulse wave velocity measurement, and resting muscle sympathetic nerve activity was measured using microneurography. 

The results showed that men with CKD had significantly higher resting muscle sympathetic nerve activity compared with women with CKD (68 vs 55 bursts per 100 heartbeats; P = .005), whereas no differences in vascular stiffness were observed between the genders (P = .248).

“The findings suggest that the higher cardiovascular disease risk observed in older males with CKD may be influenced by elevated sympathetic activity,” Dr. Zanuzzi explained.

“However, the lack of significant differences in vascular stiffness between genders implies that additional factors beyond vascular remodeling may contribute to the observed sex-specific differences in cardiovascular risk,” he said.

Of note, resting vascular stiffness was not associated with muscular sympathetic nerve activity in either men or women, which was surprising to the authors, Dr. Zanuzzi noted.

“This underscores the multifactorial nature of vascular pathophysiology in CKD and underscores the need for further research to unravel the underlying mechanisms.”

In other findings, although prior studies have shown a positive correlation between age and resting muscle sympathetic nerve activity in White, healthy women and men without obesity,, no similar relationship was observed in men or women with CKD.

“These findings suggest that the protective effect of younger age on sympathetic function may not be present in the setting of decreased kidney function in both males and females,” the authors note.

In addition, whereas previous research has shown a clear association between sympathetic overactivity and a wide variety of measures of obesity, in the current study, that association was only observed in men with CKD.

Important limitations of the study include the cross-sectional design and that the population was predominantly Black, Dr. Zanuzzi noted.

“Generalizability to other demographic groups may be limited, and future longitudinal studies are needed to validate these findings and explore potential causal relationships,” he said.

The findings underscore “the need for novel therapeutic approaches targeting sympathetic overactivity and vascular stiffness in CKD patients, especially considering the observed sex-specific differences,” Dr. Zanuzzi added. 

“Potential interventions may include pharmacological agents that modulate sympathetic tone or vascular remodeling pathways,” he said.

“Lifestyle modifications focusing on stress reduction and cardiovascular health promotion could also play a crucial role in mitigating cardiovascular risk.”

Dr. Zanuzzi concluded that “tailoring treatment strategies to address these differences may lead to more personalized and effective management approaches, ultimately improving clinical outcomes in this high-risk population.”

The authors had no disclosures to report.

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

Insane hours and work-driven burnout are increasingly pernicious forces in medical workplaces. They apparently also are helping steer more physicians toward locum tenens, or temporary, assignments.

In its “2024 Survey of Locum Tenens Physicians and Advanced Practice Professionals,” Coppell, Texas–based staffing firm AMN Healthcare asked doctors, nurse practitioners, and physician assistants why they chose locum tenens work.

Morsa Images/DigitalVision/Getty Images

The reason chosen most often is improving work hours. Eighty-six percent of respondents said that was the “most important” or a “moderately important” factor. Next was addressing work burnout (80% of respondents), followed by unhappiness with compensation (75%), and dissatisfaction with being a full-time employee (71%).

“During the COVID pandemic, healthcare professionals began to rethink how, when, and where they work,” said Jeff Decker, president of AMN Healthcare’s physician solutions division, adding that he estimates about 52,000 US physicians now work on a locum tenens basis.

“Locum tenens offers relief from the long, inflexible work hours and onerous bureaucratic duties that often cause dissatisfaction and burnout among physicians and other healthcare providers.”

These feelings of dissatisfaction dovetail with findings in recent reports by this news organization based on surveys of physicians about burnout and employment. For example:

• Forty-nine percent of physicians acknowledged feeling burned out, up from 42% 6 years earlier.
• Eighty-three percent of doctors attributed their burnout and/or depression to the job entirely or most of the time.
• Flexibility in work schedules was one of the improvements chosen most often as a potential aid to burnout.
• The leading reasons cited for burnout were the number of bureaucratic tasks and too many hours at work.

Trying Locum Tenens Early in Career

According to AMN Healthcare, 81% of the physicians and APPs in its latest survey said they started taking locum tenens assignments immediately after finishing medical training or in mid-career. Only 19% waited until after retiring from medicine compared with 36% in AMN Healthcare’s 2016 survey.

In the 2024 report, a strong plurality of respondents (47%) said they found locum tenens work more satisfying than permanent healthcare employment. Twelve percent said the opposite, and 30% found the choices about equal.

Even so, it doesn’t appear that locum tenens represents a permanent career path for many. About as many (45%) of physicians and APPs said they would return to full-time employment if progress were made with conditions like hours and burnout, as said they would not (43%).

“Many physicians and other healthcare professionals feel they are being pushed from permanent positions by unsatisfactory work conditions,” Mr. Decker said. “To get them back, employers should offer practice conditions that appeal to today’s providers.”

A version of this article appeared on Medscape.com.

Insane hours and work-driven burnout are increasingly pernicious forces in medical workplaces. They apparently also are helping steer more physicians toward locum tenens, or temporary, assignments.

In its “2024 Survey of Locum Tenens Physicians and Advanced Practice Professionals,” Coppell, Texas–based staffing firm AMN Healthcare asked doctors, nurse practitioners, and physician assistants why they chose locum tenens work.

Morsa Images/DigitalVision/Getty Images

The reason chosen most often is improving work hours. Eighty-six percent of respondents said that was the “most important” or a “moderately important” factor. Next was addressing work burnout (80% of respondents), followed by unhappiness with compensation (75%), and dissatisfaction with being a full-time employee (71%).

“During the COVID pandemic, healthcare professionals began to rethink how, when, and where they work,” said Jeff Decker, president of AMN Healthcare’s physician solutions division, adding that he estimates about 52,000 US physicians now work on a locum tenens basis.

“Locum tenens offers relief from the long, inflexible work hours and onerous bureaucratic duties that often cause dissatisfaction and burnout among physicians and other healthcare providers.”

These feelings of dissatisfaction dovetail with findings in recent reports by this news organization based on surveys of physicians about burnout and employment. For example:

• Forty-nine percent of physicians acknowledged feeling burned out, up from 42% 6 years earlier.
• Eighty-three percent of doctors attributed their burnout and/or depression to the job entirely or most of the time.
• Flexibility in work schedules was one of the improvements chosen most often as a potential aid to burnout.
• The leading reasons cited for burnout were the number of bureaucratic tasks and too many hours at work.

Trying Locum Tenens Early in Career

According to AMN Healthcare, 81% of the physicians and APPs in its latest survey said they started taking locum tenens assignments immediately after finishing medical training or in mid-career. Only 19% waited until after retiring from medicine compared with 36% in AMN Healthcare’s 2016 survey.

In the 2024 report, a strong plurality of respondents (47%) said they found locum tenens work more satisfying than permanent healthcare employment. Twelve percent said the opposite, and 30% found the choices about equal.

Even so, it doesn’t appear that locum tenens represents a permanent career path for many. About as many (45%) of physicians and APPs said they would return to full-time employment if progress were made with conditions like hours and burnout, as said they would not (43%).

“Many physicians and other healthcare professionals feel they are being pushed from permanent positions by unsatisfactory work conditions,” Mr. Decker said. “To get them back, employers should offer practice conditions that appeal to today’s providers.”

A version of this article appeared on Medscape.com.

Insane hours and work-driven burnout are increasingly pernicious forces in medical workplaces. They apparently also are helping steer more physicians toward locum tenens, or temporary, assignments.

In its “2024 Survey of Locum Tenens Physicians and Advanced Practice Professionals,” Coppell, Texas–based staffing firm AMN Healthcare asked doctors, nurse practitioners, and physician assistants why they chose locum tenens work.

Morsa Images/DigitalVision/Getty Images

The reason chosen most often is improving work hours. Eighty-six percent of respondents said that was the “most important” or a “moderately important” factor. Next was addressing work burnout (80% of respondents), followed by unhappiness with compensation (75%), and dissatisfaction with being a full-time employee (71%).

“During the COVID pandemic, healthcare professionals began to rethink how, when, and where they work,” said Jeff Decker, president of AMN Healthcare’s physician solutions division, adding that he estimates about 52,000 US physicians now work on a locum tenens basis.

“Locum tenens offers relief from the long, inflexible work hours and onerous bureaucratic duties that often cause dissatisfaction and burnout among physicians and other healthcare providers.”

These feelings of dissatisfaction dovetail with findings in recent reports by this news organization based on surveys of physicians about burnout and employment. For example:

• Forty-nine percent of physicians acknowledged feeling burned out, up from 42% 6 years earlier.
• Eighty-three percent of doctors attributed their burnout and/or depression to the job entirely or most of the time.
• Flexibility in work schedules was one of the improvements chosen most often as a potential aid to burnout.
• The leading reasons cited for burnout were the number of bureaucratic tasks and too many hours at work.

Trying Locum Tenens Early in Career

According to AMN Healthcare, 81% of the physicians and APPs in its latest survey said they started taking locum tenens assignments immediately after finishing medical training or in mid-career. Only 19% waited until after retiring from medicine compared with 36% in AMN Healthcare’s 2016 survey.

In the 2024 report, a strong plurality of respondents (47%) said they found locum tenens work more satisfying than permanent healthcare employment. Twelve percent said the opposite, and 30% found the choices about equal.

Even so, it doesn’t appear that locum tenens represents a permanent career path for many. About as many (45%) of physicians and APPs said they would return to full-time employment if progress were made with conditions like hours and burnout, as said they would not (43%).

“Many physicians and other healthcare professionals feel they are being pushed from permanent positions by unsatisfactory work conditions,” Mr. Decker said. “To get them back, employers should offer practice conditions that appeal to today’s providers.”

A version of this article appeared on Medscape.com.

Medical innovations don’t happen overnight — but in today’s digital world, they happen pretty fast. Some are advancing faster than you think.

We’re not talking theory or hoped-for breakthroughs in the next decade. These technologies are already a reality for many doctors and expected to grow rapidly in the next 1-3 years.

Are you ready? Let’s find out.

1. Artificial Intelligence (AI) Medical Scribes

You may already be using this or, at the very least, have heard about it.

Physician burnout is a growing problem, with many doctors spending 2 hours on paperwork for every hour with patients. But some doctors, such as Gregory Ator, MD, chief medical informatics officer at the University of Kansas Medical Center, Kansas City, Kansas, have found a better way.

“I have been using it for 9 months now, and it truly is a life changer,” Dr. Ator said of Abridge, an AI helper that transcribes and summarizes his conversations with patients. “Now, I go into the room, place my phone just about anywhere, and I can just listen.” He estimated that the tech saves him between 3 and 10 minutes per patient. “At 20 patients a day, that saves me around 2 hours,” he said.

Bonus: Patients “get a doctor’s full attention instead of just looking at the top of his head while they play with the computer,” Dr. Ator said. “I have yet to have a patient who didn’t think that was a positive thing.”

Several companies are already selling these AI devices, including Ambience Healthcare, Augmedix, Nuance, and Suki, and they offer more than just transcriptions, said John D. Halamka, MD, president of Mayo Clinic Platform, who oversees Mayo’s adoption of AI. They also generate notes for treatment and billing and update data in the electronic health record.

“It’s preparation of documentation based on ambient listening of doctor-patient conversations,” Dr. Halamka explained. “I’m very optimistic about the use of emerging AI technologies to enable every clinician to practice at the top of their license.”

Patricia Garcia, MD, associate clinical information officer for ambulatory care at Stanford Health Care, has spent much of the last year co-running the medical center’s pilot program for AI scribes, and she’s so impressed with the technology that she “expects it’ll become more widely available as an option for any clinician that wants to use it in the next 12-18 months.”

2. Three-Dimensional (3D) Printing

Although 3D-printed organs may not happen anytime soon, the future is here for some 3D-printed prosthetics and implants — everything from dentures to spinal implants to prosthetic fingers and noses.

“In the next few years, I see rapid growth in the use of 3D printing technology across orthopedic surgery,” said Rishin J. Kadakia, MD, an orthopedic surgeon in Atlanta. “It’s becoming more common not just at large academic institutions. More and more providers will turn to using 3D printing technology to help tackle challenging cases that previously did not have good solutions.”

Dr. Kadakia has experienced this firsthand with his patients at the Emory Orthopaedics & Spine Center. One female patient developed talar avascular necrosis due to a bone break she’d sustained in a serious car crash. An ankle and subtalar joint fusion would repair the damage but limit her mobility and change her gait. So instead, in August of 2021, Dr. Kadakia and fellow orthopedic surgeon Jason Bariteau, MD, created for her a 3D-printed cobalt chrome talus implant.

“It provided an opportunity for her to keep her ankle’s range of motion, and also mobilize faster than with a subtalar and ankle joint fusion,” said Dr. Kadakia.

The technology is also playing a role in customized medical devices — patient-specific tools for greater precision — and 3D-printed anatomical models, built to the exact specifications of individual patients. Mayo Clinic already has 3D modeling units in three states, and other hospitals are following suit. The models not only help doctors prepare for complicated surgeries but also can dramatically cut down on costs. A 2021 study from Durham University reported that 3D models helped reduce surgery time by between 1.5 and 2.5 hours in lengthy procedures.

3. Drones

For patients who can’t make it to a pharmacy to pick up their prescriptions, either because of distance or lack of transportation, drones — which can deliver medications onto a customer’s back yard or front porch — offer a compelling solution.

