Journal of Clinical Outcomes Management

Patients with heart failure who are infected with SARS-CoV-2 are at high risk for complications, with nearly 1 in 4 dying during hospitalization, according to a large database analysis that included more than 8,000 patients who had heart failure and COVID-19.

Floaria Bicher/iStock/Getty Images Plus

In-hospital mortality was 24.2% for patients who had a history of heart failure and were hospitalized with COVID-19, as compared with 14.2% for individuals without heart failure who were hospitalized with COVID-19.

For perspective, the researchers compared the patients with heart failure and COVID-19 with patients who had a history of heart failure and were hospitalized for an acute worsening episode: the risk for death was about 10-fold higher with COVID-19.

“These patients really face remarkably high risk, and when we compare that to the risk of in-hospital death with something we are a lot more familiar with – acute heart failure – we see that the risk was about 10-fold greater,” said first author Ankeet S. Bhatt, MD, MBA, from Brigham and Women’s Hospital and Harvard Medical School, both in Boston.

In an article published online in JACC Heart Failure on Dec. 28, a group led by Dr. Bhatt and senior author Scott D. Solomon, MD, reported an analysis of administrative data on a total of 2,041,855 incident hospitalizations logged in the Premier Healthcare Database between April 1, 2020, and Sept. 30, 2020.

The Premier Healthcare Database comprises data from more than 1 billion patient encounters, which equates to approximately 1 in every 5 of all inpatient discharges in the United States.

Of 132,312 hospitalizations of patients with a history of heart failure, 23,843 (18.0%) were hospitalized with acute heart failure, 8,383 patients (6.4%) were hospitalized with COVID-19, and 100,068 (75.6%) were hospitalized for other reasons.

Outcomes and resource utilization were compared with 141,895 COVID-19 hospitalizations of patients who did not have heart failure.

Patients were deemed to have a history of heart failure if they were hospitalized at least once for heart failure from Jan. 1, 2019, to March 21, 2020, or had at least two heart failure outpatient visits during that period.

In a comment, Dr. Solomon noted some of the pros and cons of the data used in this study.

“Premier is a huge database, encompassing about one-quarter of all the health care facilities in the United States and one-fifth of all inpatient visits, so for that reason we’re able to look at things that are very difficult to look at in smaller hospital systems, but the data are also limited in that you don’t have as much granular detail as you might in smaller datasets,” said Dr. Solomon.

“One thing to recognize is that our data start at the point of hospital admission, so were looking only at individuals who have crossed the threshold in terms of their illness and been admitted,” he added.

Use of in-hospital resources was significantly greater for patients with heart failure hospitalized for COVID-19, compared with patients hospitalized for acute heart failure or for other reasons. This included “multifold” higher rates of ICU care (29% vs. 15%), mechanical ventilation (17% vs. 6%), and central venous catheter insertion (19% vs. 7%; P < .001 for all).

The proportion of patients who required mechanical ventilation and care in the ICU in the group with COVID-19 but who did not have no heart failure was similar to those who had both conditions.

The greater odds of in-hospital mortality among patients with both heart failure and COVID-19, compared with individuals with heart failure hospitalized for other reasons, was strongest in April, with an adjusted odds ratio of 14.48, compared with subsequent months (adjusted OR for May-September, 10.11; P for interaction < .001).

“We’re obviously not able to say with certainty what was happening in April, but I think that maybe the patients who were most vulnerable to COVID-19 may be more represented in that population, so the patients with comorbidities or who are immunosuppressed or otherwise,” said Dr. Bhatt in an interview.

“The other thing we think is that there may be a learning curve in terms of how to care for patients with acute severe respiratory illness. That includes increased institutional knowledge – like the use of prone ventilation – but also therapies that were subsequently shown to have benefit in randomized clinical trials, such as dexamethasone,” he added.

“These results should remind us to be innovative and thoughtful in our management of patients with heart failure while trying to maintain equity and good health for all,” wrote Nasrien E. Ibrahim, MD, from Massachusetts General Hospital, Boston; Ersilia DeFillipis, MD, Columbia University, New York; and Mitchel Psotka, MD, PhD, Innova Heart and Vascular Institute, Falls Church, Va., in an editorial accompanying the study.

The data emphasize the importance of ensuring equal access to services such as telemedicine, virtual visits, home nursing visits, and remote monitoring, they noted.

“As the COVID-19 pandemic rages on and disproportionately ravages socioeconomically disadvantaged communities, we should focus our efforts on strategies that minimize these inequities,” the editorialists wrote.

Dr. Solomon noted that, although Black and Hispanic patients were overrepresented in the population of heart failure patients hospitalized with COVID-19, once in the hospital, race was not a predictor of in-hospital mortality or the need for mechanical ventilation.

Dr. Bhatt has received speaker fees from Sanofi Pasteur and is supported by a National Institutes of Health/National Heart, Lung, and Blood Institute postdoctoral training grant. Dr. Solomon has received grant support and/or speaking fees from a number of companies and from the NIH/NHLBI. The editorialists disclosed no relevant financial relationships.

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

Patients with heart failure who are infected with SARS-CoV-2 are at high risk for complications, with nearly 1 in 4 dying during hospitalization, according to a large database analysis that included more than 8,000 patients who had heart failure and COVID-19.

Floaria Bicher/iStock/Getty Images Plus

In-hospital mortality was 24.2% for patients who had a history of heart failure and were hospitalized with COVID-19, as compared with 14.2% for individuals without heart failure who were hospitalized with COVID-19.

For perspective, the researchers compared the patients with heart failure and COVID-19 with patients who had a history of heart failure and were hospitalized for an acute worsening episode: the risk for death was about 10-fold higher with COVID-19.

“These patients really face remarkably high risk, and when we compare that to the risk of in-hospital death with something we are a lot more familiar with – acute heart failure – we see that the risk was about 10-fold greater,” said first author Ankeet S. Bhatt, MD, MBA, from Brigham and Women’s Hospital and Harvard Medical School, both in Boston.

In an article published online in JACC Heart Failure on Dec. 28, a group led by Dr. Bhatt and senior author Scott D. Solomon, MD, reported an analysis of administrative data on a total of 2,041,855 incident hospitalizations logged in the Premier Healthcare Database between April 1, 2020, and Sept. 30, 2020.

The Premier Healthcare Database comprises data from more than 1 billion patient encounters, which equates to approximately 1 in every 5 of all inpatient discharges in the United States.

Of 132,312 hospitalizations of patients with a history of heart failure, 23,843 (18.0%) were hospitalized with acute heart failure, 8,383 patients (6.4%) were hospitalized with COVID-19, and 100,068 (75.6%) were hospitalized for other reasons.

Outcomes and resource utilization were compared with 141,895 COVID-19 hospitalizations of patients who did not have heart failure.

Patients were deemed to have a history of heart failure if they were hospitalized at least once for heart failure from Jan. 1, 2019, to March 21, 2020, or had at least two heart failure outpatient visits during that period.

In a comment, Dr. Solomon noted some of the pros and cons of the data used in this study.

“Premier is a huge database, encompassing about one-quarter of all the health care facilities in the United States and one-fifth of all inpatient visits, so for that reason we’re able to look at things that are very difficult to look at in smaller hospital systems, but the data are also limited in that you don’t have as much granular detail as you might in smaller datasets,” said Dr. Solomon.

“One thing to recognize is that our data start at the point of hospital admission, so were looking only at individuals who have crossed the threshold in terms of their illness and been admitted,” he added.

Use of in-hospital resources was significantly greater for patients with heart failure hospitalized for COVID-19, compared with patients hospitalized for acute heart failure or for other reasons. This included “multifold” higher rates of ICU care (29% vs. 15%), mechanical ventilation (17% vs. 6%), and central venous catheter insertion (19% vs. 7%; P < .001 for all).

The proportion of patients who required mechanical ventilation and care in the ICU in the group with COVID-19 but who did not have no heart failure was similar to those who had both conditions.

The greater odds of in-hospital mortality among patients with both heart failure and COVID-19, compared with individuals with heart failure hospitalized for other reasons, was strongest in April, with an adjusted odds ratio of 14.48, compared with subsequent months (adjusted OR for May-September, 10.11; P for interaction < .001).

“We’re obviously not able to say with certainty what was happening in April, but I think that maybe the patients who were most vulnerable to COVID-19 may be more represented in that population, so the patients with comorbidities or who are immunosuppressed or otherwise,” said Dr. Bhatt in an interview.

“The other thing we think is that there may be a learning curve in terms of how to care for patients with acute severe respiratory illness. That includes increased institutional knowledge – like the use of prone ventilation – but also therapies that were subsequently shown to have benefit in randomized clinical trials, such as dexamethasone,” he added.

“These results should remind us to be innovative and thoughtful in our management of patients with heart failure while trying to maintain equity and good health for all,” wrote Nasrien E. Ibrahim, MD, from Massachusetts General Hospital, Boston; Ersilia DeFillipis, MD, Columbia University, New York; and Mitchel Psotka, MD, PhD, Innova Heart and Vascular Institute, Falls Church, Va., in an editorial accompanying the study.

The data emphasize the importance of ensuring equal access to services such as telemedicine, virtual visits, home nursing visits, and remote monitoring, they noted.

“As the COVID-19 pandemic rages on and disproportionately ravages socioeconomically disadvantaged communities, we should focus our efforts on strategies that minimize these inequities,” the editorialists wrote.

Dr. Solomon noted that, although Black and Hispanic patients were overrepresented in the population of heart failure patients hospitalized with COVID-19, once in the hospital, race was not a predictor of in-hospital mortality or the need for mechanical ventilation.

Dr. Bhatt has received speaker fees from Sanofi Pasteur and is supported by a National Institutes of Health/National Heart, Lung, and Blood Institute postdoctoral training grant. Dr. Solomon has received grant support and/or speaking fees from a number of companies and from the NIH/NHLBI. The editorialists disclosed no relevant financial relationships.

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

Patients with heart failure who are infected with SARS-CoV-2 are at high risk for complications, with nearly 1 in 4 dying during hospitalization, according to a large database analysis that included more than 8,000 patients who had heart failure and COVID-19.

Floaria Bicher/iStock/Getty Images Plus

In-hospital mortality was 24.2% for patients who had a history of heart failure and were hospitalized with COVID-19, as compared with 14.2% for individuals without heart failure who were hospitalized with COVID-19.

For perspective, the researchers compared the patients with heart failure and COVID-19 with patients who had a history of heart failure and were hospitalized for an acute worsening episode: the risk for death was about 10-fold higher with COVID-19.

“These patients really face remarkably high risk, and when we compare that to the risk of in-hospital death with something we are a lot more familiar with – acute heart failure – we see that the risk was about 10-fold greater,” said first author Ankeet S. Bhatt, MD, MBA, from Brigham and Women’s Hospital and Harvard Medical School, both in Boston.

In an article published online in JACC Heart Failure on Dec. 28, a group led by Dr. Bhatt and senior author Scott D. Solomon, MD, reported an analysis of administrative data on a total of 2,041,855 incident hospitalizations logged in the Premier Healthcare Database between April 1, 2020, and Sept. 30, 2020.

The Premier Healthcare Database comprises data from more than 1 billion patient encounters, which equates to approximately 1 in every 5 of all inpatient discharges in the United States.

Of 132,312 hospitalizations of patients with a history of heart failure, 23,843 (18.0%) were hospitalized with acute heart failure, 8,383 patients (6.4%) were hospitalized with COVID-19, and 100,068 (75.6%) were hospitalized for other reasons.

Outcomes and resource utilization were compared with 141,895 COVID-19 hospitalizations of patients who did not have heart failure.

Patients were deemed to have a history of heart failure if they were hospitalized at least once for heart failure from Jan. 1, 2019, to March 21, 2020, or had at least two heart failure outpatient visits during that period.

In a comment, Dr. Solomon noted some of the pros and cons of the data used in this study.

“Premier is a huge database, encompassing about one-quarter of all the health care facilities in the United States and one-fifth of all inpatient visits, so for that reason we’re able to look at things that are very difficult to look at in smaller hospital systems, but the data are also limited in that you don’t have as much granular detail as you might in smaller datasets,” said Dr. Solomon.

“One thing to recognize is that our data start at the point of hospital admission, so were looking only at individuals who have crossed the threshold in terms of their illness and been admitted,” he added.

Use of in-hospital resources was significantly greater for patients with heart failure hospitalized for COVID-19, compared with patients hospitalized for acute heart failure or for other reasons. This included “multifold” higher rates of ICU care (29% vs. 15%), mechanical ventilation (17% vs. 6%), and central venous catheter insertion (19% vs. 7%; P < .001 for all).

The proportion of patients who required mechanical ventilation and care in the ICU in the group with COVID-19 but who did not have no heart failure was similar to those who had both conditions.

The greater odds of in-hospital mortality among patients with both heart failure and COVID-19, compared with individuals with heart failure hospitalized for other reasons, was strongest in April, with an adjusted odds ratio of 14.48, compared with subsequent months (adjusted OR for May-September, 10.11; P for interaction < .001).

“We’re obviously not able to say with certainty what was happening in April, but I think that maybe the patients who were most vulnerable to COVID-19 may be more represented in that population, so the patients with comorbidities or who are immunosuppressed or otherwise,” said Dr. Bhatt in an interview.

“The other thing we think is that there may be a learning curve in terms of how to care for patients with acute severe respiratory illness. That includes increased institutional knowledge – like the use of prone ventilation – but also therapies that were subsequently shown to have benefit in randomized clinical trials, such as dexamethasone,” he added.

“These results should remind us to be innovative and thoughtful in our management of patients with heart failure while trying to maintain equity and good health for all,” wrote Nasrien E. Ibrahim, MD, from Massachusetts General Hospital, Boston; Ersilia DeFillipis, MD, Columbia University, New York; and Mitchel Psotka, MD, PhD, Innova Heart and Vascular Institute, Falls Church, Va., in an editorial accompanying the study.

The data emphasize the importance of ensuring equal access to services such as telemedicine, virtual visits, home nursing visits, and remote monitoring, they noted.

“As the COVID-19 pandemic rages on and disproportionately ravages socioeconomically disadvantaged communities, we should focus our efforts on strategies that minimize these inequities,” the editorialists wrote.

Dr. Solomon noted that, although Black and Hispanic patients were overrepresented in the population of heart failure patients hospitalized with COVID-19, once in the hospital, race was not a predictor of in-hospital mortality or the need for mechanical ventilation.

Dr. Bhatt has received speaker fees from Sanofi Pasteur and is supported by a National Institutes of Health/National Heart, Lung, and Blood Institute postdoctoral training grant. Dr. Solomon has received grant support and/or speaking fees from a number of companies and from the NIH/NHLBI. The editorialists disclosed no relevant financial relationships.

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

The U.S. Food and Drug Administration has approved the first-ever generic glucagon injection kit for the treatment of severe hypoglycemia in patients with diabetes and as a diagnostic aid.