Several companies and hospitals are already experimenting with drones, like WellSpan Health in Pennsylvania, Amazon Pharmacy, and the Cleveland Clinic, which announced a partnership with drone delivery company Zipline and plans to begin prescription deliveries across Northeast Ohio by 2025.

Healthcare systems are just beginning to explore the potential of drone deliveries, for everything from lab samples to medical and surgical supplies — even defibrillators that could arrive at an ailing patient’s front door before an emergency medical technician arrives.

“For many providers, when you take a sample from a patient, that sample waits around for hours until a courier picks up all of the facility’s samples and drives them to an outside facility for processing,” said Hillary Brendzel, head of Zipline’s US Healthcare Practice.

According to a 2022 survey from American Nurse Journal, 71% of nurses said that medical courier delays and errors negatively affected their ability to provide patient care. But with drone delivery, “lab samples can be sent for processing immediately, on-demand, resulting in faster diagnosis, treatment, and ultimately better outcomes,” said Ms. Brendzel.

4. Portable Ultrasound

Within the next 2 years, portable ultrasound — pocket-sized devices that connect to a smartphone or tablet — will become the “21st-century stethoscope,” said Abhilash Hareendranathan, PhD, assistant professor in the Department of Radiology and Diagnostic Imaging at the University of Alberta, in Edmonton, Alberta, Canada.

AI can make these devices easy to use, allowing clinicians with minimal imaging training to capture clear images and understand the results. Dr. Hareendranathan developed the Ultrasound Arm Injury Detection tool, a portable ultrasound that uses AI to detect fracture.

“We plan to introduce this technology in emergency departments, where it could be used by triage nurses to perform quick examinations to detect fractures of the wrist, elbow, or shoulder,” he said.

More pocket-sized scanners like these could “reshape the way diagnostic care is provided in rural and remote communities,” Dr. Hareendranathan said, and will “reduce wait times in crowded emergency departments.” Bill Gates believes enough in portable ultrasound that last September, the Bill & Melinda Gates Foundation granted $44 million to GE HealthCare to develop the technology for under-resourced communities.

5. Virtual Reality (VR)

When RelieVRx became the first US Food and Drug Administration (FDA)–approved VR therapy for chronic back pain in 2021, the technology was used in just a handful of Veterans Affairs (VA) facilities. But today, thousands of VR headsets have been deployed to more than 160 VA medical centers and clinics across the country.

“The VR experiences encompass pain neuroscience education, mindfulness, pleasant and relaxing distraction, and key skills to calm the nervous system,” said Beth Darnall, PhD, director of the Stanford Pain Relief Innovations Lab, who helped design the RelieVRx. She expects VR to go mainstream soon, not just because of increasing evidence that it works but also thanks to the Centers for Medicare & Medicaid Services, which recently issued a Healthcare Common Procedure Coding System code for VR. “This billing infrastructure will encourage adoption and uptake,” she said.

Hundreds of hospitals across the United States have already adopted the technology, for everything from childbirth pain to wound debridement, said Josh Sackman, the president and cofounder of AppliedVR, the company that developed RelieVRx.

“Over the next few years, we may see hundreds more deploy unique applications [for VR] that can handle multiple clinical indications,” he said. “Given the modality’s ability to scale and reduce reliance on pharmacological interventions, it has the power to improve the cost and quality of care.”

Hospital systems like Geisinger and Cedars-Sinai are already finding unique ways to implement the technology, he said, like using VR to reduce “scanxiety” during imaging service.

Other VR innovations are already being introduced, from the Smileyscope, a VR device for children that’s been proven to lessen the pain of a blood draw or intravenous insertion (it was cleared by the FDA last November) to several VR platforms launched by Cedars-Sinai in recent months, for applications that range from gastrointestinal issues to mental health therapy. “There may already be a thousand hospitals using VR in some capacity,” said Brennan Spiegel, MD, director of Health Services Research at Cedars-Sinai.

A version of this article appeared on Medscape.com.

Medical innovations don’t happen overnight — but in today’s digital world, they happen pretty fast. Some are advancing faster than you think.

We’re not talking theory or hoped-for breakthroughs in the next decade. These technologies are already a reality for many doctors and expected to grow rapidly in the next 1-3 years.

Are you ready? Let’s find out.

1. Artificial Intelligence (AI) Medical Scribes

You may already be using this or, at the very least, have heard about it.

Physician burnout is a growing problem, with many doctors spending 2 hours on paperwork for every hour with patients. But some doctors, such as Gregory Ator, MD, chief medical informatics officer at the University of Kansas Medical Center, Kansas City, Kansas, have found a better way.

“I have been using it for 9 months now, and it truly is a life changer,” Dr. Ator said of Abridge, an AI helper that transcribes and summarizes his conversations with patients. “Now, I go into the room, place my phone just about anywhere, and I can just listen.” He estimated that the tech saves him between 3 and 10 minutes per patient. “At 20 patients a day, that saves me around 2 hours,” he said.

Bonus: Patients “get a doctor’s full attention instead of just looking at the top of his head while they play with the computer,” Dr. Ator said. “I have yet to have a patient who didn’t think that was a positive thing.”

Several companies are already selling these AI devices, including Ambience Healthcare, Augmedix, Nuance, and Suki, and they offer more than just transcriptions, said John D. Halamka, MD, president of Mayo Clinic Platform, who oversees Mayo’s adoption of AI. They also generate notes for treatment and billing and update data in the electronic health record.

“It’s preparation of documentation based on ambient listening of doctor-patient conversations,” Dr. Halamka explained. “I’m very optimistic about the use of emerging AI technologies to enable every clinician to practice at the top of their license.”

Patricia Garcia, MD, associate clinical information officer for ambulatory care at Stanford Health Care, has spent much of the last year co-running the medical center’s pilot program for AI scribes, and she’s so impressed with the technology that she “expects it’ll become more widely available as an option for any clinician that wants to use it in the next 12-18 months.”

2. Three-Dimensional (3D) Printing

Although 3D-printed organs may not happen anytime soon, the future is here for some 3D-printed prosthetics and implants — everything from dentures to spinal implants to prosthetic fingers and noses.

“In the next few years, I see rapid growth in the use of 3D printing technology across orthopedic surgery,” said Rishin J. Kadakia, MD, an orthopedic surgeon in Atlanta. “It’s becoming more common not just at large academic institutions. More and more providers will turn to using 3D printing technology to help tackle challenging cases that previously did not have good solutions.”

Dr. Kadakia has experienced this firsthand with his patients at the Emory Orthopaedics & Spine Center. One female patient developed talar avascular necrosis due to a bone break she’d sustained in a serious car crash. An ankle and subtalar joint fusion would repair the damage but limit her mobility and change her gait. So instead, in August of 2021, Dr. Kadakia and fellow orthopedic surgeon Jason Bariteau, MD, created for her a 3D-printed cobalt chrome talus implant.

“It provided an opportunity for her to keep her ankle’s range of motion, and also mobilize faster than with a subtalar and ankle joint fusion,” said Dr. Kadakia.

The technology is also playing a role in customized medical devices — patient-specific tools for greater precision — and 3D-printed anatomical models, built to the exact specifications of individual patients. Mayo Clinic already has 3D modeling units in three states, and other hospitals are following suit. The models not only help doctors prepare for complicated surgeries but also can dramatically cut down on costs. A 2021 study from Durham University reported that 3D models helped reduce surgery time by between 1.5 and 2.5 hours in lengthy procedures.

3. Drones

For patients who can’t make it to a pharmacy to pick up their prescriptions, either because of distance or lack of transportation, drones — which can deliver medications onto a customer’s back yard or front porch — offer a compelling solution.

Several companies and hospitals are already experimenting with drones, like WellSpan Health in Pennsylvania, Amazon Pharmacy, and the Cleveland Clinic, which announced a partnership with drone delivery company Zipline and plans to begin prescription deliveries across Northeast Ohio by 2025.

Healthcare systems are just beginning to explore the potential of drone deliveries, for everything from lab samples to medical and surgical supplies — even defibrillators that could arrive at an ailing patient’s front door before an emergency medical technician arrives.

“For many providers, when you take a sample from a patient, that sample waits around for hours until a courier picks up all of the facility’s samples and drives them to an outside facility for processing,” said Hillary Brendzel, head of Zipline’s US Healthcare Practice.

According to a 2022 survey from American Nurse Journal, 71% of nurses said that medical courier delays and errors negatively affected their ability to provide patient care. But with drone delivery, “lab samples can be sent for processing immediately, on-demand, resulting in faster diagnosis, treatment, and ultimately better outcomes,” said Ms. Brendzel.

4. Portable Ultrasound

Within the next 2 years, portable ultrasound — pocket-sized devices that connect to a smartphone or tablet — will become the “21st-century stethoscope,” said Abhilash Hareendranathan, PhD, assistant professor in the Department of Radiology and Diagnostic Imaging at the University of Alberta, in Edmonton, Alberta, Canada.

AI can make these devices easy to use, allowing clinicians with minimal imaging training to capture clear images and understand the results. Dr. Hareendranathan developed the Ultrasound Arm Injury Detection tool, a portable ultrasound that uses AI to detect fracture.

“We plan to introduce this technology in emergency departments, where it could be used by triage nurses to perform quick examinations to detect fractures of the wrist, elbow, or shoulder,” he said.

More pocket-sized scanners like these could “reshape the way diagnostic care is provided in rural and remote communities,” Dr. Hareendranathan said, and will “reduce wait times in crowded emergency departments.” Bill Gates believes enough in portable ultrasound that last September, the Bill & Melinda Gates Foundation granted $44 million to GE HealthCare to develop the technology for under-resourced communities.

5. Virtual Reality (VR)

When RelieVRx became the first US Food and Drug Administration (FDA)–approved VR therapy for chronic back pain in 2021, the technology was used in just a handful of Veterans Affairs (VA) facilities. But today, thousands of VR headsets have been deployed to more than 160 VA medical centers and clinics across the country.

“The VR experiences encompass pain neuroscience education, mindfulness, pleasant and relaxing distraction, and key skills to calm the nervous system,” said Beth Darnall, PhD, director of the Stanford Pain Relief Innovations Lab, who helped design the RelieVRx. She expects VR to go mainstream soon, not just because of increasing evidence that it works but also thanks to the Centers for Medicare & Medicaid Services, which recently issued a Healthcare Common Procedure Coding System code for VR. “This billing infrastructure will encourage adoption and uptake,” she said.

Hundreds of hospitals across the United States have already adopted the technology, for everything from childbirth pain to wound debridement, said Josh Sackman, the president and cofounder of AppliedVR, the company that developed RelieVRx.

“Over the next few years, we may see hundreds more deploy unique applications [for VR] that can handle multiple clinical indications,” he said. “Given the modality’s ability to scale and reduce reliance on pharmacological interventions, it has the power to improve the cost and quality of care.”

Hospital systems like Geisinger and Cedars-Sinai are already finding unique ways to implement the technology, he said, like using VR to reduce “scanxiety” during imaging service.

Other VR innovations are already being introduced, from the Smileyscope, a VR device for children that’s been proven to lessen the pain of a blood draw or intravenous insertion (it was cleared by the FDA last November) to several VR platforms launched by Cedars-Sinai in recent months, for applications that range from gastrointestinal issues to mental health therapy. “There may already be a thousand hospitals using VR in some capacity,” said Brennan Spiegel, MD, director of Health Services Research at Cedars-Sinai.

A version of this article appeared on Medscape.com.

Medical innovations don’t happen overnight — but in today’s digital world, they happen pretty fast. Some are advancing faster than you think.

We’re not talking theory or hoped-for breakthroughs in the next decade. These technologies are already a reality for many doctors and expected to grow rapidly in the next 1-3 years.

Are you ready? Let’s find out.

1. Artificial Intelligence (AI) Medical Scribes

You may already be using this or, at the very least, have heard about it.

Physician burnout is a growing problem, with many doctors spending 2 hours on paperwork for every hour with patients. But some doctors, such as Gregory Ator, MD, chief medical informatics officer at the University of Kansas Medical Center, Kansas City, Kansas, have found a better way.

“I have been using it for 9 months now, and it truly is a life changer,” Dr. Ator said of Abridge, an AI helper that transcribes and summarizes his conversations with patients. “Now, I go into the room, place my phone just about anywhere, and I can just listen.” He estimated that the tech saves him between 3 and 10 minutes per patient. “At 20 patients a day, that saves me around 2 hours,” he said.

Bonus: Patients “get a doctor’s full attention instead of just looking at the top of his head while they play with the computer,” Dr. Ator said. “I have yet to have a patient who didn’t think that was a positive thing.”

Several companies are already selling these AI devices, including Ambience Healthcare, Augmedix, Nuance, and Suki, and they offer more than just transcriptions, said John D. Halamka, MD, president of Mayo Clinic Platform, who oversees Mayo’s adoption of AI. They also generate notes for treatment and billing and update data in the electronic health record.

“It’s preparation of documentation based on ambient listening of doctor-patient conversations,” Dr. Halamka explained. “I’m very optimistic about the use of emerging AI technologies to enable every clinician to practice at the top of their license.”

Patricia Garcia, MD, associate clinical information officer for ambulatory care at Stanford Health Care, has spent much of the last year co-running the medical center’s pilot program for AI scribes, and she’s so impressed with the technology that she “expects it’ll become more widely available as an option for any clinician that wants to use it in the next 12-18 months.”

2. Three-Dimensional (3D) Printing

Although 3D-printed organs may not happen anytime soon, the future is here for some 3D-printed prosthetics and implants — everything from dentures to spinal implants to prosthetic fingers and noses.

“In the next few years, I see rapid growth in the use of 3D printing technology across orthopedic surgery,” said Rishin J. Kadakia, MD, an orthopedic surgeon in Atlanta. “It’s becoming more common not just at large academic institutions. More and more providers will turn to using 3D printing technology to help tackle challenging cases that previously did not have good solutions.”

Dr. Kadakia has experienced this firsthand with his patients at the Emory Orthopaedics & Spine Center. One female patient developed talar avascular necrosis due to a bone break she’d sustained in a serious car crash. An ankle and subtalar joint fusion would repair the damage but limit her mobility and change her gait. So instead, in August of 2021, Dr. Kadakia and fellow orthopedic surgeon Jason Bariteau, MD, created for her a 3D-printed cobalt chrome talus implant.

“It provided an opportunity for her to keep her ankle’s range of motion, and also mobilize faster than with a subtalar and ankle joint fusion,” said Dr. Kadakia.

The technology is also playing a role in customized medical devices — patient-specific tools for greater precision — and 3D-printed anatomical models, built to the exact specifications of individual patients. Mayo Clinic already has 3D modeling units in three states, and other hospitals are following suit. The models not only help doctors prepare for complicated surgeries but also can dramatically cut down on costs. A 2021 study from Durham University reported that 3D models helped reduce surgery time by between 1.5 and 2.5 hours in lengthy procedures.

3. Drones

For patients who can’t make it to a pharmacy to pick up their prescriptions, either because of distance or lack of transportation, drones — which can deliver medications onto a customer’s back yard or front porch — offer a compelling solution.

Several companies and hospitals are already experimenting with drones, like WellSpan Health in Pennsylvania, Amazon Pharmacy, and the Cleveland Clinic, which announced a partnership with drone delivery company Zipline and plans to begin prescription deliveries across Northeast Ohio by 2025.

Healthcare systems are just beginning to explore the potential of drone deliveries, for everything from lab samples to medical and surgical supplies — even defibrillators that could arrive at an ailing patient’s front door before an emergency medical technician arrives.

“For many providers, when you take a sample from a patient, that sample waits around for hours until a courier picks up all of the facility’s samples and drives them to an outside facility for processing,” said Hillary Brendzel, head of Zipline’s US Healthcare Practice.

According to a 2022 survey from American Nurse Journal, 71% of nurses said that medical courier delays and errors negatively affected their ability to provide patient care. But with drone delivery, “lab samples can be sent for processing immediately, on-demand, resulting in faster diagnosis, treatment, and ultimately better outcomes,” said Ms. Brendzel.

4. Portable Ultrasound

Within the next 2 years, portable ultrasound — pocket-sized devices that connect to a smartphone or tablet — will become the “21st-century stethoscope,” said Abhilash Hareendranathan, PhD, assistant professor in the Department of Radiology and Diagnostic Imaging at the University of Alberta, in Edmonton, Alberta, Canada.

AI can make these devices easy to use, allowing clinicians with minimal imaging training to capture clear images and understand the results. Dr. Hareendranathan developed the Ultrasound Arm Injury Detection tool, a portable ultrasound that uses AI to detect fracture.

“We plan to introduce this technology in emergency departments, where it could be used by triage nurses to perform quick examinations to detect fractures of the wrist, elbow, or shoulder,” he said.

More pocket-sized scanners like these could “reshape the way diagnostic care is provided in rural and remote communities,” Dr. Hareendranathan said, and will “reduce wait times in crowded emergency departments.” Bill Gates believes enough in portable ultrasound that last September, the Bill & Melinda Gates Foundation granted $44 million to GE HealthCare to develop the technology for under-resourced communities.

5. Virtual Reality (VR)

When RelieVRx became the first US Food and Drug Administration (FDA)–approved VR therapy for chronic back pain in 2021, the technology was used in just a handful of Veterans Affairs (VA) facilities. But today, thousands of VR headsets have been deployed to more than 160 VA medical centers and clinics across the country.

“The VR experiences encompass pain neuroscience education, mindfulness, pleasant and relaxing distraction, and key skills to calm the nervous system,” said Beth Darnall, PhD, director of the Stanford Pain Relief Innovations Lab, who helped design the RelieVRx. She expects VR to go mainstream soon, not just because of increasing evidence that it works but also thanks to the Centers for Medicare & Medicaid Services, which recently issued a Healthcare Common Procedure Coding System code for VR. “This billing infrastructure will encourage adoption and uptake,” she said.

Hundreds of hospitals across the United States have already adopted the technology, for everything from childbirth pain to wound debridement, said Josh Sackman, the president and cofounder of AppliedVR, the company that developed RelieVRx.

“Over the next few years, we may see hundreds more deploy unique applications [for VR] that can handle multiple clinical indications,” he said. “Given the modality’s ability to scale and reduce reliance on pharmacological interventions, it has the power to improve the cost and quality of care.”

Hospital systems like Geisinger and Cedars-Sinai are already finding unique ways to implement the technology, he said, like using VR to reduce “scanxiety” during imaging service.

Other VR innovations are already being introduced, from the Smileyscope, a VR device for children that’s been proven to lessen the pain of a blood draw or intravenous insertion (it was cleared by the FDA last November) to several VR platforms launched by Cedars-Sinai in recent months, for applications that range from gastrointestinal issues to mental health therapy. “There may already be a thousand hospitals using VR in some capacity,” said Brennan Spiegel, MD, director of Health Services Research at Cedars-Sinai.

A version of this article appeared on Medscape.com.

LIVERPOOL, ENGLAND — People with rheumatoid arthritis (RA) have a consistently higher risk for venous thromboembolism (VTE) than the general population, but the reasons for this remain unclear, research presented at the annual meeting of the British Society for Rheumatology (BSR) reaffirmed.

Regardless of age, sex, body mass index (BMI), duration of disease, use of estrogen-based oral contraceptives, or hormone replacement therapy (HRT), people with RA are more likely to experience a pulmonary embolism or deep vein thrombosis than those without RA.

However, “these are rare events,” James Galloway, MBChB, PhD, professor of rheumatology and deputy head of the Centre for Rheumatic Diseases at King’s College London in England, said at the meeting.

In one analysis of data from 117,050 individuals living in England and Wales that are held within a large primary care practice database, Dr. Galloway and colleagues found that the unadjusted incidence of VTE in people diagnosed with RA (n = 23,410) was 0.44% vs 0.26% for matched controls within the general population (n = 93,640).
 

RA and VTE Risk

The overall risk for VTE was 46% higher among people with RA than among those without, although the absolute difference was small, Dr. Galloway reported.

“RA is associated with an increased risk of VTE; that’s been well described over the years,” Dr. Galloway told this news organization. Past research into why there is an elevated risk for VTE in patients with RA has often focused on the role of disease activity and inflammation.

“In the last few years, a new class of drugs, the JAK [Janus kinase] inhibitors, have emerged in which we have seen a signal of increased VTE risk from a number of studies. And I think that puts a spotlight on our understanding of VTE risk,” Dr. Galloway said.

He added “JAK inhibitors are very powerful at controlling inflammation, but if you take away inflammation, there is still an excess risk. What else could be driving that?”

To examine the excess risk for VTE seen in people with RA, Dr. Galloway and colleagues performed three separate analyses using data collected between January 1999 and December 2018 by the Royal College of General Practitioners Research and Surveillance Center.

One analysis looked at VTE risk according to age, sex, and BMI; another looked at the effect of the duration of RA; and a third analysis focused on the use of estrogen-based oral contraceptives or HRT.

For all three analyses, those with RA were matched in a 4:1 ratio to people from the general population without RA on the basis of current age, sex, calendar time, and years since registration at the primary care practice.
 

Observational Data Challenged

“These are observational data, so it’s important to weigh up the strengths and limitations,” Dr. Galloway acknowledged. Strengths are the large sample size and long follow-up provided by the database, which assesses and monitors more than 2000 primary care practices in England and Wales.

Confounding is still possible, despite adjusting for multiple factors that included sociodemographic factors; clinical features; and VTE risk factors such as smoking status, alcohol use, thrombophilia, reduced mobility, lower limb fracture, and a family history of VTE if data had been available. There wasn’t information on disease activity, for example, and disease duration was used as a surrogate marker for this.

Sitting in the audience, Marwan Bukhari, MBBS, PhD, challenged the population-matching process.

“Do you think maybe it was the matching that was the problem?” asked Dr. Bukhari, who is consultant rheumatologist at University Hospitals of Morecambe Bay NHS Foundation Trust and an honorary senior lecturer at the University of Manchester, both in England.

“They’re not entirely matched completely, correctly. Even if it is 4:1, there’s a difference between the populations,” he said.
 

Age, Sex, and Bodyweight

Over an average of 8.2 years’ follow-up, the adjusted hazard ratios (aHRs) comparing VTE risk in women and men with and without RA were a respective 1.62 and 1.52. The corresponding aHRs for VTE according to different age groups were 2.13 for age 18-49 years, 1.57 for age 50-69 years, and 1.34 for age 70 years and older.

“The highest excess risk was in the youngest age group,” Dr. Galloway pointed out, “but all age groups showing a significant increased risk of venous thromboembolism.”

Similar findings were seen across different BMI categories, with the highest risk occurring in those in the lowest BMI group. The aHRs were 1.66, 1.60, and 1.41 for the BMI categories of less than 25 kg/m2, 25-30 kg/m2, and more than 30 kg/m2, respectively.
 

Duration of RA

As for disease duration, nearly two thirds (63.9%) of the 23,410 adults with RA included in this analysis were included at or within 2 years of a diagnosis of RA, 7.8% within 2-5 years of diagnosis, 9.8% within 5-10 years of diagnosis, and 18.5% at 10 or more years after diagnosis.

The aHR for an increased relative risk for VTE in people with RA vs the control group ranged from 1.49 for 0-2 years of diagnosis up to 1.63 for more than 10 years since diagnosis.

“We could see no evidence that the VTE excess risk in rheumatoid arthritis was with a specific time since diagnosis,” Dr. Galloway said in the interview. “It appears that the risk is increased in people with established RA, whether you’ve had the disease for 2 years or 10 years.”

Similar findings were also seen when they looked at aHRs for pulmonary embolism (1.46-2.02) and deep vein thrombosis (1.43-1.89) separately.
 

Oral Contraceptives and HRT

Data on the use of estrogen-based oral contraceptives or HRT were detailed in a virtual poster presentation. In this analysis, there were 16,664 women with and 65,448 without RA, and the average follow-up was 8.3 years.

“The number of people available for this analysis was small, and bigger studies are needed,” Dr. Galloway said in the interview. Indeed, in the RA group, just 3.3% had used an estrogen-based oral contraceptive and 4.5% had used HRT compared with 3.9% and 3.8% in the control group, respectively.

The overall VTE risk was 52% higher in women with RA than in those without RA.

Risk for VTE was higher among women with RA regardless of the use of estrogen-based oral contraceptives or not (aHRs, 1.43 and 1.52, respectively) and regardless of the use of HRT or not (aHRs, 2.32 and 1.51).
 

Assess and Monitor

Together these data increase understanding of how age, gender, obesity, duration of disease, and estrogen-based contraception and HRT may make a difference to someone’s VTE risk.

“In all people with RA, we observe an increased risk of venous thromboembolism, and that is both relevant in a contemporary era when we think about prescribing and the different risks of drugs we use for therapeutic strategies,” Dr. Galloway said.

The overall take-home message, he said, is that VTE risk should be considered in everyone with RA and assessed and monitored accordingly. This includes those who may have traditionally been thought of as having a lower risk than others, such as men vs women, younger vs older individuals, and those who may have had RA for a few years.

The research was funded by Pfizer. Dr. Galloway reported receiving honoraria from Pfizer, AbbVie, Biovitrum, Bristol Myers Squibb, Celgene, Chugai, Galapagos, Janssen, Lilly, Novartis, Roche, Sanofi, Sobi, and UCB. Two coauthors of the work were employees of Pfizer. Dr. Bukhari had no conflicts of interest and was not involved in the research.

A version of this article appeared on Medscape.com.

LIVERPOOL, ENGLAND — People with rheumatoid arthritis (RA) have a consistently higher risk for venous thromboembolism (VTE) than the general population, but the reasons for this remain unclear, research presented at the annual meeting of the British Society for Rheumatology (BSR) reaffirmed.

Regardless of age, sex, body mass index (BMI), duration of disease, use of estrogen-based oral contraceptives, or hormone replacement therapy (HRT), people with RA are more likely to experience a pulmonary embolism or deep vein thrombosis than those without RA.

However, “these are rare events,” James Galloway, MBChB, PhD, professor of rheumatology and deputy head of the Centre for Rheumatic Diseases at King’s College London in England, said at the meeting.

In one analysis of data from 117,050 individuals living in England and Wales that are held within a large primary care practice database, Dr. Galloway and colleagues found that the unadjusted incidence of VTE in people diagnosed with RA (n = 23,410) was 0.44% vs 0.26% for matched controls within the general population (n = 93,640).
 

RA and VTE Risk

The overall risk for VTE was 46% higher among people with RA than among those without, although the absolute difference was small, Dr. Galloway reported.