The FDA determined that Amphastar’s Glucagon for Injection Emergency Kit, 1 mg, a synthetic peptide product, is bioequivalent and therapeutically equivalent to Eli Lilly’s recombinant DNA Glucagon Emergency Kit for Low Blood Sugar.

Both require a multistep mixing process that means they are complicated to use.

In 2019, FDA approved two branded, easier-to-use formulations of glucagon – one nasally administered (Baqsimi, Eli Lilly & Co) and the other a prefilled pen or syringe (Gvoke HypoPen and Gvoke PFS, respectively, Xeris Pharmaceuticals).

The new generic will have the advantage of lower cost, Amphastar spokesman Dan Dischner said in an interview.

“Our generic glucagon will be priced as a generic product so that patients will benefit from a lower price. As we are just at the beginning of the commercialization of the product, we are unable to discuss our specific product price,” he wrote.

As with the branded Lilly injectable glucagon, the new generic is also indicated as a diagnostic aid in gastrointestinal radiologic imaging, as glucagon slows gastric motility.

According to an FDA statement, glucagon is a “complex product” that has been difficult to manufacture generically despite the lifting of patent protection. This approval was the result of the FDA’s efforts to encourage the development and submission of applications for such drugs.

Amphastar specializes in “developing, manufacturing, marketing, and selling technically-challenging generic and proprietary injectable, inhalation, and intranasal products,” the company website says.

Mr. Dischner said, “Glucagon is a complex product that requires R&D and manufacturing capabilities to develop a highly purified synthetic peptide product bioequivalent and therapeutically equivalent to the recombinant DNA origin Glucagon. Given that this product has been through various review cycles, its complexity, and the technological capabilities required to manufacture, it is no surprise that there hasn’t been a generic of glucagon until now.”

Side effects of injected glucagon include nausea, vomiting, transient increase in heart rate, and redness/swelling of the injection site.

Mr. Dischner added, “We are confident that our generic to Lilly’s time-tested glucagon will provide a favorable option, at a reasonable price, to patients who rely on this product.”

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

The U.S. Food and Drug Administration has approved the first-ever generic glucagon injection kit for the treatment of severe hypoglycemia in patients with diabetes and as a diagnostic aid.

The FDA determined that Amphastar’s Glucagon for Injection Emergency Kit, 1 mg, a synthetic peptide product, is bioequivalent and therapeutically equivalent to Eli Lilly’s recombinant DNA Glucagon Emergency Kit for Low Blood Sugar.

Both require a multistep mixing process that means they are complicated to use.

In 2019, FDA approved two branded, easier-to-use formulations of glucagon – one nasally administered (Baqsimi, Eli Lilly & Co) and the other a prefilled pen or syringe (Gvoke HypoPen and Gvoke PFS, respectively, Xeris Pharmaceuticals).

The new generic will have the advantage of lower cost, Amphastar spokesman Dan Dischner said in an interview.

“Our generic glucagon will be priced as a generic product so that patients will benefit from a lower price. As we are just at the beginning of the commercialization of the product, we are unable to discuss our specific product price,” he wrote.

As with the branded Lilly injectable glucagon, the new generic is also indicated as a diagnostic aid in gastrointestinal radiologic imaging, as glucagon slows gastric motility.

According to an FDA statement, glucagon is a “complex product” that has been difficult to manufacture generically despite the lifting of patent protection. This approval was the result of the FDA’s efforts to encourage the development and submission of applications for such drugs.

Amphastar specializes in “developing, manufacturing, marketing, and selling technically-challenging generic and proprietary injectable, inhalation, and intranasal products,” the company website says.

Mr. Dischner said, “Glucagon is a complex product that requires R&D and manufacturing capabilities to develop a highly purified synthetic peptide product bioequivalent and therapeutically equivalent to the recombinant DNA origin Glucagon. Given that this product has been through various review cycles, its complexity, and the technological capabilities required to manufacture, it is no surprise that there hasn’t been a generic of glucagon until now.”

Side effects of injected glucagon include nausea, vomiting, transient increase in heart rate, and redness/swelling of the injection site.

Mr. Dischner added, “We are confident that our generic to Lilly’s time-tested glucagon will provide a favorable option, at a reasonable price, to patients who rely on this product.”

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

The U.S. Food and Drug Administration has approved the first-ever generic glucagon injection kit for the treatment of severe hypoglycemia in patients with diabetes and as a diagnostic aid.

The FDA determined that Amphastar’s Glucagon for Injection Emergency Kit, 1 mg, a synthetic peptide product, is bioequivalent and therapeutically equivalent to Eli Lilly’s recombinant DNA Glucagon Emergency Kit for Low Blood Sugar.

Both require a multistep mixing process that means they are complicated to use.

In 2019, FDA approved two branded, easier-to-use formulations of glucagon – one nasally administered (Baqsimi, Eli Lilly & Co) and the other a prefilled pen or syringe (Gvoke HypoPen and Gvoke PFS, respectively, Xeris Pharmaceuticals).

The new generic will have the advantage of lower cost, Amphastar spokesman Dan Dischner said in an interview.

“Our generic glucagon will be priced as a generic product so that patients will benefit from a lower price. As we are just at the beginning of the commercialization of the product, we are unable to discuss our specific product price,” he wrote.

As with the branded Lilly injectable glucagon, the new generic is also indicated as a diagnostic aid in gastrointestinal radiologic imaging, as glucagon slows gastric motility.

According to an FDA statement, glucagon is a “complex product” that has been difficult to manufacture generically despite the lifting of patent protection. This approval was the result of the FDA’s efforts to encourage the development and submission of applications for such drugs.

Amphastar specializes in “developing, manufacturing, marketing, and selling technically-challenging generic and proprietary injectable, inhalation, and intranasal products,” the company website says.

Mr. Dischner said, “Glucagon is a complex product that requires R&D and manufacturing capabilities to develop a highly purified synthetic peptide product bioequivalent and therapeutically equivalent to the recombinant DNA origin Glucagon. Given that this product has been through various review cycles, its complexity, and the technological capabilities required to manufacture, it is no surprise that there hasn’t been a generic of glucagon until now.”

Side effects of injected glucagon include nausea, vomiting, transient increase in heart rate, and redness/swelling of the injection site.

Mr. Dischner added, “We are confident that our generic to Lilly’s time-tested glucagon will provide a favorable option, at a reasonable price, to patients who rely on this product.”

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

A scoring system based on 10 parameters in a complete blood count with differential within 3 days of hospital presentation predict those with COVID-19 who are most likely to progress to critical illness, new evidence shows.

Advantages include prognosis based on a common and inexpensive clinical measure, as well as automatic generation of the score along with CBC results, noted investigators in the observational study conducted throughout 11 European hospitals.

“COVID-19 comes along with specific alterations in circulating blood cells that can be detected by a routine hematology analyzer, especially when that hematology analyzer is also capable to recognize activated immune cells and early circulating blood cells, such as erythroblast and immature granulocytes,” senior author Andre van der Ven, MD, PhD, infectious diseases specialist and professor of international health at Radboud University Medical Center’s Center for Infectious Diseases in Nijmegen, the Netherlands, said in an interview.

Furthermore, Dr. van der Ven said, “these specific changes are also seen in the early course of COVID-19 disease, and more in those that will develop serious disease compared to those with mild disease.”

The study was published online Dec. 21 in the journal eLife.

The study is “almost instinctively correct. It’s basically what clinicians do informally with complete blood count … looking at a combination of results to get the gestalt of what patients are going through,” Samuel Reichberg, MD, PhD, associate medical director of the Northwell Health Core Laboratory in Lake Success, N.Y., said in an interview.

“This is something that begs to be done for COVID-19. I’m surprised no one has done this before,” he added.

Dr. Van der Ven and colleagues created an algorithm based on 1,587 CBC assays from 923 adults. They also validated the scoring system in a second cohort of 217 CBC measurements in 202 people. The findings were concordant – the score accurately predicted the need for critical care within 14 days in 70.5% of the development cohort and 72% of the validation group.

The scoring system was superior to any of the 10 parameters alone. Over 14 days, the majority of those classified as noncritical within the first 3 days remained clinically stable, whereas the “clinical illness” group progressed. Clinical severity peaked on day 6.

Most previous COVID-19 prognosis research was geographically limited, carried a high risk for bias and/or did not validate the findings, Dr. Van der Ven and colleagues noted.
 

Early identification, early intervention

The aim of the score is “to assist with objective risk stratification to support patient management decision-making early on, and thus facilitate timely interventions, such as need for ICU or not, before symptoms of severe illness become clinically overt, with the intention to improve patient outcomes, and not to predict mortality,” the investigators noted.

Dr. Van der Ven and colleagues developed the score based on adults presenting from Feb. 21 to April 6, with outcomes followed until June 9. Median age of the 982 patients was 71 years and approximately two-thirds were men. They used a Sysmex Europe XN-1000 (Hamburg, Germany) hemocytometric analyzer in the study.

Only 7% of this cohort was not admitted to a hospital. Another 74% were admitted to a general ward and the remaining 19% were transferred directly to the ICU.

The scoring system includes parameters for neutrophils, monocytes, red blood cells and immature granulocytes, and when available, reticulocyte and iron bioavailability measures.

The researchers report significant differences over time in the neutrophil-to-lymphocyte ratio between the critical illness and noncritical groups (P < .001), for example. They also found significant differences in hemoglobin levels between cohorts after day 5.

The system generates a score from 0 to 28. Sensitivity for correctly predicting the need for critical care increased from 62% on day 1 to 93% on day 6. 
 

A more objective assessment of risk

The study demonstrated that SARS-CoV-2 infection is characterized by hemocytometric changes over time. These changes, reflected together in the prognostic score, could aid in the early identification of patients whose clinical course is more likely to deteriorate over time.

The findings also support other work that shows men are more likely to present to the hospital with COVID-19, and that older age and presence of comorbidities add to overall risk. “However,” the researchers noted, “not all young patients had a mild course, and not all old patients with comorbidities were critical.”

Therefore, the prognostic score can help identify patients at risk for severe progression outside other risk factors and “support individualized treatment decisions with objective data,” they added.

Dr. Reichberg called the concept of combining CBC parameters into one score “very valuable.” However, he added that incorporating an index into clinical practice “has historically been tricky.”

The results “probably have to be replicated,” Dr. Reichberg said.

He added that it is likely a CBC-based score will be combined with other measures. “I would like to see an index that combines all the tests we do [for COVID-19], including complete blood count.”

Dr. Van der Ven shared the next step in his research. “The algorithm should be installed on the hematology analyzers so the prognostic score will be automatically generated if a full blood count is asked for in a COVID-19 patient,” he said. “So implementation of score is the main focus now.”

Dr. van der Ven disclosed an ad hoc consultancy agreement with Sysmex Europe. Sysmex Europe provided the reagents in the study free of charge; no other funders were involved. Dr. Reichberg has disclosed no relevant financial relationships.

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

A scoring system based on 10 parameters in a complete blood count with differential within 3 days of hospital presentation predict those with COVID-19 who are most likely to progress to critical illness, new evidence shows.

Advantages include prognosis based on a common and inexpensive clinical measure, as well as automatic generation of the score along with CBC results, noted investigators in the observational study conducted throughout 11 European hospitals.

“COVID-19 comes along with specific alterations in circulating blood cells that can be detected by a routine hematology analyzer, especially when that hematology analyzer is also capable to recognize activated immune cells and early circulating blood cells, such as erythroblast and immature granulocytes,” senior author Andre van der Ven, MD, PhD, infectious diseases specialist and professor of international health at Radboud University Medical Center’s Center for Infectious Diseases in Nijmegen, the Netherlands, said in an interview.

Furthermore, Dr. van der Ven said, “these specific changes are also seen in the early course of COVID-19 disease, and more in those that will develop serious disease compared to those with mild disease.”

The study was published online Dec. 21 in the journal eLife.

The study is “almost instinctively correct. It’s basically what clinicians do informally with complete blood count … looking at a combination of results to get the gestalt of what patients are going through,” Samuel Reichberg, MD, PhD, associate medical director of the Northwell Health Core Laboratory in Lake Success, N.Y., said in an interview.

“This is something that begs to be done for COVID-19. I’m surprised no one has done this before,” he added.

Dr. Van der Ven and colleagues created an algorithm based on 1,587 CBC assays from 923 adults. They also validated the scoring system in a second cohort of 217 CBC measurements in 202 people. The findings were concordant – the score accurately predicted the need for critical care within 14 days in 70.5% of the development cohort and 72% of the validation group.

The scoring system was superior to any of the 10 parameters alone. Over 14 days, the majority of those classified as noncritical within the first 3 days remained clinically stable, whereas the “clinical illness” group progressed. Clinical severity peaked on day 6.

Most previous COVID-19 prognosis research was geographically limited, carried a high risk for bias and/or did not validate the findings, Dr. Van der Ven and colleagues noted.
 

Early identification, early intervention

The aim of the score is “to assist with objective risk stratification to support patient management decision-making early on, and thus facilitate timely interventions, such as need for ICU or not, before symptoms of severe illness become clinically overt, with the intention to improve patient outcomes, and not to predict mortality,” the investigators noted.

Dr. Van der Ven and colleagues developed the score based on adults presenting from Feb. 21 to April 6, with outcomes followed until June 9. Median age of the 982 patients was 71 years and approximately two-thirds were men. They used a Sysmex Europe XN-1000 (Hamburg, Germany) hemocytometric analyzer in the study.

Only 7% of this cohort was not admitted to a hospital. Another 74% were admitted to a general ward and the remaining 19% were transferred directly to the ICU.

The scoring system includes parameters for neutrophils, monocytes, red blood cells and immature granulocytes, and when available, reticulocyte and iron bioavailability measures.

The researchers report significant differences over time in the neutrophil-to-lymphocyte ratio between the critical illness and noncritical groups (P < .001), for example. They also found significant differences in hemoglobin levels between cohorts after day 5.

The system generates a score from 0 to 28. Sensitivity for correctly predicting the need for critical care increased from 62% on day 1 to 93% on day 6. 
 

A more objective assessment of risk

The study demonstrated that SARS-CoV-2 infection is characterized by hemocytometric changes over time. These changes, reflected together in the prognostic score, could aid in the early identification of patients whose clinical course is more likely to deteriorate over time.

The findings also support other work that shows men are more likely to present to the hospital with COVID-19, and that older age and presence of comorbidities add to overall risk. “However,” the researchers noted, “not all young patients had a mild course, and not all old patients with comorbidities were critical.”

Therefore, the prognostic score can help identify patients at risk for severe progression outside other risk factors and “support individualized treatment decisions with objective data,” they added.

Dr. Reichberg called the concept of combining CBC parameters into one score “very valuable.” However, he added that incorporating an index into clinical practice “has historically been tricky.”

The results “probably have to be replicated,” Dr. Reichberg said.

He added that it is likely a CBC-based score will be combined with other measures. “I would like to see an index that combines all the tests we do [for COVID-19], including complete blood count.”

Dr. Van der Ven shared the next step in his research. “The algorithm should be installed on the hematology analyzers so the prognostic score will be automatically generated if a full blood count is asked for in a COVID-19 patient,” he said. “So implementation of score is the main focus now.”