“RA is associated with an increased risk of VTE; that’s been well described over the years,” Dr. Galloway told this news organization. Past research into why there is an elevated risk for VTE in patients with RA has often focused on the role of disease activity and inflammation.

“In the last few years, a new class of drugs, the JAK [Janus kinase] inhibitors, have emerged in which we have seen a signal of increased VTE risk from a number of studies. And I think that puts a spotlight on our understanding of VTE risk,” Dr. Galloway said.

He added “JAK inhibitors are very powerful at controlling inflammation, but if you take away inflammation, there is still an excess risk. What else could be driving that?”

To examine the excess risk for VTE seen in people with RA, Dr. Galloway and colleagues performed three separate analyses using data collected between January 1999 and December 2018 by the Royal College of General Practitioners Research and Surveillance Center.

One analysis looked at VTE risk according to age, sex, and BMI; another looked at the effect of the duration of RA; and a third analysis focused on the use of estrogen-based oral contraceptives or HRT.

For all three analyses, those with RA were matched in a 4:1 ratio to people from the general population without RA on the basis of current age, sex, calendar time, and years since registration at the primary care practice.
 

Observational Data Challenged

“These are observational data, so it’s important to weigh up the strengths and limitations,” Dr. Galloway acknowledged. Strengths are the large sample size and long follow-up provided by the database, which assesses and monitors more than 2000 primary care practices in England and Wales.

Confounding is still possible, despite adjusting for multiple factors that included sociodemographic factors; clinical features; and VTE risk factors such as smoking status, alcohol use, thrombophilia, reduced mobility, lower limb fracture, and a family history of VTE if data had been available. There wasn’t information on disease activity, for example, and disease duration was used as a surrogate marker for this.

Sitting in the audience, Marwan Bukhari, MBBS, PhD, challenged the population-matching process.

“Do you think maybe it was the matching that was the problem?” asked Dr. Bukhari, who is consultant rheumatologist at University Hospitals of Morecambe Bay NHS Foundation Trust and an honorary senior lecturer at the University of Manchester, both in England.

“They’re not entirely matched completely, correctly. Even if it is 4:1, there’s a difference between the populations,” he said.
 

Age, Sex, and Bodyweight

Over an average of 8.2 years’ follow-up, the adjusted hazard ratios (aHRs) comparing VTE risk in women and men with and without RA were a respective 1.62 and 1.52. The corresponding aHRs for VTE according to different age groups were 2.13 for age 18-49 years, 1.57 for age 50-69 years, and 1.34 for age 70 years and older.

“The highest excess risk was in the youngest age group,” Dr. Galloway pointed out, “but all age groups showing a significant increased risk of venous thromboembolism.”

Similar findings were seen across different BMI categories, with the highest risk occurring in those in the lowest BMI group. The aHRs were 1.66, 1.60, and 1.41 for the BMI categories of less than 25 kg/m2, 25-30 kg/m2, and more than 30 kg/m2, respectively.
 

Duration of RA

As for disease duration, nearly two thirds (63.9%) of the 23,410 adults with RA included in this analysis were included at or within 2 years of a diagnosis of RA, 7.8% within 2-5 years of diagnosis, 9.8% within 5-10 years of diagnosis, and 18.5% at 10 or more years after diagnosis.

The aHR for an increased relative risk for VTE in people with RA vs the control group ranged from 1.49 for 0-2 years of diagnosis up to 1.63 for more than 10 years since diagnosis.

“We could see no evidence that the VTE excess risk in rheumatoid arthritis was with a specific time since diagnosis,” Dr. Galloway said in the interview. “It appears that the risk is increased in people with established RA, whether you’ve had the disease for 2 years or 10 years.”

Similar findings were also seen when they looked at aHRs for pulmonary embolism (1.46-2.02) and deep vein thrombosis (1.43-1.89) separately.
 

Oral Contraceptives and HRT

Data on the use of estrogen-based oral contraceptives or HRT were detailed in a virtual poster presentation. In this analysis, there were 16,664 women with and 65,448 without RA, and the average follow-up was 8.3 years.

“The number of people available for this analysis was small, and bigger studies are needed,” Dr. Galloway said in the interview. Indeed, in the RA group, just 3.3% had used an estrogen-based oral contraceptive and 4.5% had used HRT compared with 3.9% and 3.8% in the control group, respectively.

The overall VTE risk was 52% higher in women with RA than in those without RA.

Risk for VTE was higher among women with RA regardless of the use of estrogen-based oral contraceptives or not (aHRs, 1.43 and 1.52, respectively) and regardless of the use of HRT or not (aHRs, 2.32 and 1.51).
 

Assess and Monitor

Together these data increase understanding of how age, gender, obesity, duration of disease, and estrogen-based contraception and HRT may make a difference to someone’s VTE risk.

“In all people with RA, we observe an increased risk of venous thromboembolism, and that is both relevant in a contemporary era when we think about prescribing and the different risks of drugs we use for therapeutic strategies,” Dr. Galloway said.

The overall take-home message, he said, is that VTE risk should be considered in everyone with RA and assessed and monitored accordingly. This includes those who may have traditionally been thought of as having a lower risk than others, such as men vs women, younger vs older individuals, and those who may have had RA for a few years.

The research was funded by Pfizer. Dr. Galloway reported receiving honoraria from Pfizer, AbbVie, Biovitrum, Bristol Myers Squibb, Celgene, Chugai, Galapagos, Janssen, Lilly, Novartis, Roche, Sanofi, Sobi, and UCB. Two coauthors of the work were employees of Pfizer. Dr. Bukhari had no conflicts of interest and was not involved in the research.

A version of this article appeared on Medscape.com.

LIVERPOOL, ENGLAND — People with rheumatoid arthritis (RA) have a consistently higher risk for venous thromboembolism (VTE) than the general population, but the reasons for this remain unclear, research presented at the annual meeting of the British Society for Rheumatology (BSR) reaffirmed.

Regardless of age, sex, body mass index (BMI), duration of disease, use of estrogen-based oral contraceptives, or hormone replacement therapy (HRT), people with RA are more likely to experience a pulmonary embolism or deep vein thrombosis than those without RA.

However, “these are rare events,” James Galloway, MBChB, PhD, professor of rheumatology and deputy head of the Centre for Rheumatic Diseases at King’s College London in England, said at the meeting.

In one analysis of data from 117,050 individuals living in England and Wales that are held within a large primary care practice database, Dr. Galloway and colleagues found that the unadjusted incidence of VTE in people diagnosed with RA (n = 23,410) was 0.44% vs 0.26% for matched controls within the general population (n = 93,640).
 

RA and VTE Risk

The overall risk for VTE was 46% higher among people with RA than among those without, although the absolute difference was small, Dr. Galloway reported.

“RA is associated with an increased risk of VTE; that’s been well described over the years,” Dr. Galloway told this news organization. Past research into why there is an elevated risk for VTE in patients with RA has often focused on the role of disease activity and inflammation.

“In the last few years, a new class of drugs, the JAK [Janus kinase] inhibitors, have emerged in which we have seen a signal of increased VTE risk from a number of studies. And I think that puts a spotlight on our understanding of VTE risk,” Dr. Galloway said.

He added “JAK inhibitors are very powerful at controlling inflammation, but if you take away inflammation, there is still an excess risk. What else could be driving that?”

To examine the excess risk for VTE seen in people with RA, Dr. Galloway and colleagues performed three separate analyses using data collected between January 1999 and December 2018 by the Royal College of General Practitioners Research and Surveillance Center.

One analysis looked at VTE risk according to age, sex, and BMI; another looked at the effect of the duration of RA; and a third analysis focused on the use of estrogen-based oral contraceptives or HRT.

For all three analyses, those with RA were matched in a 4:1 ratio to people from the general population without RA on the basis of current age, sex, calendar time, and years since registration at the primary care practice.
 

Observational Data Challenged

“These are observational data, so it’s important to weigh up the strengths and limitations,” Dr. Galloway acknowledged. Strengths are the large sample size and long follow-up provided by the database, which assesses and monitors more than 2000 primary care practices in England and Wales.

Confounding is still possible, despite adjusting for multiple factors that included sociodemographic factors; clinical features; and VTE risk factors such as smoking status, alcohol use, thrombophilia, reduced mobility, lower limb fracture, and a family history of VTE if data had been available. There wasn’t information on disease activity, for example, and disease duration was used as a surrogate marker for this.

Sitting in the audience, Marwan Bukhari, MBBS, PhD, challenged the population-matching process.

“Do you think maybe it was the matching that was the problem?” asked Dr. Bukhari, who is consultant rheumatologist at University Hospitals of Morecambe Bay NHS Foundation Trust and an honorary senior lecturer at the University of Manchester, both in England.

“They’re not entirely matched completely, correctly. Even if it is 4:1, there’s a difference between the populations,” he said.
 

Age, Sex, and Bodyweight

Over an average of 8.2 years’ follow-up, the adjusted hazard ratios (aHRs) comparing VTE risk in women and men with and without RA were a respective 1.62 and 1.52. The corresponding aHRs for VTE according to different age groups were 2.13 for age 18-49 years, 1.57 for age 50-69 years, and 1.34 for age 70 years and older.

“The highest excess risk was in the youngest age group,” Dr. Galloway pointed out, “but all age groups showing a significant increased risk of venous thromboembolism.”

Similar findings were seen across different BMI categories, with the highest risk occurring in those in the lowest BMI group. The aHRs were 1.66, 1.60, and 1.41 for the BMI categories of less than 25 kg/m2, 25-30 kg/m2, and more than 30 kg/m2, respectively.
 

Duration of RA

As for disease duration, nearly two thirds (63.9%) of the 23,410 adults with RA included in this analysis were included at or within 2 years of a diagnosis of RA, 7.8% within 2-5 years of diagnosis, 9.8% within 5-10 years of diagnosis, and 18.5% at 10 or more years after diagnosis.

The aHR for an increased relative risk for VTE in people with RA vs the control group ranged from 1.49 for 0-2 years of diagnosis up to 1.63 for more than 10 years since diagnosis.

“We could see no evidence that the VTE excess risk in rheumatoid arthritis was with a specific time since diagnosis,” Dr. Galloway said in the interview. “It appears that the risk is increased in people with established RA, whether you’ve had the disease for 2 years or 10 years.”

Similar findings were also seen when they looked at aHRs for pulmonary embolism (1.46-2.02) and deep vein thrombosis (1.43-1.89) separately.
 

Oral Contraceptives and HRT

Data on the use of estrogen-based oral contraceptives or HRT were detailed in a virtual poster presentation. In this analysis, there were 16,664 women with and 65,448 without RA, and the average follow-up was 8.3 years.

“The number of people available for this analysis was small, and bigger studies are needed,” Dr. Galloway said in the interview. Indeed, in the RA group, just 3.3% had used an estrogen-based oral contraceptive and 4.5% had used HRT compared with 3.9% and 3.8% in the control group, respectively.

The overall VTE risk was 52% higher in women with RA than in those without RA.

Risk for VTE was higher among women with RA regardless of the use of estrogen-based oral contraceptives or not (aHRs, 1.43 and 1.52, respectively) and regardless of the use of HRT or not (aHRs, 2.32 and 1.51).
 

Assess and Monitor

Together these data increase understanding of how age, gender, obesity, duration of disease, and estrogen-based contraception and HRT may make a difference to someone’s VTE risk.

“In all people with RA, we observe an increased risk of venous thromboembolism, and that is both relevant in a contemporary era when we think about prescribing and the different risks of drugs we use for therapeutic strategies,” Dr. Galloway said.

The overall take-home message, he said, is that VTE risk should be considered in everyone with RA and assessed and monitored accordingly. This includes those who may have traditionally been thought of as having a lower risk than others, such as men vs women, younger vs older individuals, and those who may have had RA for a few years.

The research was funded by Pfizer. Dr. Galloway reported receiving honoraria from Pfizer, AbbVie, Biovitrum, Bristol Myers Squibb, Celgene, Chugai, Galapagos, Janssen, Lilly, Novartis, Roche, Sanofi, Sobi, and UCB. Two coauthors of the work were employees of Pfizer. Dr. Bukhari had no conflicts of interest and was not involved in the research.

A version of this article appeared on Medscape.com.

TOPLINE:

Metabolic dysfunction-associated steatotic liver disease (MASLD) co-occurring with HIV infection does not appear to increase the risk for cirrhosis or hepatocellular carcinoma (HCC) compared with MASLD alone. However, the incidence of major adverse cardiovascular events (MACE) is significantly increased among patients with MASLD and HIV, a large study suggested.

METHODOLOGY:

• MASLD is highly prevalent in people living with HIV, but the impact of HIV on liver and cardiovascular disease (CVD) outcomes in people with MASLD remains unclear.
• To investigate, researchers created a propensity score-matched cohort of veterans with noncirrhotic MASLD, with and without HIV (920 patients in each group).
• They evaluated the incidence of cirrhosis, HCC, and MACE, as well as overall survival, among the two groups. They also assessed these outcomes in MASLD patients with HIV on the basis of whether they were on antiretroviral therapy (ART).

TAKEAWAY:

• During a median follow-up of 10.4 years in the MASLD with HIV group and 11.8 years in the MASLD-only group, the overall incidence of cirrhosis and HCC was similar in MASLD with vs without HIV (cirrhosis: 0.97 vs 1.06 per 100 person-years, P = .54; HCC: 0.26 vs 0.17 per 100,000 person-years, P = .23), regardless of ART use.

• In contrast, the incidence of MACE was significantly higher in MASLD with vs without HIV (5.18 vs 4.48 per 100 person-years, P = .03). The incidence also was higher in patients with MASLD and HIV who were not on ART compared with those on ART (5.83 vs 4.7 per 100 person-years, P = .07).

• Compared with MASLD without HIV, the overall 5-year survival was significantly lower in MASLD with HIV (91.3% vs 85.7%). In MASLD with HIV, receipt of ART was associated with a significantly higher 5-year survival than no ART (87.4% vs 81.6%).

IN PRACTICE:

“Ensuring timely and appropriate initiation of HIV treatment is critical in patients with MASLD who have concurrent HIV infection, as well as optimizing metabolic comorbidities that may also contribute to increased risks of CVD and increased mortality,” the authors wrote.

SOURCE:

The study, led by Robert J. Wong, MD, Division of Gastroenterology and Hepatology, Stanford University School of Medicine, Palo Alto, California, was published online in the American Journal of Gastroenterology.

LIMITATIONS:

The study cohort consisted predominantly of older men, which may limit generalizability to women and younger populations. Metabolic comorbidities are more common in veterans compared with the general population, potentially affecting the generalizability of the CVD risk findings.

DISCLOSURES:

The study was supported by an investigator-initiated research grant from Theratechnologies. Wong has received funding for his institution from Gilead Sciences, Exact Sciences, and Durect Corporation and has served as a consultant for Gilead Sciences.
 

A version of this article appeared on Medscape.com.

TOPLINE:

Metabolic dysfunction-associated steatotic liver disease (MASLD) co-occurring with HIV infection does not appear to increase the risk for cirrhosis or hepatocellular carcinoma (HCC) compared with MASLD alone. However, the incidence of major adverse cardiovascular events (MACE) is significantly increased among patients with MASLD and HIV, a large study suggested.

METHODOLOGY:

• MASLD is highly prevalent in people living with HIV, but the impact of HIV on liver and cardiovascular disease (CVD) outcomes in people with MASLD remains unclear.
• To investigate, researchers created a propensity score-matched cohort of veterans with noncirrhotic MASLD, with and without HIV (920 patients in each group).
• They evaluated the incidence of cirrhosis, HCC, and MACE, as well as overall survival, among the two groups. They also assessed these outcomes in MASLD patients with HIV on the basis of whether they were on antiretroviral therapy (ART).

TAKEAWAY:

• During a median follow-up of 10.4 years in the MASLD with HIV group and 11.8 years in the MASLD-only group, the overall incidence of cirrhosis and HCC was similar in MASLD with vs without HIV (cirrhosis: 0.97 vs 1.06 per 100 person-years, P = .54; HCC: 0.26 vs 0.17 per 100,000 person-years, P = .23), regardless of ART use.

• In contrast, the incidence of MACE was significantly higher in MASLD with vs without HIV (5.18 vs 4.48 per 100 person-years, P = .03). The incidence also was higher in patients with MASLD and HIV who were not on ART compared with those on ART (5.83 vs 4.7 per 100 person-years, P = .07).

• Compared with MASLD without HIV, the overall 5-year survival was significantly lower in MASLD with HIV (91.3% vs 85.7%). In MASLD with HIV, receipt of ART was associated with a significantly higher 5-year survival than no ART (87.4% vs 81.6%).

IN PRACTICE:

“Ensuring timely and appropriate initiation of HIV treatment is critical in patients with MASLD who have concurrent HIV infection, as well as optimizing metabolic comorbidities that may also contribute to increased risks of CVD and increased mortality,” the authors wrote.

SOURCE:

The study, led by Robert J. Wong, MD, Division of Gastroenterology and Hepatology, Stanford University School of Medicine, Palo Alto, California, was published online in the American Journal of Gastroenterology.

LIMITATIONS:

The study cohort consisted predominantly of older men, which may limit generalizability to women and younger populations. Metabolic comorbidities are more common in veterans compared with the general population, potentially affecting the generalizability of the CVD risk findings.

DISCLOSURES:

The study was supported by an investigator-initiated research grant from Theratechnologies. Wong has received funding for his institution from Gilead Sciences, Exact Sciences, and Durect Corporation and has served as a consultant for Gilead Sciences.
 

A version of this article appeared on Medscape.com.

TOPLINE:

Metabolic dysfunction-associated steatotic liver disease (MASLD) co-occurring with HIV infection does not appear to increase the risk for cirrhosis or hepatocellular carcinoma (HCC) compared with MASLD alone. However, the incidence of major adverse cardiovascular events (MACE) is significantly increased among patients with MASLD and HIV, a large study suggested.

METHODOLOGY:

• MASLD is highly prevalent in people living with HIV, but the impact of HIV on liver and cardiovascular disease (CVD) outcomes in people with MASLD remains unclear.
• To investigate, researchers created a propensity score-matched cohort of veterans with noncirrhotic MASLD, with and without HIV (920 patients in each group).
• They evaluated the incidence of cirrhosis, HCC, and MACE, as well as overall survival, among the two groups. They also assessed these outcomes in MASLD patients with HIV on the basis of whether they were on antiretroviral therapy (ART).

TAKEAWAY:

• During a median follow-up of 10.4 years in the MASLD with HIV group and 11.8 years in the MASLD-only group, the overall incidence of cirrhosis and HCC was similar in MASLD with vs without HIV (cirrhosis: 0.97 vs 1.06 per 100 person-years, P = .54; HCC: 0.26 vs 0.17 per 100,000 person-years, P = .23), regardless of ART use.

• In contrast, the incidence of MACE was significantly higher in MASLD with vs without HIV (5.18 vs 4.48 per 100 person-years, P = .03). The incidence also was higher in patients with MASLD and HIV who were not on ART compared with those on ART (5.83 vs 4.7 per 100 person-years, P = .07).

• Compared with MASLD without HIV, the overall 5-year survival was significantly lower in MASLD with HIV (91.3% vs 85.7%). In MASLD with HIV, receipt of ART was associated with a significantly higher 5-year survival than no ART (87.4% vs 81.6%).

IN PRACTICE:

“Ensuring timely and appropriate initiation of HIV treatment is critical in patients with MASLD who have concurrent HIV infection, as well as optimizing metabolic comorbidities that may also contribute to increased risks of CVD and increased mortality,” the authors wrote.

SOURCE:

The study, led by Robert J. Wong, MD, Division of Gastroenterology and Hepatology, Stanford University School of Medicine, Palo Alto, California, was published online in the American Journal of Gastroenterology.

LIMITATIONS:

The study cohort consisted predominantly of older men, which may limit generalizability to women and younger populations. Metabolic comorbidities are more common in veterans compared with the general population, potentially affecting the generalizability of the CVD risk findings.

DISCLOSURES:

The study was supported by an investigator-initiated research grant from Theratechnologies. Wong has received funding for his institution from Gilead Sciences, Exact Sciences, and Durect Corporation and has served as a consultant for Gilead Sciences.
 

A version of this article appeared on Medscape.com.

When child psychiatrist Javeed Sukhera, MD, PhD, was a few years into his career, he found himself doing it all. “I was in a leadership role academically at the medical school, I had a leadership role at the hospital, and I was seeing as many patients as I could. I could work all day every day.”

“It still wouldn’t have been enough,” he said.

Whenever there was a shift available, Dr. Sukhera would take it. His job was stressful, but as a new physician with a young family, he saw this obsession with work as necessary. “I began to cope with the stress from work by doing extra work and feeling like I needed to be everywhere. It was like I became a hamster on a spinning wheel. I was just running, running, running.”

Things shifted for Dr. Sukhera when he realized that while he was emotionally available for the children who were his patients, at home, his own children weren’t getting the best of him. “There was a specific moment when I thought my son was afraid of me,” he said. “I just stopped and realized that there was something happening that I needed to break. I needed to make a change.”

Dr. Sukhera, now chair of psychiatry at the Institute of Living and chief of the Department of Psychiatry at Hartford Hospital, Hartford, Connecticut, believes what he experienced was a steep fall into work addiction. “Workaholism,” often dismissed as simply working hard, is a nonclinical addiction that could fall under the umbrella of a behavioral addiction, and healthcare professionals may be especially at risk.
 

What Does Work Addiction Look Like for Doctors?

Behavioral addictions are fairly new in the addiction space. When gambling disorder, the first and only behavioral addiction in the Diagnostic and Statistical Manual of Mental Disorders, Fifth Edition, was added in 2013, it was seen as a “breakthrough addiction,” said Mark D. Griffiths, PhD, a leading behavioral addiction researcher and a distinguished professor at Nottingham Trent University.

Because there is not enough evidence yet to classify work addiction as a formal diagnosis, there is no clear consensus on how to define it. To further complicate things, the terms “workaholism” and “work addiction” can be used interchangeably, and some experts say the two are not the same, though they can overlap.

That said, a 2018 review of literature from several countries found that work addiction “fits very well into recently postulated criteria for conceptualization of a behavioral addiction.

“If you accept that gambling can be genuinely addictive, then there’s no reason to think that something like work, exercise, or video game playing couldn’t be an addiction as well,” said Dr. Griffiths.

“The neurobiology of addiction is that we get drawn to something that gives us a dopamine hit,” Dr. Sukhera added. “But to do that all day, every day, has consequences. It drains our emotional reserves, and it can greatly impact our relationships.”

On top of that, work addiction has been linked with poor sleep, poor cardiovascular health, high blood pressure, burnout, the development of autoimmune disorders, and other health issues.

Physicians are particularly susceptible. Doctors, after all, are expected to work long hours and put their patients’ needs first, even at the expense of their own health and well-being.

“Workaholism is not just socially acceptable in medicine,” said Dr. Sukhera. “It’s baked into the system and built into the structures. The healthcare system has largely functioned on the emotional labor of health workers, whose tendency to show up and work harder can, at times, in certain organizations, be exploited.”

Dr. Griffiths agreed that with the limited amount of data available, work addiction does appear to exist at higher rates in medicine than in other fields. As early as the 1970s, medical literature describes work as a “socially acceptable” addiction among doctors. A 2014 study published in Occupational Medicine reported that of 445 physicians who took part in the research, nearly half exhibited some level of work addiction with 13% “highly work addicted.”

Of course, working hard or even meeting unreasonable demands from work is not the same as work addiction, as Dr. Griffiths clarified in a 2023 editorial in BMJ Quality & Safety. The difference, as with other behavioral addictions, is when people obsess about work and use it to cope with stress. It can be easier to stay distracted and busy to gain a sense of control rather than learning to deal with complex emotions.

A 2021 study that Dr. Sukhera conducted with resident physicians found that working harder was one of the main ways they dealt with stress during the COVID-19 pandemic. “This idea that we deal with the stress of being burnt out by doing more and more of what burns us out is fairly ubiquitous at all stages of medical professionals’ careers,” he said.

Financial incentives also can fuel work addiction, said Dr. Sukhera. In residency, there are some safeguards around overwork and duty hours. When you become an attending, those limits no longer exist. As a young physician, Dr. Sukhera had student debt to pay off and a family to support. When he found opportunities to earn more by working more, his answer was always “yes.”

Pressure to produce medical research also can pose issues. Some physicians can become addicted to publishing studies, fearing that they might lose their professional status or position if they stop. It’s a cycle that can force a doctor to not only work long hours doing their job but also practically take on a second one.
 

How Physicians Can Recognize Work Addiction in Themselves

Work addiction can look and feel different for every person, said Malissa Clark, PhD, associate professor at the University of Georgia and author of the recent book Never Not Working: Why the Always-On Culture Is Bad for Business—and How to Fix It.

Dr. Clark noted that people who are highly engaged in their work tend to be driven by intrinsic motivation: “You work because you love it.” With work addiction, “you work because you feel like you ought to be working all the time.”

Of course, it’s not always so cut and dried; you can experience both forms of motivation and not necessarily become addicted to work. But if you are solely driven by the feeling that you ought to be working all the time, that can be a red flag.

Dr. Griffiths said that while many people may have problematic work habits or work too much, true work addicts must meet six criteria that apply to all addictions:

1. Salience: Work is the single most important thing in your life, to the point of neglecting everything else. Even if you’re on vacation, your mind might be flooded with work thoughts.

2. Mood modification: You use work to modify your mood, either to get a “high” or to cope with stress.

3. Tolerance: Over time, you’ve gone from working 8 or 10 hours a day to 12 hours a day, to a point where you’re working all the time.

4. Withdrawal: On a physiological level, you will have symptoms such as anxiety, nausea, or headaches when unable to work.

5. Conflict: You feel conflicted with yourself (you know you’re working too much) or with others (partners, friends, and children) about work, but you can’t stop.

6. Relapse: If you manage to cut down your hours but can’t resist overworking 1 day, you wind up right back where you were.
 

When It’s Time to Address Work Addiction

The lack of a formal diagnosis for work addiction makes getting treatment difficult. But there are ways to seek help. Unlike the drug and alcohol literature, abstinence is not the goal. “The therapeutic goal is getting a behavior under control and looking for the triggers of why you’re compulsively working,” said Dr. Griffiths.

Practice self-compassion

Dr. Sukhera eventually realized that his work addiction stemmed from the fear of being somehow excluded or unworthy. He actively corrected much of this through self-compassion and self-kindness, which helped him set boundaries. “Self-compassion is the root of everything,” he said. “Reminding ourselves that we’re doing our best is an important ingredient in breaking the cycle.”