Dr. van der Ven disclosed an ad hoc consultancy agreement with Sysmex Europe. Sysmex Europe provided the reagents in the study free of charge; no other funders were involved. Dr. Reichberg has disclosed no relevant financial relationships.

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

A scoring system based on 10 parameters in a complete blood count with differential within 3 days of hospital presentation predict those with COVID-19 who are most likely to progress to critical illness, new evidence shows.

Advantages include prognosis based on a common and inexpensive clinical measure, as well as automatic generation of the score along with CBC results, noted investigators in the observational study conducted throughout 11 European hospitals.

“COVID-19 comes along with specific alterations in circulating blood cells that can be detected by a routine hematology analyzer, especially when that hematology analyzer is also capable to recognize activated immune cells and early circulating blood cells, such as erythroblast and immature granulocytes,” senior author Andre van der Ven, MD, PhD, infectious diseases specialist and professor of international health at Radboud University Medical Center’s Center for Infectious Diseases in Nijmegen, the Netherlands, said in an interview.

Furthermore, Dr. van der Ven said, “these specific changes are also seen in the early course of COVID-19 disease, and more in those that will develop serious disease compared to those with mild disease.”

The study was published online Dec. 21 in the journal eLife.

The study is “almost instinctively correct. It’s basically what clinicians do informally with complete blood count … looking at a combination of results to get the gestalt of what patients are going through,” Samuel Reichberg, MD, PhD, associate medical director of the Northwell Health Core Laboratory in Lake Success, N.Y., said in an interview.

“This is something that begs to be done for COVID-19. I’m surprised no one has done this before,” he added.

Dr. Van der Ven and colleagues created an algorithm based on 1,587 CBC assays from 923 adults. They also validated the scoring system in a second cohort of 217 CBC measurements in 202 people. The findings were concordant – the score accurately predicted the need for critical care within 14 days in 70.5% of the development cohort and 72% of the validation group.

The scoring system was superior to any of the 10 parameters alone. Over 14 days, the majority of those classified as noncritical within the first 3 days remained clinically stable, whereas the “clinical illness” group progressed. Clinical severity peaked on day 6.

Most previous COVID-19 prognosis research was geographically limited, carried a high risk for bias and/or did not validate the findings, Dr. Van der Ven and colleagues noted.
 

Early identification, early intervention

The aim of the score is “to assist with objective risk stratification to support patient management decision-making early on, and thus facilitate timely interventions, such as need for ICU or not, before symptoms of severe illness become clinically overt, with the intention to improve patient outcomes, and not to predict mortality,” the investigators noted.

Dr. Van der Ven and colleagues developed the score based on adults presenting from Feb. 21 to April 6, with outcomes followed until June 9. Median age of the 982 patients was 71 years and approximately two-thirds were men. They used a Sysmex Europe XN-1000 (Hamburg, Germany) hemocytometric analyzer in the study.

Only 7% of this cohort was not admitted to a hospital. Another 74% were admitted to a general ward and the remaining 19% were transferred directly to the ICU.

The scoring system includes parameters for neutrophils, monocytes, red blood cells and immature granulocytes, and when available, reticulocyte and iron bioavailability measures.

The researchers report significant differences over time in the neutrophil-to-lymphocyte ratio between the critical illness and noncritical groups (P < .001), for example. They also found significant differences in hemoglobin levels between cohorts after day 5.

The system generates a score from 0 to 28. Sensitivity for correctly predicting the need for critical care increased from 62% on day 1 to 93% on day 6. 
 

A more objective assessment of risk

The study demonstrated that SARS-CoV-2 infection is characterized by hemocytometric changes over time. These changes, reflected together in the prognostic score, could aid in the early identification of patients whose clinical course is more likely to deteriorate over time.

The findings also support other work that shows men are more likely to present to the hospital with COVID-19, and that older age and presence of comorbidities add to overall risk. “However,” the researchers noted, “not all young patients had a mild course, and not all old patients with comorbidities were critical.”

Therefore, the prognostic score can help identify patients at risk for severe progression outside other risk factors and “support individualized treatment decisions with objective data,” they added.

Dr. Reichberg called the concept of combining CBC parameters into one score “very valuable.” However, he added that incorporating an index into clinical practice “has historically been tricky.”

The results “probably have to be replicated,” Dr. Reichberg said.

He added that it is likely a CBC-based score will be combined with other measures. “I would like to see an index that combines all the tests we do [for COVID-19], including complete blood count.”

Dr. Van der Ven shared the next step in his research. “The algorithm should be installed on the hematology analyzers so the prognostic score will be automatically generated if a full blood count is asked for in a COVID-19 patient,” he said. “So implementation of score is the main focus now.”

Dr. van der Ven disclosed an ad hoc consultancy agreement with Sysmex Europe. Sysmex Europe provided the reagents in the study free of charge; no other funders were involved. Dr. Reichberg has disclosed no relevant financial relationships.

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

The Department of Agriculture and the Department of Health & Human Services released new dietary guidelines Dec. 29 that for the first time include recommended dietary patterns for infants and toddlers.

LoveTheWind/iStock/Getty Images

Although the new guidelines were informed by an advisory committee’s scientific report, officials omitted certain recommendations that would have reduced allowances for added sugars and alcohol intake.

The 2020-2025 Dietary Guidelines for Americans “carried forward the committee’s emphasis on limiting these dietary components, but did not include changes to quantitative recommendations, as there was not a preponderance of evidence in the material the committee reviewed to support specific changes, as required by law,” the agencies said in a news release.

The guidelines encourage Americans to “Make Every Bite Count” through four overarching suggestions: 

• Follow a healthy dietary pattern at every life stage.
• Customize nutrient-dense food and beverage choices to reflect preferences, cultural traditions, and budgets.
• Focus on meeting dietary needs from five food groups – vegetables, fruits, grains, dairy and fortified soy alternatives, and proteins – and stay within calorie limits.
• Limit foods and beverages that are higher in added sugars, saturated fat, and sodium, and limit alcoholic beverages.

The guidance “can help all Americans lead healthier lives by making every bite count,” Secretary of Agriculture Sonny Perdue said.
 

Proposed cutoffs rejected

The guidelines omit a recommendation from the advisory committee’s scientific report to reduce intake of added sugars from less than 10% of calories to less than 6% of calories.

It also omits a recommendation that men and women who drink alcohol limit themselves to one drink per day. It maintains guidance from the 2015-2020 edition that allows two drinks per day for men.

The agencies published a document explaining why they omitted the advisory committee›s conclusions.

The American Heart Association in July had praised the suggestion to reduce added sugars. The proposed change would have helped “steer the public toward a more heart-healthy path in their daily diets,” Mitchell S.V. Elkind, MD, president of the AHA, said at the time. The association would “strongly oppose any efforts to weaken these recommendations,” he added.

In its response to the new guidelines, Dr. Elkind praised the emphasis on a healthy diet “at every life stage” but called out a missed opportunity.

“We are disappointed that USDA and HHS did not accept all of the Dietary Guidelines Advisory Committee’s science-based recommendations in the final guidelines for 2020, including the recommendation to lower added sugars consumption to less than 6% of calories,” he said in a prepared statement.
 

Guidance for infants and toddlers

The guidelines advise that for about the first 6 months of life, infants should exclusively receive breast milk. Infants should continue to receive breast milk through at least the first year of life, and longer if desired. Infants should be fed iron-fortified infant formula during the first year of life when breast milk is unavailable, and infants should receive supplemental vitamin D soon after birth, the guidelines advise. 

At about 6 months, infants should be introduced to a variety of nutrient-dense complementary foods, including potentially allergenic foods. Infants should eat foods that are rich in iron and zinc, particularly if they are fed breast milk. 

The guidelines also include dietary and caloric advice for pregnant and lactating women with daily or weekly amounts of food from different groups and subgroups.

Dr. Elkind highlighted the significance of these additions.

“We are pleased that for the first time, the guidelines provide recommendations for pregnant and breastfeeding women as well as infants and toddlers, underscoring the importance of maternal health and proper nutrition across the lifespan,” he said.
 

For all ages

From 12 months through older adulthood, people should follow a healthy dietary pattern to meet nutrient needs, help achieve a healthy body weight, and reduce the risk of chronic disease.

According to the guidelines, core elements of a healthy diet include:

• Vegetables of all types (dark green; red and orange; beans, peas, and lentils; starchy; and other types).
• Fruits (especially whole fruit).
• Grains, at least half of which are whole grain. 
• Dairy, including fat-free or low-fat milk, yogurt, and cheese, and lactose-free versions; and fortified soy beverages and yogurt as alternatives.
• Protein foods, including lean meats, poultry, and eggs; seafood; beans, peas, and lentils; and nuts, seeds, and soy products.
• Oils, including vegetable oils and oils in food, such as seafood and nuts.

The guidelines spell out limits to added sugars, sodium, saturated fat, and alcohol. The recommendation to limit added sugars to less than 10% of calories per day starts at age 2 years. Before age 2, foods and beverages with added sugars should be avoided.

Saturated fat should be limited to less than 10% of calories per day starting at age 2. And sodium intake should be limited to 2,300 mg/day for those age 14 and older, but just 1,200 mg/day for toddlers, 1,500 mg/day for children aged 4-8, and 1,800 mg/day for children 9-13.

“Adults of legal drinking age can choose not to drink or to drink in moderation by limiting intake to 2 drinks or less in a day for men and 1 drink or less in a day for women, when alcohol is consumed,” the agencies said. “Drinking less is better for health than drinking more. There are some adults who should not drink alcohol, such as women who are pregnant.”

An appendix includes estimated calorie needs based on a person’s age, sex, height, weight, and level of physical activity. A need to lose, maintain, or gain weight are among the factors that influence how many calories should be consumed, the guidelines note.

The guidelines are designed for use by health care professionals and policymakers. The USDA has launched a new MyPlate website to help consumers incorporate the dietary guidance.

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

The Department of Agriculture and the Department of Health & Human Services released new dietary guidelines Dec. 29 that for the first time include recommended dietary patterns for infants and toddlers.

LoveTheWind/iStock/Getty Images

Although the new guidelines were informed by an advisory committee’s scientific report, officials omitted certain recommendations that would have reduced allowances for added sugars and alcohol intake.

The 2020-2025 Dietary Guidelines for Americans “carried forward the committee’s emphasis on limiting these dietary components, but did not include changes to quantitative recommendations, as there was not a preponderance of evidence in the material the committee reviewed to support specific changes, as required by law,” the agencies said in a news release.

The guidelines encourage Americans to “Make Every Bite Count” through four overarching suggestions: 

• Follow a healthy dietary pattern at every life stage.
• Customize nutrient-dense food and beverage choices to reflect preferences, cultural traditions, and budgets.
• Focus on meeting dietary needs from five food groups – vegetables, fruits, grains, dairy and fortified soy alternatives, and proteins – and stay within calorie limits.
• Limit foods and beverages that are higher in added sugars, saturated fat, and sodium, and limit alcoholic beverages.

The guidance “can help all Americans lead healthier lives by making every bite count,” Secretary of Agriculture Sonny Perdue said.
 

Proposed cutoffs rejected

The guidelines omit a recommendation from the advisory committee’s scientific report to reduce intake of added sugars from less than 10% of calories to less than 6% of calories.

It also omits a recommendation that men and women who drink alcohol limit themselves to one drink per day. It maintains guidance from the 2015-2020 edition that allows two drinks per day for men.

The agencies published a document explaining why they omitted the advisory committee›s conclusions.

The American Heart Association in July had praised the suggestion to reduce added sugars. The proposed change would have helped “steer the public toward a more heart-healthy path in their daily diets,” Mitchell S.V. Elkind, MD, president of the AHA, said at the time. The association would “strongly oppose any efforts to weaken these recommendations,” he added.

In its response to the new guidelines, Dr. Elkind praised the emphasis on a healthy diet “at every life stage” but called out a missed opportunity.

“We are disappointed that USDA and HHS did not accept all of the Dietary Guidelines Advisory Committee’s science-based recommendations in the final guidelines for 2020, including the recommendation to lower added sugars consumption to less than 6% of calories,” he said in a prepared statement.
 

Guidance for infants and toddlers

The guidelines advise that for about the first 6 months of life, infants should exclusively receive breast milk. Infants should continue to receive breast milk through at least the first year of life, and longer if desired. Infants should be fed iron-fortified infant formula during the first year of life when breast milk is unavailable, and infants should receive supplemental vitamin D soon after birth, the guidelines advise. 

At about 6 months, infants should be introduced to a variety of nutrient-dense complementary foods, including potentially allergenic foods. Infants should eat foods that are rich in iron and zinc, particularly if they are fed breast milk. 

The guidelines also include dietary and caloric advice for pregnant and lactating women with daily or weekly amounts of food from different groups and subgroups.

Dr. Elkind highlighted the significance of these additions.

“We are pleased that for the first time, the guidelines provide recommendations for pregnant and breastfeeding women as well as infants and toddlers, underscoring the importance of maternal health and proper nutrition across the lifespan,” he said.
 

For all ages

From 12 months through older adulthood, people should follow a healthy dietary pattern to meet nutrient needs, help achieve a healthy body weight, and reduce the risk of chronic disease.

According to the guidelines, core elements of a healthy diet include:

• Vegetables of all types (dark green; red and orange; beans, peas, and lentils; starchy; and other types).
• Fruits (especially whole fruit).
• Grains, at least half of which are whole grain. 
• Dairy, including fat-free or low-fat milk, yogurt, and cheese, and lactose-free versions; and fortified soy beverages and yogurt as alternatives.
• Protein foods, including lean meats, poultry, and eggs; seafood; beans, peas, and lentils; and nuts, seeds, and soy products.
• Oils, including vegetable oils and oils in food, such as seafood and nuts.

The guidelines spell out limits to added sugars, sodium, saturated fat, and alcohol. The recommendation to limit added sugars to less than 10% of calories per day starts at age 2 years. Before age 2, foods and beverages with added sugars should be avoided.

Saturated fat should be limited to less than 10% of calories per day starting at age 2. And sodium intake should be limited to 2,300 mg/day for those age 14 and older, but just 1,200 mg/day for toddlers, 1,500 mg/day for children aged 4-8, and 1,800 mg/day for children 9-13.

“Adults of legal drinking age can choose not to drink or to drink in moderation by limiting intake to 2 drinks or less in a day for men and 1 drink or less in a day for women, when alcohol is consumed,” the agencies said. “Drinking less is better for health than drinking more. There are some adults who should not drink alcohol, such as women who are pregnant.”

An appendix includes estimated calorie needs based on a person’s age, sex, height, weight, and level of physical activity. A need to lose, maintain, or gain weight are among the factors that influence how many calories should be consumed, the guidelines note.

The guidelines are designed for use by health care professionals and policymakers. The USDA has launched a new MyPlate website to help consumers incorporate the dietary guidance.

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

The Department of Agriculture and the Department of Health & Human Services released new dietary guidelines Dec. 29 that for the first time include recommended dietary patterns for infants and toddlers.