Slowly expose yourself to relaxation

Many workaholics find rest very difficult. “When I conducted interviews with people [who considered themselves workaholics], a very common thing I heard was, ‘I have a very hard time being idle,’ ” said Dr. Clark. If rest feels hard, Dr. Sukhera suggests practicing relaxation for 2 minutes to start. Even small periods of downtime can challenge the belief that you must be constantly productive.

Reframe your to-do list 

For work addicts, to-do lists can seem like they must be finished, which prolongs work hours. Instead, use to-do lists to help prioritize what is urgent, identify what can wait, and delegate out tasks to others, Dr. Clark recommends.

Pick up a mastery experience

Research from professor Sabine Sonnentag, Dr. rer. nat., at the University of Mannheim, Mannheim, Germany, suggests that mastery experiences — leisure activities that require thought and focus like learning a new language or taking a woodworking class — can help you actively disengage from work.

Try cognitive behavioral therapy

Widely used for other forms of addiction, cognitive behavioral therapy centers around recognizing emotions, challenging thought patterns, and changing behaviors. However, Dr. Clark admits the research on its impact on work addiction, in particular, is “pretty nascent.”

Shift your mindset

It seems logical to think that detaching from your feelings will allow you to “do more,” but experts say that idea is both untrue and dangerous. “The safest hospitals are the hospitals where people are attuned to their humanness,” said Dr. Sukhera. “It’s normal to overwork in medicine, and if you’re challenging a norm, you really have to be thoughtful about how you frame that for yourself.”

Most importantly: Seek support

Today, there is increased awareness about work addiction and more resources for physicians who are struggling, including programs such as Workaholics Anonymous or Physicians Anonymous and workplace wellness initiatives. But try not to overwhelm yourself with choosing whom to talk to or what specific resource to utilize, Dr. Sukhera advised. “Just talk to someone about it. You don’t have to carry this on your own.”
 

A version of this article appeared on Medscape.com.

When child psychiatrist Javeed Sukhera, MD, PhD, was a few years into his career, he found himself doing it all. “I was in a leadership role academically at the medical school, I had a leadership role at the hospital, and I was seeing as many patients as I could. I could work all day every day.”

“It still wouldn’t have been enough,” he said.

Whenever there was a shift available, Dr. Sukhera would take it. His job was stressful, but as a new physician with a young family, he saw this obsession with work as necessary. “I began to cope with the stress from work by doing extra work and feeling like I needed to be everywhere. It was like I became a hamster on a spinning wheel. I was just running, running, running.”

Things shifted for Dr. Sukhera when he realized that while he was emotionally available for the children who were his patients, at home, his own children weren’t getting the best of him. “There was a specific moment when I thought my son was afraid of me,” he said. “I just stopped and realized that there was something happening that I needed to break. I needed to make a change.”

Dr. Sukhera, now chair of psychiatry at the Institute of Living and chief of the Department of Psychiatry at Hartford Hospital, Hartford, Connecticut, believes what he experienced was a steep fall into work addiction. “Workaholism,” often dismissed as simply working hard, is a nonclinical addiction that could fall under the umbrella of a behavioral addiction, and healthcare professionals may be especially at risk.
 

What Does Work Addiction Look Like for Doctors?

Behavioral addictions are fairly new in the addiction space. When gambling disorder, the first and only behavioral addiction in the Diagnostic and Statistical Manual of Mental Disorders, Fifth Edition, was added in 2013, it was seen as a “breakthrough addiction,” said Mark D. Griffiths, PhD, a leading behavioral addiction researcher and a distinguished professor at Nottingham Trent University.

Because there is not enough evidence yet to classify work addiction as a formal diagnosis, there is no clear consensus on how to define it. To further complicate things, the terms “workaholism” and “work addiction” can be used interchangeably, and some experts say the two are not the same, though they can overlap.

That said, a 2018 review of literature from several countries found that work addiction “fits very well into recently postulated criteria for conceptualization of a behavioral addiction.

“If you accept that gambling can be genuinely addictive, then there’s no reason to think that something like work, exercise, or video game playing couldn’t be an addiction as well,” said Dr. Griffiths.

“The neurobiology of addiction is that we get drawn to something that gives us a dopamine hit,” Dr. Sukhera added. “But to do that all day, every day, has consequences. It drains our emotional reserves, and it can greatly impact our relationships.”

On top of that, work addiction has been linked with poor sleep, poor cardiovascular health, high blood pressure, burnout, the development of autoimmune disorders, and other health issues.

Physicians are particularly susceptible. Doctors, after all, are expected to work long hours and put their patients’ needs first, even at the expense of their own health and well-being.

“Workaholism is not just socially acceptable in medicine,” said Dr. Sukhera. “It’s baked into the system and built into the structures. The healthcare system has largely functioned on the emotional labor of health workers, whose tendency to show up and work harder can, at times, in certain organizations, be exploited.”

Dr. Griffiths agreed that with the limited amount of data available, work addiction does appear to exist at higher rates in medicine than in other fields. As early as the 1970s, medical literature describes work as a “socially acceptable” addiction among doctors. A 2014 study published in Occupational Medicine reported that of 445 physicians who took part in the research, nearly half exhibited some level of work addiction with 13% “highly work addicted.”

Of course, working hard or even meeting unreasonable demands from work is not the same as work addiction, as Dr. Griffiths clarified in a 2023 editorial in BMJ Quality & Safety. The difference, as with other behavioral addictions, is when people obsess about work and use it to cope with stress. It can be easier to stay distracted and busy to gain a sense of control rather than learning to deal with complex emotions.

A 2021 study that Dr. Sukhera conducted with resident physicians found that working harder was one of the main ways they dealt with stress during the COVID-19 pandemic. “This idea that we deal with the stress of being burnt out by doing more and more of what burns us out is fairly ubiquitous at all stages of medical professionals’ careers,” he said.

Financial incentives also can fuel work addiction, said Dr. Sukhera. In residency, there are some safeguards around overwork and duty hours. When you become an attending, those limits no longer exist. As a young physician, Dr. Sukhera had student debt to pay off and a family to support. When he found opportunities to earn more by working more, his answer was always “yes.”

Pressure to produce medical research also can pose issues. Some physicians can become addicted to publishing studies, fearing that they might lose their professional status or position if they stop. It’s a cycle that can force a doctor to not only work long hours doing their job but also practically take on a second one.
 

How Physicians Can Recognize Work Addiction in Themselves

Work addiction can look and feel different for every person, said Malissa Clark, PhD, associate professor at the University of Georgia and author of the recent book Never Not Working: Why the Always-On Culture Is Bad for Business—and How to Fix It.

Dr. Clark noted that people who are highly engaged in their work tend to be driven by intrinsic motivation: “You work because you love it.” With work addiction, “you work because you feel like you ought to be working all the time.”

Of course, it’s not always so cut and dried; you can experience both forms of motivation and not necessarily become addicted to work. But if you are solely driven by the feeling that you ought to be working all the time, that can be a red flag.

Dr. Griffiths said that while many people may have problematic work habits or work too much, true work addicts must meet six criteria that apply to all addictions:

1. Salience: Work is the single most important thing in your life, to the point of neglecting everything else. Even if you’re on vacation, your mind might be flooded with work thoughts.

2. Mood modification: You use work to modify your mood, either to get a “high” or to cope with stress.

3. Tolerance: Over time, you’ve gone from working 8 or 10 hours a day to 12 hours a day, to a point where you’re working all the time.

4. Withdrawal: On a physiological level, you will have symptoms such as anxiety, nausea, or headaches when unable to work.

5. Conflict: You feel conflicted with yourself (you know you’re working too much) or with others (partners, friends, and children) about work, but you can’t stop.

6. Relapse: If you manage to cut down your hours but can’t resist overworking 1 day, you wind up right back where you were.
 

When It’s Time to Address Work Addiction

The lack of a formal diagnosis for work addiction makes getting treatment difficult. But there are ways to seek help. Unlike the drug and alcohol literature, abstinence is not the goal. “The therapeutic goal is getting a behavior under control and looking for the triggers of why you’re compulsively working,” said Dr. Griffiths.

Practice self-compassion

Dr. Sukhera eventually realized that his work addiction stemmed from the fear of being somehow excluded or unworthy. He actively corrected much of this through self-compassion and self-kindness, which helped him set boundaries. “Self-compassion is the root of everything,” he said. “Reminding ourselves that we’re doing our best is an important ingredient in breaking the cycle.”

Slowly expose yourself to relaxation

Many workaholics find rest very difficult. “When I conducted interviews with people [who considered themselves workaholics], a very common thing I heard was, ‘I have a very hard time being idle,’ ” said Dr. Clark. If rest feels hard, Dr. Sukhera suggests practicing relaxation for 2 minutes to start. Even small periods of downtime can challenge the belief that you must be constantly productive.

Reframe your to-do list 

For work addicts, to-do lists can seem like they must be finished, which prolongs work hours. Instead, use to-do lists to help prioritize what is urgent, identify what can wait, and delegate out tasks to others, Dr. Clark recommends.

Pick up a mastery experience

Research from professor Sabine Sonnentag, Dr. rer. nat., at the University of Mannheim, Mannheim, Germany, suggests that mastery experiences — leisure activities that require thought and focus like learning a new language or taking a woodworking class — can help you actively disengage from work.

Try cognitive behavioral therapy

Widely used for other forms of addiction, cognitive behavioral therapy centers around recognizing emotions, challenging thought patterns, and changing behaviors. However, Dr. Clark admits the research on its impact on work addiction, in particular, is “pretty nascent.”

Shift your mindset

It seems logical to think that detaching from your feelings will allow you to “do more,” but experts say that idea is both untrue and dangerous. “The safest hospitals are the hospitals where people are attuned to their humanness,” said Dr. Sukhera. “It’s normal to overwork in medicine, and if you’re challenging a norm, you really have to be thoughtful about how you frame that for yourself.”

Most importantly: Seek support

Today, there is increased awareness about work addiction and more resources for physicians who are struggling, including programs such as Workaholics Anonymous or Physicians Anonymous and workplace wellness initiatives. But try not to overwhelm yourself with choosing whom to talk to or what specific resource to utilize, Dr. Sukhera advised. “Just talk to someone about it. You don’t have to carry this on your own.”
 

A version of this article appeared on Medscape.com.

When child psychiatrist Javeed Sukhera, MD, PhD, was a few years into his career, he found himself doing it all. “I was in a leadership role academically at the medical school, I had a leadership role at the hospital, and I was seeing as many patients as I could. I could work all day every day.”

“It still wouldn’t have been enough,” he said.

Whenever there was a shift available, Dr. Sukhera would take it. His job was stressful, but as a new physician with a young family, he saw this obsession with work as necessary. “I began to cope with the stress from work by doing extra work and feeling like I needed to be everywhere. It was like I became a hamster on a spinning wheel. I was just running, running, running.”

Things shifted for Dr. Sukhera when he realized that while he was emotionally available for the children who were his patients, at home, his own children weren’t getting the best of him. “There was a specific moment when I thought my son was afraid of me,” he said. “I just stopped and realized that there was something happening that I needed to break. I needed to make a change.”

Dr. Sukhera, now chair of psychiatry at the Institute of Living and chief of the Department of Psychiatry at Hartford Hospital, Hartford, Connecticut, believes what he experienced was a steep fall into work addiction. “Workaholism,” often dismissed as simply working hard, is a nonclinical addiction that could fall under the umbrella of a behavioral addiction, and healthcare professionals may be especially at risk.
 

What Does Work Addiction Look Like for Doctors?

Behavioral addictions are fairly new in the addiction space. When gambling disorder, the first and only behavioral addiction in the Diagnostic and Statistical Manual of Mental Disorders, Fifth Edition, was added in 2013, it was seen as a “breakthrough addiction,” said Mark D. Griffiths, PhD, a leading behavioral addiction researcher and a distinguished professor at Nottingham Trent University.

Because there is not enough evidence yet to classify work addiction as a formal diagnosis, there is no clear consensus on how to define it. To further complicate things, the terms “workaholism” and “work addiction” can be used interchangeably, and some experts say the two are not the same, though they can overlap.

That said, a 2018 review of literature from several countries found that work addiction “fits very well into recently postulated criteria for conceptualization of a behavioral addiction.

“If you accept that gambling can be genuinely addictive, then there’s no reason to think that something like work, exercise, or video game playing couldn’t be an addiction as well,” said Dr. Griffiths.

“The neurobiology of addiction is that we get drawn to something that gives us a dopamine hit,” Dr. Sukhera added. “But to do that all day, every day, has consequences. It drains our emotional reserves, and it can greatly impact our relationships.”

On top of that, work addiction has been linked with poor sleep, poor cardiovascular health, high blood pressure, burnout, the development of autoimmune disorders, and other health issues.

Physicians are particularly susceptible. Doctors, after all, are expected to work long hours and put their patients’ needs first, even at the expense of their own health and well-being.

“Workaholism is not just socially acceptable in medicine,” said Dr. Sukhera. “It’s baked into the system and built into the structures. The healthcare system has largely functioned on the emotional labor of health workers, whose tendency to show up and work harder can, at times, in certain organizations, be exploited.”

Dr. Griffiths agreed that with the limited amount of data available, work addiction does appear to exist at higher rates in medicine than in other fields. As early as the 1970s, medical literature describes work as a “socially acceptable” addiction among doctors. A 2014 study published in Occupational Medicine reported that of 445 physicians who took part in the research, nearly half exhibited some level of work addiction with 13% “highly work addicted.”

Of course, working hard or even meeting unreasonable demands from work is not the same as work addiction, as Dr. Griffiths clarified in a 2023 editorial in BMJ Quality & Safety. The difference, as with other behavioral addictions, is when people obsess about work and use it to cope with stress. It can be easier to stay distracted and busy to gain a sense of control rather than learning to deal with complex emotions.

A 2021 study that Dr. Sukhera conducted with resident physicians found that working harder was one of the main ways they dealt with stress during the COVID-19 pandemic. “This idea that we deal with the stress of being burnt out by doing more and more of what burns us out is fairly ubiquitous at all stages of medical professionals’ careers,” he said.

Financial incentives also can fuel work addiction, said Dr. Sukhera. In residency, there are some safeguards around overwork and duty hours. When you become an attending, those limits no longer exist. As a young physician, Dr. Sukhera had student debt to pay off and a family to support. When he found opportunities to earn more by working more, his answer was always “yes.”

Pressure to produce medical research also can pose issues. Some physicians can become addicted to publishing studies, fearing that they might lose their professional status or position if they stop. It’s a cycle that can force a doctor to not only work long hours doing their job but also practically take on a second one.
 

How Physicians Can Recognize Work Addiction in Themselves

Work addiction can look and feel different for every person, said Malissa Clark, PhD, associate professor at the University of Georgia and author of the recent book Never Not Working: Why the Always-On Culture Is Bad for Business—and How to Fix It.

Dr. Clark noted that people who are highly engaged in their work tend to be driven by intrinsic motivation: “You work because you love it.” With work addiction, “you work because you feel like you ought to be working all the time.”

Of course, it’s not always so cut and dried; you can experience both forms of motivation and not necessarily become addicted to work. But if you are solely driven by the feeling that you ought to be working all the time, that can be a red flag.

Dr. Griffiths said that while many people may have problematic work habits or work too much, true work addicts must meet six criteria that apply to all addictions:

1. Salience: Work is the single most important thing in your life, to the point of neglecting everything else. Even if you’re on vacation, your mind might be flooded with work thoughts.

2. Mood modification: You use work to modify your mood, either to get a “high” or to cope with stress.

3. Tolerance: Over time, you’ve gone from working 8 or 10 hours a day to 12 hours a day, to a point where you’re working all the time.

4. Withdrawal: On a physiological level, you will have symptoms such as anxiety, nausea, or headaches when unable to work.

5. Conflict: You feel conflicted with yourself (you know you’re working too much) or with others (partners, friends, and children) about work, but you can’t stop.

6. Relapse: If you manage to cut down your hours but can’t resist overworking 1 day, you wind up right back where you were.
 

When It’s Time to Address Work Addiction

The lack of a formal diagnosis for work addiction makes getting treatment difficult. But there are ways to seek help. Unlike the drug and alcohol literature, abstinence is not the goal. “The therapeutic goal is getting a behavior under control and looking for the triggers of why you’re compulsively working,” said Dr. Griffiths.

Practice self-compassion

Dr. Sukhera eventually realized that his work addiction stemmed from the fear of being somehow excluded or unworthy. He actively corrected much of this through self-compassion and self-kindness, which helped him set boundaries. “Self-compassion is the root of everything,” he said. “Reminding ourselves that we’re doing our best is an important ingredient in breaking the cycle.”

Slowly expose yourself to relaxation

Many workaholics find rest very difficult. “When I conducted interviews with people [who considered themselves workaholics], a very common thing I heard was, ‘I have a very hard time being idle,’ ” said Dr. Clark. If rest feels hard, Dr. Sukhera suggests practicing relaxation for 2 minutes to start. Even small periods of downtime can challenge the belief that you must be constantly productive.

Reframe your to-do list 

For work addicts, to-do lists can seem like they must be finished, which prolongs work hours. Instead, use to-do lists to help prioritize what is urgent, identify what can wait, and delegate out tasks to others, Dr. Clark recommends.

Pick up a mastery experience

Research from professor Sabine Sonnentag, Dr. rer. nat., at the University of Mannheim, Mannheim, Germany, suggests that mastery experiences — leisure activities that require thought and focus like learning a new language or taking a woodworking class — can help you actively disengage from work.

Try cognitive behavioral therapy

Widely used for other forms of addiction, cognitive behavioral therapy centers around recognizing emotions, challenging thought patterns, and changing behaviors. However, Dr. Clark admits the research on its impact on work addiction, in particular, is “pretty nascent.”

Shift your mindset

It seems logical to think that detaching from your feelings will allow you to “do more,” but experts say that idea is both untrue and dangerous. “The safest hospitals are the hospitals where people are attuned to their humanness,” said Dr. Sukhera. “It’s normal to overwork in medicine, and if you’re challenging a norm, you really have to be thoughtful about how you frame that for yourself.”

Most importantly: Seek support

Today, there is increased awareness about work addiction and more resources for physicians who are struggling, including programs such as Workaholics Anonymous or Physicians Anonymous and workplace wellness initiatives. But try not to overwhelm yourself with choosing whom to talk to or what specific resource to utilize, Dr. Sukhera advised. “Just talk to someone about it. You don’t have to carry this on your own.”
 

A version of this article appeared on Medscape.com.

On April 4, Oregon’s Governor Tina Kotek signed a bill into law that officially changed the title of “physician assistants” to “physician associates” in the state. The switch is the first of its kind in the United States and comes on the heels of a decision from 2021 by the American Academy of Physician Associates (AAPA) to change the meaning of “PA” to “physician associate” from “physician assistant.”

In the Medscape Physician Assistant Career Satisfaction Report 2023, a diverse range of opinions on the title switch was reflected. Only 40% of PAs favored the name change at the time, 45% neither opposed nor favored it, and 15% opposed the name change, reflecting the complexity of the issue.

According to the AAPA, the change came about to better reflect the work PAs do in not just “assisting” physicians but in working independently with patients. Some also felt that the word “assistant” implies dependence. However, despite associate’s more accurate reflection of the job, PAs mostly remain split on whether they want the new moniker.

Many say that the name change will be confusing for the public and their patients, while others say that physician assistant was already not well understood, as patients often thought of the profession as a doctor’s helper or an assistant, like a medical assistant.

Yet many long-time PAs say that they prefer the title they’ve always had and that explaining to patients the new associate title will be equally confusing. Some mentioned patients may think they’re a business associate of the physician.

Oregon PAs won’t immediately switch to the new name. The new law takes effect on June 6, 2024. The Oregon Medical Board will establish regulations and guidance before PAs adopt the new name in their practices.

The law only changes the name of PAs in Oregon, not in other states. In fact, prematurely using the title of physician associate could subject a PA to regulatory challenges or disciplinary actions.

A version of this article appeared on Medscape.com.

On April 4, Oregon’s Governor Tina Kotek signed a bill into law that officially changed the title of “physician assistants” to “physician associates” in the state. The switch is the first of its kind in the United States and comes on the heels of a decision from 2021 by the American Academy of Physician Associates (AAPA) to change the meaning of “PA” to “physician associate” from “physician assistant.”

In the Medscape Physician Assistant Career Satisfaction Report 2023, a diverse range of opinions on the title switch was reflected. Only 40% of PAs favored the name change at the time, 45% neither opposed nor favored it, and 15% opposed the name change, reflecting the complexity of the issue.

According to the AAPA, the change came about to better reflect the work PAs do in not just “assisting” physicians but in working independently with patients. Some also felt that the word “assistant” implies dependence. However, despite associate’s more accurate reflection of the job, PAs mostly remain split on whether they want the new moniker.

Many say that the name change will be confusing for the public and their patients, while others say that physician assistant was already not well understood, as patients often thought of the profession as a doctor’s helper or an assistant, like a medical assistant.

Yet many long-time PAs say that they prefer the title they’ve always had and that explaining to patients the new associate title will be equally confusing. Some mentioned patients may think they’re a business associate of the physician.

Oregon PAs won’t immediately switch to the new name. The new law takes effect on June 6, 2024. The Oregon Medical Board will establish regulations and guidance before PAs adopt the new name in their practices.

The law only changes the name of PAs in Oregon, not in other states. In fact, prematurely using the title of physician associate could subject a PA to regulatory challenges or disciplinary actions.

A version of this article appeared on Medscape.com.

On April 4, Oregon’s Governor Tina Kotek signed a bill into law that officially changed the title of “physician assistants” to “physician associates” in the state. The switch is the first of its kind in the United States and comes on the heels of a decision from 2021 by the American Academy of Physician Associates (AAPA) to change the meaning of “PA” to “physician associate” from “physician assistant.”

In the Medscape Physician Assistant Career Satisfaction Report 2023, a diverse range of opinions on the title switch was reflected. Only 40% of PAs favored the name change at the time, 45% neither opposed nor favored it, and 15% opposed the name change, reflecting the complexity of the issue.

According to the AAPA, the change came about to better reflect the work PAs do in not just “assisting” physicians but in working independently with patients. Some also felt that the word “assistant” implies dependence. However, despite associate’s more accurate reflection of the job, PAs mostly remain split on whether they want the new moniker.

Many say that the name change will be confusing for the public and their patients, while others say that physician assistant was already not well understood, as patients often thought of the profession as a doctor’s helper or an assistant, like a medical assistant.

Yet many long-time PAs say that they prefer the title they’ve always had and that explaining to patients the new associate title will be equally confusing. Some mentioned patients may think they’re a business associate of the physician.

Oregon PAs won’t immediately switch to the new name. The new law takes effect on June 6, 2024. The Oregon Medical Board will establish regulations and guidance before PAs adopt the new name in their practices.

The law only changes the name of PAs in Oregon, not in other states. In fact, prematurely using the title of physician associate could subject a PA to regulatory challenges or disciplinary actions.

A version of this article appeared on Medscape.com.

As the pendulum has swung against recommending aspirin for the primary prevention of heart attacks and strokes, clinicians should focus on other ways to help patients avoid cardiovascular events.

A landmark study published in 1988 in The New England Journal of Medicine reported an astonishing 44% drop in the number of heart attacks among US male physicians aged 40-84 years who took aspirin.

Aspirin subsequently became a daily habit for millions of Americans. In 2017, nearly a quarter of Americans over age 40 who did not have cardiovascular disease (CVD) took the drug, and over 20% of those were doing so without a physician’s recommendation.

But in 2018, three studies (ASCEND, ARRIVE, and ASPREE) showed a stunning reversal in the purported benefit, according to John Wong, MD, vice-chair of the US Preventive Services Task Force (USPSTF).

The calculus for taking aspirin appeared to have changed dramatically: The drug decreased the risk for myocardial infarction by only 11% among study subjects, while its potential harms were much more pronounced.

According to Dr. Wong, who is also a professor of medicine and a primary care physician at Tufts University School of Medicine in Boston, Massachusetts, patients taking low-dose aspirin had a 58% increase in their risk for gastrointestinal bleeding compared with those not on aspirin, as well as a 31% increased risk for intracranial bleeding.

Did aspirin suddenly lose its magic powers in preventing heart attacks? Dr. Wong attributed the decline in effectiveness of aspirin in preventing heart attacks to other “primary care interventions that help reduce the cardiovascular disease risk in patients who haven’t had a heart attack or stroke.”

Fewer Americans smoke cigarettes, more realize the benefits of a healthy diet and physical activity, and the medical community better recognizes and treats hypertension. New classes of medications such as statins for high cholesterol are also moving the needle.

But a newer class of drugs may provide a safer replacement for aspirin, according to Muhammad Maqsood, MD, a cardiology fellow at DeBakey Heart and Vascular Center at Methodist Hospital in Houston, Texas. P2Y purinoceptor 12 (P2Y12) inhibitors are effective in lowering the risk for heart attack and stroke in patients with acute coronary syndrome or those undergoing elective percutaneous coronary interventions.

“They have shown a better bleeding profile, especially clopidogrel compared to aspirin,” Dr. Maqsood said.

However, the findings come from trials of patients who already had CVD, so results cannot yet be extrapolated to primary prevention. Dr. Maqsood said the gap highlights the need for clinical trials that evaluate P2Y12 inhibitors for primary prevention, but no such study is registered on clinicaltrials.gov.
 

Benefits Persist for Some Patients

The new evidence led the USPSTF to publish new guidelines in 2022, downgrading the recommendation for low-dose aspirin use for primary prevention. Previously, the organization stated that clinicians “should” initiate daily low-dose aspirin in adults aged 50-59 years and “consider” its use in adults aged 60-69 years whose 10-year risk for CVD was higher than 10%.

The updated guidelines stated that the decision to initiate low-dose aspirin in adults aged 40-59 years with a greater than 10% risk for CVD “should be an individual one,” based on professional judgment and individual patient preferences. The USPSTF also recommended against the use of aspirin in anyone over the age of 60.

Meanwhile, the American College of Cardiology and American Heart Association also dialed down previously strong recommendations on low-dose aspirin to a more nuanced recommendation stating, “low-dose aspirin might be considered for primary prevention of ASCVD among select adults 40-70 years of age.”

With a varying age limit for recommending aspirin, clinicians may take into consideration several variables.