LoveTheWind/iStock/Getty Images

Although the new guidelines were informed by an advisory committee’s scientific report, officials omitted certain recommendations that would have reduced allowances for added sugars and alcohol intake.

The 2020-2025 Dietary Guidelines for Americans “carried forward the committee’s emphasis on limiting these dietary components, but did not include changes to quantitative recommendations, as there was not a preponderance of evidence in the material the committee reviewed to support specific changes, as required by law,” the agencies said in a news release.

The guidelines encourage Americans to “Make Every Bite Count” through four overarching suggestions: 

• Follow a healthy dietary pattern at every life stage.
• Customize nutrient-dense food and beverage choices to reflect preferences, cultural traditions, and budgets.
• Focus on meeting dietary needs from five food groups – vegetables, fruits, grains, dairy and fortified soy alternatives, and proteins – and stay within calorie limits.
• Limit foods and beverages that are higher in added sugars, saturated fat, and sodium, and limit alcoholic beverages.

The guidance “can help all Americans lead healthier lives by making every bite count,” Secretary of Agriculture Sonny Perdue said.
 

Proposed cutoffs rejected

The guidelines omit a recommendation from the advisory committee’s scientific report to reduce intake of added sugars from less than 10% of calories to less than 6% of calories.

It also omits a recommendation that men and women who drink alcohol limit themselves to one drink per day. It maintains guidance from the 2015-2020 edition that allows two drinks per day for men.

The agencies published a document explaining why they omitted the advisory committee›s conclusions.

The American Heart Association in July had praised the suggestion to reduce added sugars. The proposed change would have helped “steer the public toward a more heart-healthy path in their daily diets,” Mitchell S.V. Elkind, MD, president of the AHA, said at the time. The association would “strongly oppose any efforts to weaken these recommendations,” he added.

In its response to the new guidelines, Dr. Elkind praised the emphasis on a healthy diet “at every life stage” but called out a missed opportunity.

“We are disappointed that USDA and HHS did not accept all of the Dietary Guidelines Advisory Committee’s science-based recommendations in the final guidelines for 2020, including the recommendation to lower added sugars consumption to less than 6% of calories,” he said in a prepared statement.
 

Guidance for infants and toddlers

The guidelines advise that for about the first 6 months of life, infants should exclusively receive breast milk. Infants should continue to receive breast milk through at least the first year of life, and longer if desired. Infants should be fed iron-fortified infant formula during the first year of life when breast milk is unavailable, and infants should receive supplemental vitamin D soon after birth, the guidelines advise. 

At about 6 months, infants should be introduced to a variety of nutrient-dense complementary foods, including potentially allergenic foods. Infants should eat foods that are rich in iron and zinc, particularly if they are fed breast milk. 

The guidelines also include dietary and caloric advice for pregnant and lactating women with daily or weekly amounts of food from different groups and subgroups.

Dr. Elkind highlighted the significance of these additions.

“We are pleased that for the first time, the guidelines provide recommendations for pregnant and breastfeeding women as well as infants and toddlers, underscoring the importance of maternal health and proper nutrition across the lifespan,” he said.
 

For all ages

From 12 months through older adulthood, people should follow a healthy dietary pattern to meet nutrient needs, help achieve a healthy body weight, and reduce the risk of chronic disease.

According to the guidelines, core elements of a healthy diet include:

• Vegetables of all types (dark green; red and orange; beans, peas, and lentils; starchy; and other types).
• Fruits (especially whole fruit).
• Grains, at least half of which are whole grain. 
• Dairy, including fat-free or low-fat milk, yogurt, and cheese, and lactose-free versions; and fortified soy beverages and yogurt as alternatives.
• Protein foods, including lean meats, poultry, and eggs; seafood; beans, peas, and lentils; and nuts, seeds, and soy products.
• Oils, including vegetable oils and oils in food, such as seafood and nuts.

The guidelines spell out limits to added sugars, sodium, saturated fat, and alcohol. The recommendation to limit added sugars to less than 10% of calories per day starts at age 2 years. Before age 2, foods and beverages with added sugars should be avoided.

Saturated fat should be limited to less than 10% of calories per day starting at age 2. And sodium intake should be limited to 2,300 mg/day for those age 14 and older, but just 1,200 mg/day for toddlers, 1,500 mg/day for children aged 4-8, and 1,800 mg/day for children 9-13.

“Adults of legal drinking age can choose not to drink or to drink in moderation by limiting intake to 2 drinks or less in a day for men and 1 drink or less in a day for women, when alcohol is consumed,” the agencies said. “Drinking less is better for health than drinking more. There are some adults who should not drink alcohol, such as women who are pregnant.”

An appendix includes estimated calorie needs based on a person’s age, sex, height, weight, and level of physical activity. A need to lose, maintain, or gain weight are among the factors that influence how many calories should be consumed, the guidelines note.

The guidelines are designed for use by health care professionals and policymakers. The USDA has launched a new MyPlate website to help consumers incorporate the dietary guidance.

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

The Centers for Disease Control and Prevention has issued updated guidance for people with underlying medical conditions who are considering getting the coronavirus vaccine.

scyther5/thinkstock

“Adults of any age with certain underlying medical conditions are at increased risk for severe illness from the virus that causes COVID-19,” the CDC said in the guidance, posted on Dec. 26. “mRNA COVID-19 vaccines may be administered to people with underlying medical conditions provided they have not had a severe allergic reaction to any of the ingredients in the vaccine.” 

Both the Pfizer and Moderna vaccines use mRNA, or messenger RNA.

The CDC guidance had specific information for people with HIV, weakened immune systems, and autoimmune conditions such as Guillain-Barré syndrome (GBS) and Bell’s palsy who are thinking of getting the vaccine.

People with HIV and weakened immune systems “may receive a COVID-19 vaccine. However, they should be aware of the limited safety data,” the CDC said.

There’s no information available yet about the safety of the vaccines for people with weakened immune systems. People with HIV were included in clinical trials, but “safety data specific to this group are not yet available at this time,” the CDC said.

Cases of Bell’s palsy, a temporary facial paralysis, were reported in people receiving the Pfizer and Moderna vaccines in clinical trials, the Food and Drug Administration said Dec. 17. 

But the new CDC guidance said that the FDA “does not consider these to be above the rate expected in the general population. They have not concluded these cases were caused by vaccination. Therefore, persons who have previously had Bell’s palsy may receive an mRNA COVID-19 vaccine.”

Researchers have determined the vaccines are safe for people with GBS, a rare autoimmune disorder in which the body’s immune system attacks nerves just as they leave the spinal cord, the CDC said.

“To date, no cases of GBS have been reported following vaccination among participants in the mRNA COVID-19 vaccine clinical trials,” the CDC guidance said. “With few exceptions, the independent Advisory Committee on Immunization Practices general best practice guidelines for immunization do not include a history of GBS as a precaution to vaccination with other vaccines.”

For months, the CDC and other health authorities have said that people with certain medical conditions are at an increased risk of developing severe cases of COVID-19.

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

The Centers for Disease Control and Prevention has issued updated guidance for people with underlying medical conditions who are considering getting the coronavirus vaccine.

scyther5/thinkstock

“Adults of any age with certain underlying medical conditions are at increased risk for severe illness from the virus that causes COVID-19,” the CDC said in the guidance, posted on Dec. 26. “mRNA COVID-19 vaccines may be administered to people with underlying medical conditions provided they have not had a severe allergic reaction to any of the ingredients in the vaccine.” 

Both the Pfizer and Moderna vaccines use mRNA, or messenger RNA.

The CDC guidance had specific information for people with HIV, weakened immune systems, and autoimmune conditions such as Guillain-Barré syndrome (GBS) and Bell’s palsy who are thinking of getting the vaccine.

People with HIV and weakened immune systems “may receive a COVID-19 vaccine. However, they should be aware of the limited safety data,” the CDC said.

There’s no information available yet about the safety of the vaccines for people with weakened immune systems. People with HIV were included in clinical trials, but “safety data specific to this group are not yet available at this time,” the CDC said.

Cases of Bell’s palsy, a temporary facial paralysis, were reported in people receiving the Pfizer and Moderna vaccines in clinical trials, the Food and Drug Administration said Dec. 17. 

But the new CDC guidance said that the FDA “does not consider these to be above the rate expected in the general population. They have not concluded these cases were caused by vaccination. Therefore, persons who have previously had Bell’s palsy may receive an mRNA COVID-19 vaccine.”

Researchers have determined the vaccines are safe for people with GBS, a rare autoimmune disorder in which the body’s immune system attacks nerves just as they leave the spinal cord, the CDC said.

“To date, no cases of GBS have been reported following vaccination among participants in the mRNA COVID-19 vaccine clinical trials,” the CDC guidance said. “With few exceptions, the independent Advisory Committee on Immunization Practices general best practice guidelines for immunization do not include a history of GBS as a precaution to vaccination with other vaccines.”

For months, the CDC and other health authorities have said that people with certain medical conditions are at an increased risk of developing severe cases of COVID-19.

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

The Centers for Disease Control and Prevention has issued updated guidance for people with underlying medical conditions who are considering getting the coronavirus vaccine.

scyther5/thinkstock

“Adults of any age with certain underlying medical conditions are at increased risk for severe illness from the virus that causes COVID-19,” the CDC said in the guidance, posted on Dec. 26. “mRNA COVID-19 vaccines may be administered to people with underlying medical conditions provided they have not had a severe allergic reaction to any of the ingredients in the vaccine.” 

Both the Pfizer and Moderna vaccines use mRNA, or messenger RNA.

The CDC guidance had specific information for people with HIV, weakened immune systems, and autoimmune conditions such as Guillain-Barré syndrome (GBS) and Bell’s palsy who are thinking of getting the vaccine.

People with HIV and weakened immune systems “may receive a COVID-19 vaccine. However, they should be aware of the limited safety data,” the CDC said.

There’s no information available yet about the safety of the vaccines for people with weakened immune systems. People with HIV were included in clinical trials, but “safety data specific to this group are not yet available at this time,” the CDC said.

Cases of Bell’s palsy, a temporary facial paralysis, were reported in people receiving the Pfizer and Moderna vaccines in clinical trials, the Food and Drug Administration said Dec. 17. 

But the new CDC guidance said that the FDA “does not consider these to be above the rate expected in the general population. They have not concluded these cases were caused by vaccination. Therefore, persons who have previously had Bell’s palsy may receive an mRNA COVID-19 vaccine.”

Researchers have determined the vaccines are safe for people with GBS, a rare autoimmune disorder in which the body’s immune system attacks nerves just as they leave the spinal cord, the CDC said.

“To date, no cases of GBS have been reported following vaccination among participants in the mRNA COVID-19 vaccine clinical trials,” the CDC guidance said. “With few exceptions, the independent Advisory Committee on Immunization Practices general best practice guidelines for immunization do not include a history of GBS as a precaution to vaccination with other vaccines.”

For months, the CDC and other health authorities have said that people with certain medical conditions are at an increased risk of developing severe cases of COVID-19.

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

The COVID-19 pandemic has meant delays in cancer screening, diagnosis, and treatment — and a new study shows just how deadly delaying cancer treatment can be.

The study found evidence that longer time to starting treatment after diagnosis was generally associated with higher mortality across several common cancers, most notably for colon and early-stage lung cancer.

“There is a limit to how long we can safely defer treatment for cancer therapies, pandemic or not, which may be shorter than we think,” lead author Eugene Cone, MD, Combined Harvard Program in Urologic Oncology, Massachusetts General Hospital and Brigham & Women’s Hospital, Boston, told Medscape Medical News.

“When you consider that cancer screening may have been delayed during the pandemic, which would further increase the period between developing a disease and getting therapy, timely treatment for cancer has never been more important,” Cone added.

The study was published online December 14 in JAMA Network Open.
 

The sooner the better

Using the National Cancer Database, Cone and colleagues identified roughly 2.24 million patients diagnosed with nonmetastatic breast (52%), prostate (38%), colon (4%) and non-small cell lung cancer (NSCLC, 6%) between 2004 and 2015. Treatment and outcome data were analyzed from January to March 2020.

The time-to-treatment initiation (TTI) – the interval between cancer diagnosis and receipt of curative-intent therapy – was categorized as 8 to 60 days (reference), 61 to 120 days, 121 to 180 days, and 181 to 365 days. Median TTI was 32 days for breast, 79 days for prostate, 41 days for NSCLC, and 26 days for colon cancer.

All four cancers benefitted to some degree from a short interval between diagnosis and therapy, the researchers found.

Across all four cancers, increasing TTI was generally associated with higher predicted mortality at 5 and 10 years, although the degree varied by cancer type and stage. The most pronounced association between increasing TTI and mortality was observed for colon and lung cancer.

For example, for stage III colon cancer, 5- and 10-year predicted mortality was 38.9% and 54%, respectively, with TTI of 61 to 120 days, and increased to 47.8% and 63.8%, respectively, with TTI of 181 to 365 days.

Each additional 60-day delay was associated with a 3.2% to 6% increase in 5-year mortality for stage III colon cancer and a 0.9% to 4.6% increase for stage I colon cancer, with a longer 10-year time horizon showing larger effect sizes with increasing TTI.

For stage I NSCLC, 5- and 10-year predicted mortality was 47.4% and 72.6%, respectively, with TTI of 61 to 120 days compared with 47.6% and 72.8%, respectively, with TTI of 181 to 365 days.  

For stage I NSCLC, there was a 4% to 6.2% absolute increase in 5-year mortality for increased TTI groups compared with the 8- to 60-day reference group, with larger effect sizes on 10-year mortality. The data precluded conclusions about stage II NSCLC.

“For prostate cancer, deferral of treatment by even a few months was associated with a significant impact on mortality,” Cone told Medscape Medical News.

For high-risk prostate cancer, 5- and 10-year predicted mortality was 12.8% and 31.2%, respectively, with TTI of 61-120 days increasing to 14.1% and 33.8%, respectively with TTI at 181-365 days.

For intermediate-risk prostate cancer, 5- and 10-year predicted mortality was 7.4% and 20.4% with TTI of 61-120 days vs 8.3% and 22.6% with TTI at 181-365 days.

The data show all-cause mortality differences of 2.2% at 5 years and 4.6% at 10 years between high-risk prostate cancer patients who were treated expeditiously vs those waiting 4 to 6 months and differences of 0.9% at 5 years and 2.4% at 10 years for similar intermediate-risk patients.
 

No surprises

Turning to breast cancer, increased TTI was associated with the most negative survival effects for stage II and III breast cancer.

For stage II breast cancer, for example, 5- and 10-year predicted mortality was 17.7% and 30.5%, respectively, with TTI of 61-120 days vs 21.7% and 36.5% with TTI at 181-365 days. 

Even for stage I breast cancer patients, there were significant differences in all-cause mortality with delayed definitive therapy, although the effect size is clinically small, the researchers report.