“Is there a magic age? I don’t think there is,” said Douglas Lloyd-Jones, the former president of the American Heart Association and current chair of the Department of Preventive Medicine and a practicing cardiologist at Northwestern University Feinberg School of Medicine in Chicago, Illinois.

For a patient over age 60 who is at a high risk for adverse cardiovascular outcomes, is unable to quit smoking, and is not likely to experience problematic bleeding, a clinician might recommend aspirin, Dr. Lloyd-Jones said. He said he sometimes also assesses coronary artery calcium to guide his clinical decisions: If elevated (an Agatston score above 100), he might recommend low-dose aspirin.

Dr. Lloyd-Jones also reiterated that patients should continue taking low-dose aspirin if they have already experienced a heart attack, stroke, episode of atrial fibrillation, or required a vascular stent.

Unless a patient with established CVD has intractable bleeding, “the aspirin is really for life,” Dr. Lloyd-Jones said. Patients who have a stent or who are at high risk for recurrence of stroke are more likely to experience thrombosis, and aspirin can decrease the risk.

“In our cardiology community, we don’t just strictly use the age of 70; the decision is always individualized,” Dr. Maqsood said.

Dr. Wong said primary care providers should focus on the USPSTF’s other recommendations that address CVD (Table), such as smoking cessation and screening for hypertension.

“I think our challenge is that we have so many of those A and B recommendations,” Dr. Wong said. “And I think part of the challenge for us is working with the patient to find out what’s most important to them.”

Discussing heart attacks and strokes often will strike a chord with patients because someone they know has been affected.

Dr. Maqsood emphasized the importance of behavioral interventions, such as helping patients decrease their body mass index and control their hyperlipidemia.

“The behavioral interventions are those which are the most cost-effective without any side effects,” he said.

His other piece of advice is to inquire with younger patients about a family history of heart attacks. Familial hypercholesteremia is unlikely to be controlled by diet and exercise and will need medical therapy.

Dr. Lloyd-Jones described the discussions he has with patients about preventing heart attacks as “the most important conversations we can have: Remember that cardiovascular disease is still the leading cause of death and disability in the world and in the United States.”

Dr. Wong, Dr. Lloyd-Jones, and Dr. Maqsood reported no relevant financial relationships.

A version of this article appeared on Medscape.com.

As the pendulum has swung against recommending aspirin for the primary prevention of heart attacks and strokes, clinicians should focus on other ways to help patients avoid cardiovascular events.

A landmark study published in 1988 in The New England Journal of Medicine reported an astonishing 44% drop in the number of heart attacks among US male physicians aged 40-84 years who took aspirin.

Aspirin subsequently became a daily habit for millions of Americans. In 2017, nearly a quarter of Americans over age 40 who did not have cardiovascular disease (CVD) took the drug, and over 20% of those were doing so without a physician’s recommendation.

But in 2018, three studies (ASCEND, ARRIVE, and ASPREE) showed a stunning reversal in the purported benefit, according to John Wong, MD, vice-chair of the US Preventive Services Task Force (USPSTF).

The calculus for taking aspirin appeared to have changed dramatically: The drug decreased the risk for myocardial infarction by only 11% among study subjects, while its potential harms were much more pronounced.

According to Dr. Wong, who is also a professor of medicine and a primary care physician at Tufts University School of Medicine in Boston, Massachusetts, patients taking low-dose aspirin had a 58% increase in their risk for gastrointestinal bleeding compared with those not on aspirin, as well as a 31% increased risk for intracranial bleeding.

Did aspirin suddenly lose its magic powers in preventing heart attacks? Dr. Wong attributed the decline in effectiveness of aspirin in preventing heart attacks to other “primary care interventions that help reduce the cardiovascular disease risk in patients who haven’t had a heart attack or stroke.”

Fewer Americans smoke cigarettes, more realize the benefits of a healthy diet and physical activity, and the medical community better recognizes and treats hypertension. New classes of medications such as statins for high cholesterol are also moving the needle.

But a newer class of drugs may provide a safer replacement for aspirin, according to Muhammad Maqsood, MD, a cardiology fellow at DeBakey Heart and Vascular Center at Methodist Hospital in Houston, Texas. P2Y purinoceptor 12 (P2Y12) inhibitors are effective in lowering the risk for heart attack and stroke in patients with acute coronary syndrome or those undergoing elective percutaneous coronary interventions.

“They have shown a better bleeding profile, especially clopidogrel compared to aspirin,” Dr. Maqsood said.

However, the findings come from trials of patients who already had CVD, so results cannot yet be extrapolated to primary prevention. Dr. Maqsood said the gap highlights the need for clinical trials that evaluate P2Y12 inhibitors for primary prevention, but no such study is registered on clinicaltrials.gov.
 

Benefits Persist for Some Patients

The new evidence led the USPSTF to publish new guidelines in 2022, downgrading the recommendation for low-dose aspirin use for primary prevention. Previously, the organization stated that clinicians “should” initiate daily low-dose aspirin in adults aged 50-59 years and “consider” its use in adults aged 60-69 years whose 10-year risk for CVD was higher than 10%.

The updated guidelines stated that the decision to initiate low-dose aspirin in adults aged 40-59 years with a greater than 10% risk for CVD “should be an individual one,” based on professional judgment and individual patient preferences. The USPSTF also recommended against the use of aspirin in anyone over the age of 60.

Meanwhile, the American College of Cardiology and American Heart Association also dialed down previously strong recommendations on low-dose aspirin to a more nuanced recommendation stating, “low-dose aspirin might be considered for primary prevention of ASCVD among select adults 40-70 years of age.”

With a varying age limit for recommending aspirin, clinicians may take into consideration several variables.

“Is there a magic age? I don’t think there is,” said Douglas Lloyd-Jones, the former president of the American Heart Association and current chair of the Department of Preventive Medicine and a practicing cardiologist at Northwestern University Feinberg School of Medicine in Chicago, Illinois.

For a patient over age 60 who is at a high risk for adverse cardiovascular outcomes, is unable to quit smoking, and is not likely to experience problematic bleeding, a clinician might recommend aspirin, Dr. Lloyd-Jones said. He said he sometimes also assesses coronary artery calcium to guide his clinical decisions: If elevated (an Agatston score above 100), he might recommend low-dose aspirin.

Dr. Lloyd-Jones also reiterated that patients should continue taking low-dose aspirin if they have already experienced a heart attack, stroke, episode of atrial fibrillation, or required a vascular stent.

Unless a patient with established CVD has intractable bleeding, “the aspirin is really for life,” Dr. Lloyd-Jones said. Patients who have a stent or who are at high risk for recurrence of stroke are more likely to experience thrombosis, and aspirin can decrease the risk.

“In our cardiology community, we don’t just strictly use the age of 70; the decision is always individualized,” Dr. Maqsood said.

Dr. Wong said primary care providers should focus on the USPSTF’s other recommendations that address CVD (Table), such as smoking cessation and screening for hypertension.

“I think our challenge is that we have so many of those A and B recommendations,” Dr. Wong said. “And I think part of the challenge for us is working with the patient to find out what’s most important to them.”

Discussing heart attacks and strokes often will strike a chord with patients because someone they know has been affected.

Dr. Maqsood emphasized the importance of behavioral interventions, such as helping patients decrease their body mass index and control their hyperlipidemia.

“The behavioral interventions are those which are the most cost-effective without any side effects,” he said.

His other piece of advice is to inquire with younger patients about a family history of heart attacks. Familial hypercholesteremia is unlikely to be controlled by diet and exercise and will need medical therapy.

Dr. Lloyd-Jones described the discussions he has with patients about preventing heart attacks as “the most important conversations we can have: Remember that cardiovascular disease is still the leading cause of death and disability in the world and in the United States.”

Dr. Wong, Dr. Lloyd-Jones, and Dr. Maqsood reported no relevant financial relationships.

A version of this article appeared on Medscape.com.

As the pendulum has swung against recommending aspirin for the primary prevention of heart attacks and strokes, clinicians should focus on other ways to help patients avoid cardiovascular events.

A landmark study published in 1988 in The New England Journal of Medicine reported an astonishing 44% drop in the number of heart attacks among US male physicians aged 40-84 years who took aspirin.

Aspirin subsequently became a daily habit for millions of Americans. In 2017, nearly a quarter of Americans over age 40 who did not have cardiovascular disease (CVD) took the drug, and over 20% of those were doing so without a physician’s recommendation.

But in 2018, three studies (ASCEND, ARRIVE, and ASPREE) showed a stunning reversal in the purported benefit, according to John Wong, MD, vice-chair of the US Preventive Services Task Force (USPSTF).

The calculus for taking aspirin appeared to have changed dramatically: The drug decreased the risk for myocardial infarction by only 11% among study subjects, while its potential harms were much more pronounced.

According to Dr. Wong, who is also a professor of medicine and a primary care physician at Tufts University School of Medicine in Boston, Massachusetts, patients taking low-dose aspirin had a 58% increase in their risk for gastrointestinal bleeding compared with those not on aspirin, as well as a 31% increased risk for intracranial bleeding.

Did aspirin suddenly lose its magic powers in preventing heart attacks? Dr. Wong attributed the decline in effectiveness of aspirin in preventing heart attacks to other “primary care interventions that help reduce the cardiovascular disease risk in patients who haven’t had a heart attack or stroke.”

Fewer Americans smoke cigarettes, more realize the benefits of a healthy diet and physical activity, and the medical community better recognizes and treats hypertension. New classes of medications such as statins for high cholesterol are also moving the needle.

But a newer class of drugs may provide a safer replacement for aspirin, according to Muhammad Maqsood, MD, a cardiology fellow at DeBakey Heart and Vascular Center at Methodist Hospital in Houston, Texas. P2Y purinoceptor 12 (P2Y12) inhibitors are effective in lowering the risk for heart attack and stroke in patients with acute coronary syndrome or those undergoing elective percutaneous coronary interventions.

“They have shown a better bleeding profile, especially clopidogrel compared to aspirin,” Dr. Maqsood said.

However, the findings come from trials of patients who already had CVD, so results cannot yet be extrapolated to primary prevention. Dr. Maqsood said the gap highlights the need for clinical trials that evaluate P2Y12 inhibitors for primary prevention, but no such study is registered on clinicaltrials.gov.
 

Benefits Persist for Some Patients

The new evidence led the USPSTF to publish new guidelines in 2022, downgrading the recommendation for low-dose aspirin use for primary prevention. Previously, the organization stated that clinicians “should” initiate daily low-dose aspirin in adults aged 50-59 years and “consider” its use in adults aged 60-69 years whose 10-year risk for CVD was higher than 10%.

The updated guidelines stated that the decision to initiate low-dose aspirin in adults aged 40-59 years with a greater than 10% risk for CVD “should be an individual one,” based on professional judgment and individual patient preferences. The USPSTF also recommended against the use of aspirin in anyone over the age of 60.

Meanwhile, the American College of Cardiology and American Heart Association also dialed down previously strong recommendations on low-dose aspirin to a more nuanced recommendation stating, “low-dose aspirin might be considered for primary prevention of ASCVD among select adults 40-70 years of age.”

With a varying age limit for recommending aspirin, clinicians may take into consideration several variables.

“Is there a magic age? I don’t think there is,” said Douglas Lloyd-Jones, the former president of the American Heart Association and current chair of the Department of Preventive Medicine and a practicing cardiologist at Northwestern University Feinberg School of Medicine in Chicago, Illinois.

For a patient over age 60 who is at a high risk for adverse cardiovascular outcomes, is unable to quit smoking, and is not likely to experience problematic bleeding, a clinician might recommend aspirin, Dr. Lloyd-Jones said. He said he sometimes also assesses coronary artery calcium to guide his clinical decisions: If elevated (an Agatston score above 100), he might recommend low-dose aspirin.

Dr. Lloyd-Jones also reiterated that patients should continue taking low-dose aspirin if they have already experienced a heart attack, stroke, episode of atrial fibrillation, or required a vascular stent.

Unless a patient with established CVD has intractable bleeding, “the aspirin is really for life,” Dr. Lloyd-Jones said. Patients who have a stent or who are at high risk for recurrence of stroke are more likely to experience thrombosis, and aspirin can decrease the risk.

“In our cardiology community, we don’t just strictly use the age of 70; the decision is always individualized,” Dr. Maqsood said.

Dr. Wong said primary care providers should focus on the USPSTF’s other recommendations that address CVD (Table), such as smoking cessation and screening for hypertension.

“I think our challenge is that we have so many of those A and B recommendations,” Dr. Wong said. “And I think part of the challenge for us is working with the patient to find out what’s most important to them.”

Discussing heart attacks and strokes often will strike a chord with patients because someone they know has been affected.

Dr. Maqsood emphasized the importance of behavioral interventions, such as helping patients decrease their body mass index and control their hyperlipidemia.

“The behavioral interventions are those which are the most cost-effective without any side effects,” he said.

His other piece of advice is to inquire with younger patients about a family history of heart attacks. Familial hypercholesteremia is unlikely to be controlled by diet and exercise and will need medical therapy.

Dr. Lloyd-Jones described the discussions he has with patients about preventing heart attacks as “the most important conversations we can have: Remember that cardiovascular disease is still the leading cause of death and disability in the world and in the United States.”

Dr. Wong, Dr. Lloyd-Jones, and Dr. Maqsood reported no relevant financial relationships.

A version of this article appeared on Medscape.com.