Patients with stage IA or IB breast cancer who were not treated until 61 to 120 days after diagnosis had 1.3% and 2.3% increased mortality at 5 years and 10 years, respectively, and those waiting longer suffered even greater increases in mortality. “As such, our analysis underscores the importance of timely definitive treatment, even for stage I breast cancer,” the authors write.

Charles Shapiro, MD, director of translational breast cancer research for the Mount Sinai Health System, New York City, was not surprised by the data.

The observation that delays in initiating cancer treatment are associated with worse survival is “not new, as delays in primary surgical treatments and chemotherapy for early-stage disease is an adverse prognostic factor for clinical outcomes,” Shapiro told Medscape Medical News.

“The bottom line is primary surgery and the start of chemotherapy should probably occur as soon as clinically feasible,” said Shapiro, who was not involved in the study.

The authors of an accompanying editorial agree. 

This study supports avoiding unnecessary treatment delays and prioritizing timely cancer care, even during the COVID-19 pandemic, write Laura Van Metre Baum, MD, Division of Hematology and Oncology, Vanderbilt University, Nashville, Tennessee, and colleagues.

They note, however, that primary care, “the most important conduit for cancer screening and initial evaluation of new symptoms, has been the hardest hit economically and the most subject to profound disruption and restructuring during the current COVID-19 pandemic.

“In many centers, cancer care delivery has been disrupted and nonstandard therapies offered in an effort to minimize exposure of this high-risk group to the virus. The implications in appropriately balancing the urgency of cancer care and the threat of COVID-19 exposure in the pandemic are more complex,” the editorialists conclude.

Cone, Shapiro, and Van Metre Baum have disclosed no relevant financial relationships. This work won first prize in the Commission on Cancer 2020 Cancer Research Paper Competition and was virtually presented at the Commission on Cancer Plenary Session on October 30, 2020.

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

The COVID-19 pandemic has meant delays in cancer screening, diagnosis, and treatment — and a new study shows just how deadly delaying cancer treatment can be.

The study found evidence that longer time to starting treatment after diagnosis was generally associated with higher mortality across several common cancers, most notably for colon and early-stage lung cancer.

“There is a limit to how long we can safely defer treatment for cancer therapies, pandemic or not, which may be shorter than we think,” lead author Eugene Cone, MD, Combined Harvard Program in Urologic Oncology, Massachusetts General Hospital and Brigham & Women’s Hospital, Boston, told Medscape Medical News.

“When you consider that cancer screening may have been delayed during the pandemic, which would further increase the period between developing a disease and getting therapy, timely treatment for cancer has never been more important,” Cone added.

The study was published online December 14 in JAMA Network Open.
 

The sooner the better

Using the National Cancer Database, Cone and colleagues identified roughly 2.24 million patients diagnosed with nonmetastatic breast (52%), prostate (38%), colon (4%) and non-small cell lung cancer (NSCLC, 6%) between 2004 and 2015. Treatment and outcome data were analyzed from January to March 2020.

The time-to-treatment initiation (TTI) – the interval between cancer diagnosis and receipt of curative-intent therapy – was categorized as 8 to 60 days (reference), 61 to 120 days, 121 to 180 days, and 181 to 365 days. Median TTI was 32 days for breast, 79 days for prostate, 41 days for NSCLC, and 26 days for colon cancer.

All four cancers benefitted to some degree from a short interval between diagnosis and therapy, the researchers found.

Across all four cancers, increasing TTI was generally associated with higher predicted mortality at 5 and 10 years, although the degree varied by cancer type and stage. The most pronounced association between increasing TTI and mortality was observed for colon and lung cancer.

For example, for stage III colon cancer, 5- and 10-year predicted mortality was 38.9% and 54%, respectively, with TTI of 61 to 120 days, and increased to 47.8% and 63.8%, respectively, with TTI of 181 to 365 days.

Each additional 60-day delay was associated with a 3.2% to 6% increase in 5-year mortality for stage III colon cancer and a 0.9% to 4.6% increase for stage I colon cancer, with a longer 10-year time horizon showing larger effect sizes with increasing TTI.

For stage I NSCLC, 5- and 10-year predicted mortality was 47.4% and 72.6%, respectively, with TTI of 61 to 120 days compared with 47.6% and 72.8%, respectively, with TTI of 181 to 365 days.  

For stage I NSCLC, there was a 4% to 6.2% absolute increase in 5-year mortality for increased TTI groups compared with the 8- to 60-day reference group, with larger effect sizes on 10-year mortality. The data precluded conclusions about stage II NSCLC.

“For prostate cancer, deferral of treatment by even a few months was associated with a significant impact on mortality,” Cone told Medscape Medical News.

For high-risk prostate cancer, 5- and 10-year predicted mortality was 12.8% and 31.2%, respectively, with TTI of 61-120 days increasing to 14.1% and 33.8%, respectively with TTI at 181-365 days.

For intermediate-risk prostate cancer, 5- and 10-year predicted mortality was 7.4% and 20.4% with TTI of 61-120 days vs 8.3% and 22.6% with TTI at 181-365 days.

The data show all-cause mortality differences of 2.2% at 5 years and 4.6% at 10 years between high-risk prostate cancer patients who were treated expeditiously vs those waiting 4 to 6 months and differences of 0.9% at 5 years and 2.4% at 10 years for similar intermediate-risk patients.
 

No surprises

Turning to breast cancer, increased TTI was associated with the most negative survival effects for stage II and III breast cancer.

For stage II breast cancer, for example, 5- and 10-year predicted mortality was 17.7% and 30.5%, respectively, with TTI of 61-120 days vs 21.7% and 36.5% with TTI at 181-365 days. 

Even for stage I breast cancer patients, there were significant differences in all-cause mortality with delayed definitive therapy, although the effect size is clinically small, the researchers report.

Patients with stage IA or IB breast cancer who were not treated until 61 to 120 days after diagnosis had 1.3% and 2.3% increased mortality at 5 years and 10 years, respectively, and those waiting longer suffered even greater increases in mortality. “As such, our analysis underscores the importance of timely definitive treatment, even for stage I breast cancer,” the authors write.

Charles Shapiro, MD, director of translational breast cancer research for the Mount Sinai Health System, New York City, was not surprised by the data.

The observation that delays in initiating cancer treatment are associated with worse survival is “not new, as delays in primary surgical treatments and chemotherapy for early-stage disease is an adverse prognostic factor for clinical outcomes,” Shapiro told Medscape Medical News.

“The bottom line is primary surgery and the start of chemotherapy should probably occur as soon as clinically feasible,” said Shapiro, who was not involved in the study.

The authors of an accompanying editorial agree. 

This study supports avoiding unnecessary treatment delays and prioritizing timely cancer care, even during the COVID-19 pandemic, write Laura Van Metre Baum, MD, Division of Hematology and Oncology, Vanderbilt University, Nashville, Tennessee, and colleagues.

They note, however, that primary care, “the most important conduit for cancer screening and initial evaluation of new symptoms, has been the hardest hit economically and the most subject to profound disruption and restructuring during the current COVID-19 pandemic.

“In many centers, cancer care delivery has been disrupted and nonstandard therapies offered in an effort to minimize exposure of this high-risk group to the virus. The implications in appropriately balancing the urgency of cancer care and the threat of COVID-19 exposure in the pandemic are more complex,” the editorialists conclude.

Cone, Shapiro, and Van Metre Baum have disclosed no relevant financial relationships. This work won first prize in the Commission on Cancer 2020 Cancer Research Paper Competition and was virtually presented at the Commission on Cancer Plenary Session on October 30, 2020.

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

The COVID-19 pandemic has meant delays in cancer screening, diagnosis, and treatment — and a new study shows just how deadly delaying cancer treatment can be.

The study found evidence that longer time to starting treatment after diagnosis was generally associated with higher mortality across several common cancers, most notably for colon and early-stage lung cancer.

“There is a limit to how long we can safely defer treatment for cancer therapies, pandemic or not, which may be shorter than we think,” lead author Eugene Cone, MD, Combined Harvard Program in Urologic Oncology, Massachusetts General Hospital and Brigham & Women’s Hospital, Boston, told Medscape Medical News.

“When you consider that cancer screening may have been delayed during the pandemic, which would further increase the period between developing a disease and getting therapy, timely treatment for cancer has never been more important,” Cone added.

The study was published online December 14 in JAMA Network Open.
 

The sooner the better

Using the National Cancer Database, Cone and colleagues identified roughly 2.24 million patients diagnosed with nonmetastatic breast (52%), prostate (38%), colon (4%) and non-small cell lung cancer (NSCLC, 6%) between 2004 and 2015. Treatment and outcome data were analyzed from January to March 2020.

The time-to-treatment initiation (TTI) – the interval between cancer diagnosis and receipt of curative-intent therapy – was categorized as 8 to 60 days (reference), 61 to 120 days, 121 to 180 days, and 181 to 365 days. Median TTI was 32 days for breast, 79 days for prostate, 41 days for NSCLC, and 26 days for colon cancer.

All four cancers benefitted to some degree from a short interval between diagnosis and therapy, the researchers found.

Across all four cancers, increasing TTI was generally associated with higher predicted mortality at 5 and 10 years, although the degree varied by cancer type and stage. The most pronounced association between increasing TTI and mortality was observed for colon and lung cancer.

For example, for stage III colon cancer, 5- and 10-year predicted mortality was 38.9% and 54%, respectively, with TTI of 61 to 120 days, and increased to 47.8% and 63.8%, respectively, with TTI of 181 to 365 days.

Each additional 60-day delay was associated with a 3.2% to 6% increase in 5-year mortality for stage III colon cancer and a 0.9% to 4.6% increase for stage I colon cancer, with a longer 10-year time horizon showing larger effect sizes with increasing TTI.

For stage I NSCLC, 5- and 10-year predicted mortality was 47.4% and 72.6%, respectively, with TTI of 61 to 120 days compared with 47.6% and 72.8%, respectively, with TTI of 181 to 365 days.  

For stage I NSCLC, there was a 4% to 6.2% absolute increase in 5-year mortality for increased TTI groups compared with the 8- to 60-day reference group, with larger effect sizes on 10-year mortality. The data precluded conclusions about stage II NSCLC.

“For prostate cancer, deferral of treatment by even a few months was associated with a significant impact on mortality,” Cone told Medscape Medical News.

For high-risk prostate cancer, 5- and 10-year predicted mortality was 12.8% and 31.2%, respectively, with TTI of 61-120 days increasing to 14.1% and 33.8%, respectively with TTI at 181-365 days.

For intermediate-risk prostate cancer, 5- and 10-year predicted mortality was 7.4% and 20.4% with TTI of 61-120 days vs 8.3% and 22.6% with TTI at 181-365 days.

The data show all-cause mortality differences of 2.2% at 5 years and 4.6% at 10 years between high-risk prostate cancer patients who were treated expeditiously vs those waiting 4 to 6 months and differences of 0.9% at 5 years and 2.4% at 10 years for similar intermediate-risk patients.
 

No surprises

Turning to breast cancer, increased TTI was associated with the most negative survival effects for stage II and III breast cancer.

For stage II breast cancer, for example, 5- and 10-year predicted mortality was 17.7% and 30.5%, respectively, with TTI of 61-120 days vs 21.7% and 36.5% with TTI at 181-365 days. 

Even for stage I breast cancer patients, there were significant differences in all-cause mortality with delayed definitive therapy, although the effect size is clinically small, the researchers report.

Patients with stage IA or IB breast cancer who were not treated until 61 to 120 days after diagnosis had 1.3% and 2.3% increased mortality at 5 years and 10 years, respectively, and those waiting longer suffered even greater increases in mortality. “As such, our analysis underscores the importance of timely definitive treatment, even for stage I breast cancer,” the authors write.

Charles Shapiro, MD, director of translational breast cancer research for the Mount Sinai Health System, New York City, was not surprised by the data.

The observation that delays in initiating cancer treatment are associated with worse survival is “not new, as delays in primary surgical treatments and chemotherapy for early-stage disease is an adverse prognostic factor for clinical outcomes,” Shapiro told Medscape Medical News.

“The bottom line is primary surgery and the start of chemotherapy should probably occur as soon as clinically feasible,” said Shapiro, who was not involved in the study.

The authors of an accompanying editorial agree. 

This study supports avoiding unnecessary treatment delays and prioritizing timely cancer care, even during the COVID-19 pandemic, write Laura Van Metre Baum, MD, Division of Hematology and Oncology, Vanderbilt University, Nashville, Tennessee, and colleagues.

They note, however, that primary care, “the most important conduit for cancer screening and initial evaluation of new symptoms, has been the hardest hit economically and the most subject to profound disruption and restructuring during the current COVID-19 pandemic.

“In many centers, cancer care delivery has been disrupted and nonstandard therapies offered in an effort to minimize exposure of this high-risk group to the virus. The implications in appropriately balancing the urgency of cancer care and the threat of COVID-19 exposure in the pandemic are more complex,” the editorialists conclude.

Cone, Shapiro, and Van Metre Baum have disclosed no relevant financial relationships. This work won first prize in the Commission on Cancer 2020 Cancer Research Paper Competition and was virtually presented at the Commission on Cancer Plenary Session on October 30, 2020.

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

Everywhere they look within hospitals, researchers find RNA from SARS-CoV-2 in the air. But viable viruses typically are found only close to patients, according to a review of published studies.

The finding supports recommendations to use surgical masks in most parts of the hospital, reserving respirators (such as N95 or FFP2) for aerosol-generating procedures on patients’ respiratory tracts, said Gabriel Birgand, PhD, an infectious disease researcher at Imperial College London.

“When the virus is spreading a lot in the community, it’s probably more likely for you to be contaminated in your friends’ areas or in your building than in your work area, where you are well equipped and compliant with all the measures,” he said in an interview. “So it’s pretty good news.”

The systematic review by Dr. Birgand and colleagues was published in JAMA Network Open.

Recommended precautions to protect health care workers from SARS-CoV-2 infections remain controversial. Most authorities believe droplets are the primary route of transmission, which would mean surgical masks may be sufficient protection. But some research has suggested transmission by aerosols as well, making N95 respirators seem necessary. There is even disagreement about the definitions of the words “aerosol” and “droplet.”

To better understand where traces of the virus can be found in the air in hospitals, Dr. Birgand and colleagues analyzed all the studies they could find on the subject in English.

They identified 24 articles with original data. All of the studies used reverse transcription–polymerase chain reaction (PCR) tests to identify SARS-CoV-2 RNA. In five studies, attempts were also made to culture viable viruses. Three studies assessed the particle size relative to RNA concentration or viral titer.

Of 893 air samples across the 24 studies, 52.7% were taken from areas close to patients, 26.5% were taken in clinical areas, 13.7% in staff areas, 4.7% in public areas, and 2.4% in toilets or bathrooms.

Among those studies that quantified RNA, the median interquartile range of concentrations varied from 1.0 x 103 copies/m3 in clinical areas to 9.7 x 10³ copies/m³ in toilets or bathrooms.

One study found an RNA concentration of 2.0 x 10³ copies for particle sizes >4 mcm and 1.3 x 103 copies/m³ for particle sizes ≤4 mcm, both in patients’ rooms.

Three studies included viral cultures; of those, two resulted in positive cultures, both in a non-ICU setting. In one study, 3 of 39 samples were positive, and in the other, 4 of 4 were positive. Viral cultures in toilets, clinical areas, staff areas, and public areas were negative.

One of these studies assessed viral concentration and found that the median interquartile range was 4.8 tissue culture infectious dose (TCID50)/m³ for particles <1 mcm, 4.27 TCID50/m³ for particles 1-4 mcm, and 1.82 TCID50/m³ for particles >4 mcm.

Although viable viruses weren’t found in staff areas, the presence of viral RNA in places such as dining rooms and meeting rooms raises a concern, Dr. Birgand said.

“All of these staff areas are probably playing an important role in contamination,” he said. “It’s pretty easy to see when you are dining, you are not wearing a face mask, and it’s associated with a strong risk when there is a strong dissemination of the virus in the community.”

Studies on contact tracing among health care workers have also identified meeting rooms and dining rooms as the second most common source of infection after community contact, he said.

In general, the findings of the review correspond to epidemiologic studies, said Angela Rasmussen, PhD, a virologist with the Georgetown University Center for Global Health Science and Security, Washington, who was not involved in the review. “Absent aerosol-generating procedures, health care workers are largely not getting infected when they take droplet precautions.”

One reason may be that patients shed the most infectious viruses a couple of days before and after symptoms begin. By the time they’re hospitalized, they’re less likely to be contagious but may continue to shed viral RNA.

“We don’t really know the basis for the persistence of RNA being produced long after people have been infected and have recovered from the acute infection,” she said, “but it has been observed quite frequently.”

Although the virus cannot remain viable for very long in the air, remnants may still be detected in the form of RNA, Dr. Rasmussen said. In addition, hospitals often do a good job of ventilation.

She pointed out that it can be difficult to cultivate viruses in air samples because of contaminants such as bacteria and fungi. “That’s one of the limitations of a study like this. You’re not really sure if it’s because there’s no viable virus there or because you just aren’t able to collect samples that would allow you to determine that.”

Dr. Birgand and colleagues acknowledged other limitations. The studies they reviewed used different approaches to sampling. Different procedures may have been underway in the rooms being sampled, and factors such as temperature and humidity could have affected the results. In addition, the studies used different cycle thresholds for PCR positivity.

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

Everywhere they look within hospitals, researchers find RNA from SARS-CoV-2 in the air. But viable viruses typically are found only close to patients, according to a review of published studies.

The finding supports recommendations to use surgical masks in most parts of the hospital, reserving respirators (such as N95 or FFP2) for aerosol-generating procedures on patients’ respiratory tracts, said Gabriel Birgand, PhD, an infectious disease researcher at Imperial College London.

“When the virus is spreading a lot in the community, it’s probably more likely for you to be contaminated in your friends’ areas or in your building than in your work area, where you are well equipped and compliant with all the measures,” he said in an interview. “So it’s pretty good news.”

The systematic review by Dr. Birgand and colleagues was published in JAMA Network Open.

Recommended precautions to protect health care workers from SARS-CoV-2 infections remain controversial. Most authorities believe droplets are the primary route of transmission, which would mean surgical masks may be sufficient protection. But some research has suggested transmission by aerosols as well, making N95 respirators seem necessary. There is even disagreement about the definitions of the words “aerosol” and “droplet.”

To better understand where traces of the virus can be found in the air in hospitals, Dr. Birgand and colleagues analyzed all the studies they could find on the subject in English.

They identified 24 articles with original data. All of the studies used reverse transcription–polymerase chain reaction (PCR) tests to identify SARS-CoV-2 RNA. In five studies, attempts were also made to culture viable viruses. Three studies assessed the particle size relative to RNA concentration or viral titer.

Of 893 air samples across the 24 studies, 52.7% were taken from areas close to patients, 26.5% were taken in clinical areas, 13.7% in staff areas, 4.7% in public areas, and 2.4% in toilets or bathrooms.

Among those studies that quantified RNA, the median interquartile range of concentrations varied from 1.0 x 103 copies/m3 in clinical areas to 9.7 x 10³ copies/m³ in toilets or bathrooms.

One study found an RNA concentration of 2.0 x 10³ copies for particle sizes >4 mcm and 1.3 x 103 copies/m³ for particle sizes ≤4 mcm, both in patients’ rooms.

Three studies included viral cultures; of those, two resulted in positive cultures, both in a non-ICU setting. In one study, 3 of 39 samples were positive, and in the other, 4 of 4 were positive. Viral cultures in toilets, clinical areas, staff areas, and public areas were negative.

One of these studies assessed viral concentration and found that the median interquartile range was 4.8 tissue culture infectious dose (TCID50)/m³ for particles <1 mcm, 4.27 TCID50/m³ for particles 1-4 mcm, and 1.82 TCID50/m³ for particles >4 mcm.

Although viable viruses weren’t found in staff areas, the presence of viral RNA in places such as dining rooms and meeting rooms raises a concern, Dr. Birgand said.

“All of these staff areas are probably playing an important role in contamination,” he said. “It’s pretty easy to see when you are dining, you are not wearing a face mask, and it’s associated with a strong risk when there is a strong dissemination of the virus in the community.”

Studies on contact tracing among health care workers have also identified meeting rooms and dining rooms as the second most common source of infection after community contact, he said.

In general, the findings of the review correspond to epidemiologic studies, said Angela Rasmussen, PhD, a virologist with the Georgetown University Center for Global Health Science and Security, Washington, who was not involved in the review. “Absent aerosol-generating procedures, health care workers are largely not getting infected when they take droplet precautions.”

One reason may be that patients shed the most infectious viruses a couple of days before and after symptoms begin. By the time they’re hospitalized, they’re less likely to be contagious but may continue to shed viral RNA.

“We don’t really know the basis for the persistence of RNA being produced long after people have been infected and have recovered from the acute infection,” she said, “but it has been observed quite frequently.”

Although the virus cannot remain viable for very long in the air, remnants may still be detected in the form of RNA, Dr. Rasmussen said. In addition, hospitals often do a good job of ventilation.

She pointed out that it can be difficult to cultivate viruses in air samples because of contaminants such as bacteria and fungi. “That’s one of the limitations of a study like this. You’re not really sure if it’s because there’s no viable virus there or because you just aren’t able to collect samples that would allow you to determine that.”

Dr. Birgand and colleagues acknowledged other limitations. The studies they reviewed used different approaches to sampling. Different procedures may have been underway in the rooms being sampled, and factors such as temperature and humidity could have affected the results. In addition, the studies used different cycle thresholds for PCR positivity.

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

Everywhere they look within hospitals, researchers find RNA from SARS-CoV-2 in the air. But viable viruses typically are found only close to patients, according to a review of published studies.

The finding supports recommendations to use surgical masks in most parts of the hospital, reserving respirators (such as N95 or FFP2) for aerosol-generating procedures on patients’ respiratory tracts, said Gabriel Birgand, PhD, an infectious disease researcher at Imperial College London.

“When the virus is spreading a lot in the community, it’s probably more likely for you to be contaminated in your friends’ areas or in your building than in your work area, where you are well equipped and compliant with all the measures,” he said in an interview. “So it’s pretty good news.”

The systematic review by Dr. Birgand and colleagues was published in JAMA Network Open.

Recommended precautions to protect health care workers from SARS-CoV-2 infections remain controversial. Most authorities believe droplets are the primary route of transmission, which would mean surgical masks may be sufficient protection. But some research has suggested transmission by aerosols as well, making N95 respirators seem necessary. There is even disagreement about the definitions of the words “aerosol” and “droplet.”

To better understand where traces of the virus can be found in the air in hospitals, Dr. Birgand and colleagues analyzed all the studies they could find on the subject in English.

They identified 24 articles with original data. All of the studies used reverse transcription–polymerase chain reaction (PCR) tests to identify SARS-CoV-2 RNA. In five studies, attempts were also made to culture viable viruses. Three studies assessed the particle size relative to RNA concentration or viral titer.

Of 893 air samples across the 24 studies, 52.7% were taken from areas close to patients, 26.5% were taken in clinical areas, 13.7% in staff areas, 4.7% in public areas, and 2.4% in toilets or bathrooms.

Among those studies that quantified RNA, the median interquartile range of concentrations varied from 1.0 x 103 copies/m3 in clinical areas to 9.7 x 10³ copies/m³ in toilets or bathrooms.

One study found an RNA concentration of 2.0 x 10³ copies for particle sizes >4 mcm and 1.3 x 103 copies/m³ for particle sizes ≤4 mcm, both in patients’ rooms.

Three studies included viral cultures; of those, two resulted in positive cultures, both in a non-ICU setting. In one study, 3 of 39 samples were positive, and in the other, 4 of 4 were positive. Viral cultures in toilets, clinical areas, staff areas, and public areas were negative.

One of these studies assessed viral concentration and found that the median interquartile range was 4.8 tissue culture infectious dose (TCID50)/m³ for particles <1 mcm, 4.27 TCID50/m³ for particles 1-4 mcm, and 1.82 TCID50/m³ for particles >4 mcm.

Although viable viruses weren’t found in staff areas, the presence of viral RNA in places such as dining rooms and meeting rooms raises a concern, Dr. Birgand said.

“All of these staff areas are probably playing an important role in contamination,” he said. “It’s pretty easy to see when you are dining, you are not wearing a face mask, and it’s associated with a strong risk when there is a strong dissemination of the virus in the community.”

Studies on contact tracing among health care workers have also identified meeting rooms and dining rooms as the second most common source of infection after community contact, he said.

In general, the findings of the review correspond to epidemiologic studies, said Angela Rasmussen, PhD, a virologist with the Georgetown University Center for Global Health Science and Security, Washington, who was not involved in the review. “Absent aerosol-generating procedures, health care workers are largely not getting infected when they take droplet precautions.”

One reason may be that patients shed the most infectious viruses a couple of days before and after symptoms begin. By the time they’re hospitalized, they’re less likely to be contagious but may continue to shed viral RNA.

“We don’t really know the basis for the persistence of RNA being produced long after people have been infected and have recovered from the acute infection,” she said, “but it has been observed quite frequently.”

Although the virus cannot remain viable for very long in the air, remnants may still be detected in the form of RNA, Dr. Rasmussen said. In addition, hospitals often do a good job of ventilation.

She pointed out that it can be difficult to cultivate viruses in air samples because of contaminants such as bacteria and fungi. “That’s one of the limitations of a study like this. You’re not really sure if it’s because there’s no viable virus there or because you just aren’t able to collect samples that would allow you to determine that.”

Dr. Birgand and colleagues acknowledged other limitations. The studies they reviewed used different approaches to sampling. Different procedures may have been underway in the rooms being sampled, and factors such as temperature and humidity could have affected the results. In addition, the studies used different cycle thresholds for PCR positivity.

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

A physician assistant participating in a virtual workshop began to cry, confessing that she felt overwhelmed with guilt because New Yorkers were hailing her as a frontline hero in the pandemic. That was when Joe Ciavarro knew he was in the right place.

rclassenlayouts/Getty Images

“She was saying all the things I could not verbalize because I, too, didn’t feel like I deserved all this praise and thousands of people cheering for us every evening when people were losing jobs, didn’t have money for food, and their loved ones were dying without family at their side,” says Mr. Ciavarro, a PA at Mount Sinai Medical Center in New York.

Mr. Ciavarro, who also manages 170 other PAs on two of Mount Sinai’s campuses in Manhattan, has been on the front lines since COVID-19 first hit; he lost a colleague and friend to suicide in September.

The mental anguish from his job prompted him to sign up for the resilience workshop offered by Mount Sinai’s Center for Stress, Resilience, and Personal Growth. The center – the first of its kind in North America – was launched in June to help health care workers like him cope with the intense psychological pressures they were facing. The weekly workshops became a safe place where Mr. Ciavarro and other staff members could share their darkest fears and learn ways to help them deal with their situation.

“It’s been grueling but we learned how to take care of ourselves so we can take care of our patients,” said Mr. Ciavarro. “This has become like a guided group therapy session on ways to manage and develop resilience. And I feel like my emotions are validated, knowing that others feel the same way.”
 

Caring for their own

Medical professionals treating patients with COVID-19 are in similar predicaments, and the psychological fallout is enormous: They’re exhausted by the seemingly never-ending patient load and staffing shortages, and haunted by fears for their own safety and that of their families. Studies in China, Canada, and Italy have revealed that a significant number of doctors and nurses in the early days of the pandemic experienced high levels of distress, depression, anxiety, nightmares, and insomnia.

Trauma experts at Mount Sinai believe that, globally, up to 40% of first responders and health care workers – tens of thousands of people – will suffer from PTSD after witnessing the deaths of so many patients who were alone, without family.

How to protect in midst of trauma

In formulating the program’s platform, Mount Sinai experts drew upon their extensive experience aiding 9/11 responders at the World Trade Center (WTC), as well as their system-wide wellness program that aids demoralized and burned-out physicians. While the reach of the pandemic is much broader than 9/11, experts see some commonalities in conditions that emerge after traumatic events, and they also discovered what can help.

“We learned from our WTC experience about what are protective factors – what are the social supports that buffer against depression, anxiety, and PTSD,” said Jonathan DePierro, PhD, clinical director of CSRPG and a psychologist at the Mount Sinai WTC Mental Health Program. “We also learned that people who have more prolonged exposures are at greater risk of developing mental health difficulties.”

The program itself reflects these lessons – and that’s why it’s open to all employees, not just medical professionals. Housekeepers, security staffers, even construction workers are also dealing with their lives being in danger. “That wasn’t in their job description,” said Dr. DePierro. “These people tend to have fewer social and economic resources, make less money and have fewer structural supports, which makes them even more vulnerable.”

Dr. Charney’s strategies on building resilience became a bible of sorts for the workshops, according to Dr. Katz, who authored the training curriculum. Sessions deal with how to build up reservoirs of realistic optimism, keep gratitude journals, find spiritual meaning in their lives, maintain physical wellness and create networks of social support. The workshops are meant to help participants create action plans, to reach out for support in their social networks, and keep the focus on the positives.

The goal is to give demoralized health care workers a renewed sense of competence. “The resilience workshop is a launching point to get people to show up and talk,” said Dr. Katz. “And if we do that, we’ve accomplished a lot just getting people in the door.”

The center will also have a research component to identify what works and what doesn’t so their platform can provide a template for other institutions; Dr. Marin said they’ve gotten inquiries about the program from major hospital systems in Michigan and California. They’ll also conduct longitudinal research to determine what lingering problems persist among healthcare workers over time.

Since the center opened its virtual doors, the curriculum has also been altered in response to feedback from the support staff, many of whom live in the community that surrounds Mount Sinai in northern Manhattan, which is largely lower-income Latinx and Black individuals. Workshop materials have been translated into Spanish and now feature people who reflect a more diverse set of experiences.

“Many of our employees and the population we serve identify as non-White so we’ve been doing outreach with a lot of the local unions,” said Dr. Marin. “Our next step is to take what we’re doing and work with local community organizations.”

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

A physician assistant participating in a virtual workshop began to cry, confessing that she felt overwhelmed with guilt because New Yorkers were hailing her as a frontline hero in the pandemic. That was when Joe Ciavarro knew he was in the right place.

rclassenlayouts/Getty Images

“She was saying all the things I could not verbalize because I, too, didn’t feel like I deserved all this praise and thousands of people cheering for us every evening when people were losing jobs, didn’t have money for food, and their loved ones were dying without family at their side,” says Mr. Ciavarro, a PA at Mount Sinai Medical Center in New York.

Mr. Ciavarro, who also manages 170 other PAs on two of Mount Sinai’s campuses in Manhattan, has been on the front lines since COVID-19 first hit; he lost a colleague and friend to suicide in September.

The mental anguish from his job prompted him to sign up for the resilience workshop offered by Mount Sinai’s Center for Stress, Resilience, and Personal Growth. The center – the first of its kind in North America – was launched in June to help health care workers like him cope with the intense psychological pressures they were facing. The weekly workshops became a safe place where Mr. Ciavarro and other staff members could share their darkest fears and learn ways to help them deal with their situation.

“It’s been grueling but we learned how to take care of ourselves so we can take care of our patients,” said Mr. Ciavarro. “This has become like a guided group therapy session on ways to manage and develop resilience. And I feel like my emotions are validated, knowing that others feel the same way.”
 

Caring for their own

Medical professionals treating patients with COVID-19 are in similar predicaments, and the psychological fallout is enormous: They’re exhausted by the seemingly never-ending patient load and staffing shortages, and haunted by fears for their own safety and that of their families. Studies in China, Canada, and Italy have revealed that a significant number of doctors and nurses in the early days of the pandemic experienced high levels of distress, depression, anxiety, nightmares, and insomnia.

Trauma experts at Mount Sinai believe that, globally, up to 40% of first responders and health care workers – tens of thousands of people – will suffer from PTSD after witnessing the deaths of so many patients who were alone, without family.

How to protect in midst of trauma

In formulating the program’s platform, Mount Sinai experts drew upon their extensive experience aiding 9/11 responders at the World Trade Center (WTC), as well as their system-wide wellness program that aids demoralized and burned-out physicians. While the reach of the pandemic is much broader than 9/11, experts see some commonalities in conditions that emerge after traumatic events, and they also discovered what can help.

“We learned from our WTC experience about what are protective factors – what are the social supports that buffer against depression, anxiety, and PTSD,” said Jonathan DePierro, PhD, clinical director of CSRPG and a psychologist at the Mount Sinai WTC Mental Health Program. “We also learned that people who have more prolonged exposures are at greater risk of developing mental health difficulties.”

The program itself reflects these lessons – and that’s why it’s open to all employees, not just medical professionals. Housekeepers, security staffers, even construction workers are also dealing with their lives being in danger. “That wasn’t in their job description,” said Dr. DePierro. “These people tend to have fewer social and economic resources, make less money and have fewer structural supports, which makes them even more vulnerable.”

Dr. Charney’s strategies on building resilience became a bible of sorts for the workshops, according to Dr. Katz, who authored the training curriculum. Sessions deal with how to build up reservoirs of realistic optimism, keep gratitude journals, find spiritual meaning in their lives, maintain physical wellness and create networks of social support. The workshops are meant to help participants create action plans, to reach out for support in their social networks, and keep the focus on the positives.

The goal is to give demoralized health care workers a renewed sense of competence. “The resilience workshop is a launching point to get people to show up and talk,” said Dr. Katz. “And if we do that, we’ve accomplished a lot just getting people in the door.”

The center will also have a research component to identify what works and what doesn’t so their platform can provide a template for other institutions; Dr. Marin said they’ve gotten inquiries about the program from major hospital systems in Michigan and California. They’ll also conduct longitudinal research to determine what lingering problems persist among healthcare workers over time.

Since the center opened its virtual doors, the curriculum has also been altered in response to feedback from the support staff, many of whom live in the community that surrounds Mount Sinai in northern Manhattan, which is largely lower-income Latinx and Black individuals. Workshop materials have been translated into Spanish and now feature people who reflect a more diverse set of experiences.

“Many of our employees and the population we serve identify as non-White so we’ve been doing outreach with a lot of the local unions,” said Dr. Marin. “Our next step is to take what we’re doing and work with local community organizations.”

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

A physician assistant participating in a virtual workshop began to cry, confessing that she felt overwhelmed with guilt because New Yorkers were hailing her as a frontline hero in the pandemic. That was when Joe Ciavarro knew he was in the right place.

rclassenlayouts/Getty Images

“She was saying all the things I could not verbalize because I, too, didn’t feel like I deserved all this praise and thousands of people cheering for us every evening when people were losing jobs, didn’t have money for food, and their loved ones were dying without family at their side,” says Mr. Ciavarro, a PA at Mount Sinai Medical Center in New York.

Mr. Ciavarro, who also manages 170 other PAs on two of Mount Sinai’s campuses in Manhattan, has been on the front lines since COVID-19 first hit; he lost a colleague and friend to suicide in September.

The mental anguish from his job prompted him to sign up for the resilience workshop offered by Mount Sinai’s Center for Stress, Resilience, and Personal Growth. The center – the first of its kind in North America – was launched in June to help health care workers like him cope with the intense psychological pressures they were facing. The weekly workshops became a safe place where Mr. Ciavarro and other staff members could share their darkest fears and learn ways to help them deal with their situation.

“It’s been grueling but we learned how to take care of ourselves so we can take care of our patients,” said Mr. Ciavarro. “This has become like a guided group therapy session on ways to manage and develop resilience. And I feel like my emotions are validated, knowing that others feel the same way.”
 

Caring for their own

Medical professionals treating patients with COVID-19 are in similar predicaments, and the psychological fallout is enormous: They’re exhausted by the seemingly never-ending patient load and staffing shortages, and haunted by fears for their own safety and that of their families. Studies in China, Canada, and Italy have revealed that a significant number of doctors and nurses in the early days of the pandemic experienced high levels of distress, depression, anxiety, nightmares, and insomnia.

Trauma experts at Mount Sinai believe that, globally, up to 40% of first responders and health care workers – tens of thousands of people – will suffer from PTSD after witnessing the deaths of so many patients who were alone, without family.

How to protect in midst of trauma

In formulating the program’s platform, Mount Sinai experts drew upon their extensive experience aiding 9/11 responders at the World Trade Center (WTC), as well as their system-wide wellness program that aids demoralized and burned-out physicians. While the reach of the pandemic is much broader than 9/11, experts see some commonalities in conditions that emerge after traumatic events, and they also discovered what can help.

“We learned from our WTC experience about what are protective factors – what are the social supports that buffer against depression, anxiety, and PTSD,” said Jonathan DePierro, PhD, clinical director of CSRPG and a psychologist at the Mount Sinai WTC Mental Health Program. “We also learned that people who have more prolonged exposures are at greater risk of developing mental health difficulties.”

The program itself reflects these lessons – and that’s why it’s open to all employees, not just medical professionals. Housekeepers, security staffers, even construction workers are also dealing with their lives being in danger. “That wasn’t in their job description,” said Dr. DePierro. “These people tend to have fewer social and economic resources, make less money and have fewer structural supports, which makes them even more vulnerable.”

Dr. Charney’s strategies on building resilience became a bible of sorts for the workshops, according to Dr. Katz, who authored the training curriculum. Sessions deal with how to build up reservoirs of realistic optimism, keep gratitude journals, find spiritual meaning in their lives, maintain physical wellness and create networks of social support. The workshops are meant to help participants create action plans, to reach out for support in their social networks, and keep the focus on the positives.

The goal is to give demoralized health care workers a renewed sense of competence. “The resilience workshop is a launching point to get people to show up and talk,” said Dr. Katz. “And if we do that, we’ve accomplished a lot just getting people in the door.”

The center will also have a research component to identify what works and what doesn’t so their platform can provide a template for other institutions; Dr. Marin said they’ve gotten inquiries about the program from major hospital systems in Michigan and California. They’ll also conduct longitudinal research to determine what lingering problems persist among healthcare workers over time.

Since the center opened its virtual doors, the curriculum has also been altered in response to feedback from the support staff, many of whom live in the community that surrounds Mount Sinai in northern Manhattan, which is largely lower-income Latinx and Black individuals. Workshop materials have been translated into Spanish and now feature people who reflect a more diverse set of experiences.

“Many of our employees and the population we serve identify as non-White so we’ve been doing outreach with a lot of the local unions,” said Dr. Marin. “Our next step is to take what we’re doing and work with local community organizations.”

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

An intense and assertive “won’t take no for an answer” approach is effective for engaging in treatment young adults with substance abuse who have been in and out of various recovery programs for years, new research suggests.

The Youth Opioid Recovery Support (YORS) program is a team effort that includes home delivery of the prescribed medication, family engagement, assertive outreach, and contingency management.

In a new study of 42 patients in recovery for substance use disorder (SUD), those who were treated with extended-release naltrexone or extended-release buprenorphine plus YORS received more outpatient doses of their medication, and rates of opioid relapse at 12 and 24 weeks were lower compared with their peers who received only treatment as usual.

“These developmentally vulnerable youths need something extra that is specifically targeted to who they are and their vulnerabilities,” coinvestigator Marc Fishman, MD, director of the Maryland Treatment Centers, Johns Hopkins University, Baltimore, said in an interview.

The findings were presented at the virtual American Academy of Addiction Psychiatry 31st Annual Meeting.
 

Treatment barriers

Young adults with SUD are difficult to reach, which leads to decreased addiction program retention, decreased medication adherence, early drop out, waxing and waning motivation, and worse outcomes, compared with older adults with SUD, Dr. Fishman said.

In July, positive results from a pilot trial conducted by the investigators of YORS were published online in Addiction.

In that study, 41 young adults aged 18-26 years who intended to undergo treatment for SUD with extended-release naltrexone were randomly assigned to also undergo YORS or treatment as usual, which consisted of a standard referral to outpatient care following an inpatient stay.

The primary outcomes were number of medication doses received over 24 weeks and relapse to opioid use, which was defined as 10 or more days of use within 28 days at 24 weeks.

Participants in the YORS group received more doses of extended-release naltrexone (mean, 4.28; standard deviation, 2.3) than participants in the treatment-as-usual group (mean, 0.70; SD, 1.2; P < .01).

In the YORS group, rates of relapse at both 12 and 24 weeks were lower, and there were fewer overall days of opioid use.

For the current study, the investigators wanted to test whether there was a possible effect when patients were given a choice of medication. In the earlier trial, patients did not have a choice – they had to take extended-release naltrexone. In this study, they could opt for it or extended-release buprenorphine.

The researchers recruited 22 young adults (aged 18-26 years) from their inpatient clinic to participate. Half the patients chose to take extended-release naltrexone, and the other half chose extended-release buprenorphine.

The groups were then compared to a historical group of 20 patients who received treatment as usual and served as the control group.
 

Positive outcomes

As in the first study, outcomes in the new study were better with YORS.

All participants who underwent YORS received more outpatient medication doses at 12 weeks and 24 weeks than those who received treatment as usual (1.91 vs. 0.40 and 3.76 vs. 0.70, respectively; P < .001).

For the YORS group, rates of opioid relapse were lower at 12 weeks (27.3% vs. 75.0%) and at 24 weeks (52.9% vs. 95.0%; P < .01.)

All components of YORS work together to improve retention, Dr. Fishman noted. Patients do much better if a relative such as a mother, father, or grandmother is closely involved, he added.

Also important is drug delivery.

“In some ways, this is similar to the assertive community treatment, or ACT, for schizophrenia. Like substance use disorder, schizophrenia requires long-acting injectable antipsychotics. When that is delivered to the patient through an organized delivery service like YORS, it improves outcomes,” said Dr. Fishman.

SUD is a chronic, relapsing illness in which an individual’s judgment is impaired, he added.

“ACT has become a relatively standard feature of treatment in most communities in this country and internationally and is sustainable under public sector funding, so it’s not an impossible leap to say it could be done. But it will not be cheap,” Dr. Fishman said.
 

Removing barriers

In a comment, Serra Akyar, MD, a psychiatry resident at Northwell Health’s Staten Island University Hospital, New York, said that the YORS program may appear to be labor intensive.

“However, the combination of medication-assisted treatment and support are essential to the treatment of opioid use disorder, especially for young adults. Developing effective interventions for young adults is particularly important, given the plasticity of their brains,” said Dr. Akyar, who was not involved with the research.

Inability to access medication and a lack of a supportive environment, both in everyday life and in regards to therapy, are barriers to successful treatment, she noted.

“The YORS intervention aims to remove these barriers to further enhance engagement to care through a combination of medication delivery and family engagement and assertive outreach via text messaging, a modality presumed to be well received by youth,” Dr. Akyar said.

Despite having a limited sample size, the study shows how a comprehensive intervention can have a large impact on the maintenance of medication adherence and reduction of relapse in young adults, she added.

“Its early success is encouraging and warrants further study on a larger scale to determine long-term effectiveness, overall costs and feasibility, generalizability, and whether certain independent factors exist that may predict medication adherence and reduction of relapse,” she said.
 

Wraparound support

The study is also a significant reminder that the opioid crisis has affected the young adult population, who are very vulnerable to OUD, said Jose Vito, MD, child, adolescent, and addiction psychiatrist at New York University.

“The study made me realize the importance of the four components of YORS, which were the outreach, family involvement, home delivery, and monetary incentives,” Dr. Vito said in an interview.

All of these components, in addition to extended-release naltrexone or extended-release buprenorphine, “have contributed to lower rates of opioid relapse, and the relapses are much later in the course of treatment if they do occur,” he said.

Overall, the findings demonstrate the importance of not giving up on these youths, he noted.

“Programs like YORS that provide wraparound support can help alleviate the opioid health care crisis by keeping these young adults in treatment,” Dr. Vito concluded.

The study was funded by the University of Maryland Center for Addiction Research, Education, and Service. Dr. Fishman has a financial relationship with Alkermes.

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

An intense and assertive “won’t take no for an answer” approach is effective for engaging in treatment young adults with substance abuse who have been in and out of various recovery programs for years, new research suggests.

The Youth Opioid Recovery Support (YORS) program is a team effort that includes home delivery of the prescribed medication, family engagement, assertive outreach, and contingency management.

In a new study of 42 patients in recovery for substance use disorder (SUD), those who were treated with extended-release naltrexone or extended-release buprenorphine plus YORS received more outpatient doses of their medication, and rates of opioid relapse at 12 and 24 weeks were lower compared with their peers who received only treatment as usual.

“These developmentally vulnerable youths need something extra that is specifically targeted to who they are and their vulnerabilities,” coinvestigator Marc Fishman, MD, director of the Maryland Treatment Centers, Johns Hopkins University, Baltimore, said in an interview.

The findings were presented at the virtual American Academy of Addiction Psychiatry 31st Annual Meeting.
 

Treatment barriers

Young adults with SUD are difficult to reach, which leads to decreased addiction program retention, decreased medication adherence, early drop out, waxing and waning motivation, and worse outcomes, compared with older adults with SUD, Dr. Fishman said.

In July, positive results from a pilot trial conducted by the investigators of YORS were published online in Addiction.

In that study, 41 young adults aged 18-26 years who intended to undergo treatment for SUD with extended-release naltrexone were randomly assigned to also undergo YORS or treatment as usual, which consisted of a standard referral to outpatient care following an inpatient stay.

The primary outcomes were number of medication doses received over 24 weeks and relapse to opioid use, which was defined as 10 or more days of use within 28 days at 24 weeks.

Participants in the YORS group received more doses of extended-release naltrexone (mean, 4.28; standard deviation, 2.3) than participants in the treatment-as-usual group (mean, 0.70; SD, 1.2; P < .01).

In the YORS group, rates of relapse at both 12 and 24 weeks were lower, and there were fewer overall days of opioid use.

For the current study, the investigators wanted to test whether there was a possible effect when patients were given a choice of medication. In the earlier trial, patients did not have a choice – they had to take extended-release naltrexone. In this study, they could opt for it or extended-release buprenorphine.

The researchers recruited 22 young adults (aged 18-26 years) from their inpatient clinic to participate. Half the patients chose to take extended-release naltrexone, and the other half chose extended-release buprenorphine.

The groups were then compared to a historical group of 20 patients who received treatment as usual and served as the control group.
 

Positive outcomes

As in the first study, outcomes in the new study were better with YORS.

All participants who underwent YORS received more outpatient medication doses at 12 weeks and 24 weeks than those who received treatment as usual (1.91 vs. 0.40 and 3.76 vs. 0.70, respectively; P < .001).

For the YORS group, rates of opioid relapse were lower at 12 weeks (27.3% vs. 75.0%) and at 24 weeks (52.9% vs. 95.0%; P < .01.)

All components of YORS work together to improve retention, Dr. Fishman noted. Patients do much better if a relative such as a mother, father, or grandmother is closely involved, he added.

Also important is drug delivery.

“In some ways, this is similar to the assertive community treatment, or ACT, for schizophrenia. Like substance use disorder, schizophrenia requires long-acting injectable antipsychotics. When that is delivered to the patient through an organized delivery service like YORS, it improves outcomes,” said Dr. Fishman.

SUD is a chronic, relapsing illness in which an individual’s judgment is impaired, he added.

“ACT has become a relatively standard feature of treatment in most communities in this country and internationally and is sustainable under public sector funding, so it’s not an impossible leap to say it could be done. But it will not be cheap,” Dr. Fishman said.
 

Removing barriers

In a comment, Serra Akyar, MD, a psychiatry resident at Northwell Health’s Staten Island University Hospital, New York, said that the YORS program may appear to be labor intensive.

“However, the combination of medication-assisted treatment and support are essential to the treatment of opioid use disorder, especially for young adults. Developing effective interventions for young adults is particularly important, given the plasticity of their brains,” said Dr. Akyar, who was not involved with the research.

Inability to access medication and a lack of a supportive environment, both in everyday life and in regards to therapy, are barriers to successful treatment, she noted.

“The YORS intervention aims to remove these barriers to further enhance engagement to care through a combination of medication delivery and family engagement and assertive outreach via text messaging, a modality presumed to be well received by youth,” Dr. Akyar said.

Despite having a limited sample size, the study shows how a comprehensive intervention can have a large impact on the maintenance of medication adherence and reduction of relapse in young adults, she added.

“Its early success is encouraging and warrants further study on a larger scale to determine long-term effectiveness, overall costs and feasibility, generalizability, and whether certain independent factors exist that may predict medication adherence and reduction of relapse,” she said.
 

Wraparound support

The study is also a significant reminder that the opioid crisis has affected the young adult population, who are very vulnerable to OUD, said Jose Vito, MD, child, adolescent, and addiction psychiatrist at New York University.

“The study made me realize the importance of the four components of YORS, which were the outreach, family involvement, home delivery, and monetary incentives,” Dr. Vito said in an interview.

All of these components, in addition to extended-release naltrexone or extended-release buprenorphine, “have contributed to lower rates of opioid relapse, and the relapses are much later in the course of treatment if they do occur,” he said.

Overall, the findings demonstrate the importance of not giving up on these youths, he noted.

“Programs like YORS that provide wraparound support can help alleviate the opioid health care crisis by keeping these young adults in treatment,” Dr. Vito concluded.

The study was funded by the University of Maryland Center for Addiction Research, Education, and Service. Dr. Fishman has a financial relationship with Alkermes.

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

An intense and assertive “won’t take no for an answer” approach is effective for engaging in treatment young adults with substance abuse who have been in and out of various recovery programs for years, new research suggests.

The Youth Opioid Recovery Support (YORS) program is a team effort that includes home delivery of the prescribed medication, family engagement, assertive outreach, and contingency management.

In a new study of 42 patients in recovery for substance use disorder (SUD), those who were treated with extended-release naltrexone or extended-release buprenorphine plus YORS received more outpatient doses of their medication, and rates of opioid relapse at 12 and 24 weeks were lower compared with their peers who received only treatment as usual.

“These developmentally vulnerable youths need something extra that is specifically targeted to who they are and their vulnerabilities,” coinvestigator Marc Fishman, MD, director of the Maryland Treatment Centers, Johns Hopkins University, Baltimore, said in an interview.

The findings were presented at the virtual American Academy of Addiction Psychiatry 31st Annual Meeting.
 

Treatment barriers

Young adults with SUD are difficult to reach, which leads to decreased addiction program retention, decreased medication adherence, early drop out, waxing and waning motivation, and worse outcomes, compared with older adults with SUD, Dr. Fishman said.

In July, positive results from a pilot trial conducted by the investigators of YORS were published online in Addiction.

In that study, 41 young adults aged 18-26 years who intended to undergo treatment for SUD with extended-release naltrexone were randomly assigned to also undergo YORS or treatment as usual, which consisted of a standard referral to outpatient care following an inpatient stay.

The primary outcomes were number of medication doses received over 24 weeks and relapse to opioid use, which was defined as 10 or more days of use within 28 days at 24 weeks.

Participants in the YORS group received more doses of extended-release naltrexone (mean, 4.28; standard deviation, 2.3) than participants in the treatment-as-usual group (mean, 0.70; SD, 1.2; P < .01).

In the YORS group, rates of relapse at both 12 and 24 weeks were lower, and there were fewer overall days of opioid use.

For the current study, the investigators wanted to test whether there was a possible effect when patients were given a choice of medication. In the earlier trial, patients did not have a choice – they had to take extended-release naltrexone. In this study, they could opt for it or extended-release buprenorphine.

The researchers recruited 22 young adults (aged 18-26 years) from their inpatient clinic to participate. Half the patients chose to take extended-release naltrexone, and the other half chose extended-release buprenorphine.

The groups were then compared to a historical group of 20 patients who received treatment as usual and served as the control group.
 

Positive outcomes

As in the first study, outcomes in the new study were better with YORS.

All participants who underwent YORS received more outpatient medication doses at 12 weeks and 24 weeks than those who received treatment as usual (1.91 vs. 0.40 and 3.76 vs. 0.70, respectively; P < .001).

For the YORS group, rates of opioid relapse were lower at 12 weeks (27.3% vs. 75.0%) and at 24 weeks (52.9% vs. 95.0%; P < .01.)

All components of YORS work together to improve retention, Dr. Fishman noted. Patients do much better if a relative such as a mother, father, or grandmother is closely involved, he added.

Also important is drug delivery.

“In some ways, this is similar to the assertive community treatment, or ACT, for schizophrenia. Like substance use disorder, schizophrenia requires long-acting injectable antipsychotics. When that is delivered to the patient through an organized delivery service like YORS, it improves outcomes,” said Dr. Fishman.

SUD is a chronic, relapsing illness in which an individual’s judgment is impaired, he added.

“ACT has become a relatively standard feature of treatment in most communities in this country and internationally and is sustainable under public sector funding, so it’s not an impossible leap to say it could be done. But it will not be cheap,” Dr. Fishman said.
 

Removing barriers

In a comment, Serra Akyar, MD, a psychiatry resident at Northwell Health’s Staten Island University Hospital, New York, said that the YORS program may appear to be labor intensive.

“However, the combination of medication-assisted treatment and support are essential to the treatment of opioid use disorder, especially for young adults. Developing effective interventions for young adults is particularly important, given the plasticity of their brains,” said Dr. Akyar, who was not involved with the research.

Inability to access medication and a lack of a supportive environment, both in everyday life and in regards to therapy, are barriers to successful treatment, she noted.

“The YORS intervention aims to remove these barriers to further enhance engagement to care through a combination of medication delivery and family engagement and assertive outreach via text messaging, a modality presumed to be well received by youth,” Dr. Akyar said.

Despite having a limited sample size, the study shows how a comprehensive intervention can have a large impact on the maintenance of medication adherence and reduction of relapse in young adults, she added.

“Its early success is encouraging and warrants further study on a larger scale to determine long-term effectiveness, overall costs and feasibility, generalizability, and whether certain independent factors exist that may predict medication adherence and reduction of relapse,” she said.
 

Wraparound support

The study is also a significant reminder that the opioid crisis has affected the young adult population, who are very vulnerable to OUD, said Jose Vito, MD, child, adolescent, and addiction psychiatrist at New York University.

“The study made me realize the importance of the four components of YORS, which were the outreach, family involvement, home delivery, and monetary incentives,” Dr. Vito said in an interview.

All of these components, in addition to extended-release naltrexone or extended-release buprenorphine, “have contributed to lower rates of opioid relapse, and the relapses are much later in the course of treatment if they do occur,” he said.

Overall, the findings demonstrate the importance of not giving up on these youths, he noted.

“Programs like YORS that provide wraparound support can help alleviate the opioid health care crisis by keeping these young adults in treatment,” Dr. Vito concluded.

The study was funded by the University of Maryland Center for Addiction Research, Education, and Service. Dr. Fishman has a financial relationship with Alkermes.

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

Among children with moderate or severe persistent asthma, monitoring daily inhaler use with sensors and a mobile application may improve asthma symptom control and caregiver quality of life, a randomized trial suggests.

But the intervention also may lead to more ED visits and increased hospitalization rates.

“We improved asthma symptom control but did not reduce health care use,” Ruchi S. Gupta, MD, MPH, and colleagues, wrote in a study published in Pediatrics.

The monitoring system alerted clinicians when a patient used a short-acting beta-agonist more than four times in a day. It could be that the “alerts enabled providers to detect asthma exacerbation virtually and refer for clinically appropriate care that included directing children to the ED,” the authors suggested. It also is possible that the intervention led caregivers to be more vigilant about symptoms and more empowered to seek care.
 

Adherence to preventive regimens

Many patients with asthma need to use preventive medications such as daily inhaled corticosteroids to control symptoms. Researchers have developed sensor-based inhaler monitoring interventions to improve treatment adherence, but the effectiveness of these interventions in improving asthma outcomes in urban and minority populations is unclear.

To assess the effectiveness of a clinically integrated, sensor-based inhaler monitoring intervention on improving asthma symptom control and related outcomes in children, Dr. Gupta, of Northwestern University and Ann & Robert H. Lurie Children’s Hospital of Chicago, and colleagues conducted a randomized, unblinded study, known as the Improving Technology-Assisted Recording of Asthma Control in Children (iTRACC) trial. They included 252 children: 127 in the control group and 125 in the intervention group.

Patients in the intervention group received Propeller Health’s Food and Drug Administration–cleared inhaler sensors for inhaled corticosteroids and short-acting beta-agonists. Caregivers could use a mobile application and clinicians could use a Web portal to track patients’ medication use. The app featured personalized insights, educational content, encouragement, surveys, and care team services.

Researchers recruited caregivers and children from five Chicago clinics for the study, which was conducted between 2016 and 2018. They included children aged 4-17 years who had a prescription for daily inhaled corticosteroids for at least 1 year before enrollment. In addition, participants had at least 1 exacerbation requiring oral corticosteroids in the previous year. They excluded children with other respiratory conditions. They also excluded participants who did not speak English because the app was available only in English.

“Sensors monitored inhaled medication use, capturing the date, time, and number of uses, and transmitted this information via Bluetooth to a paired smartphone and the provider portal in real-time,” the authors said.

Clinicians were alerted to call participants if a patient missed inhaled corticosteroid doses for 4 continuous days or used more than 4 short-acting beta-agonist doses per day. Clinicians could help guide asthma management, schedule an appointment, refill medications, and address technical difficulties with the sensors.

The intervention and control groups had similar baseline characteristics. About one-third of the patients were female, and the mean age was 9.3 years. In the control group, 28% identified as Hispanic, and 33% identified as non-Hispanic Black. In the intervention group, 40% identified as Hispanic, and 23% identified as non-Hispanic Black. About 59% reported Medicaid insurance. The intervention and control arms completed electronic surveys at 1, 3, 6, 9, and 12 months.

Average Asthma Control Test score increased from 19 to 22 in the intervention group, compared with an increase from 19 to 20 in the control group. Adjusted rates of emergency department visits and hospitalizations were greater in the intervention group (incidence rate ratios, 2.2 and 3.4, respectively). A measure of caregiver quality of life was greater in the intervention group, although the difference was not significant.

During the trial, more caregivers in the intervention group reported asthma attacks for which steroids were prescribed by a medical office (73% vs. 35%).

Some participants had to manually enter the number of daily puffs into the app because their inhalers were incompatible with the sensors. In addition, some data were missing because of incomplete or missing survey responses and sensor failure over time. “The number of intervention participants with actively transmitting sensors decreased from 102 at baseline to 56 at 12 months,” Dr. Gupta and associates noted.
 

Important area of research

“One interesting finding of this study is the increase in health care use in the intervention group to nearly twice as many emergency department (ED) visits and three times as many hospitalizations as the control group over 12 months,” Rachelle R. Ramsey, PhD, and Theresa W. Guilbert, MD, MS, of the University of Cincinnati, wrote in a related commentary. “Although it is plausible that, as the authors suggest, greater asthma knowledge and monitoring may have led to increased vigilance of asthma symptoms, it seems that this would have only led to an increase in ED visits but not hospitalizations.”

The mixture of objective electronic monitoring and subjective self-reported adherence may complicate interpretation of the results, they added.

“Overall, this article underscores the feasibility and importance of sensor-based electronic monitoring of adherence in pediatric asthma and encourages future research in this area,” Dr. Ramsey and Dr. Guilbert said.

The trial was supported by the UnitedHealth Group. Dr. Gupta has received grants from the National Institutes of Health, Rho, and other organizations, and has served as a medical consultant and adviser for a variety of companies. Dr. Ramsey is supported by the NIH. Dr. Guilbert reported fees from the American Board of Pediatrics, the Pediatric Pulmonary Subboard, and some pharmaceutical companies, plus grants from the NIH, grants and personal fees from Sanofi, Regeneron, and AstraZeneca, and royalties from UpToDate.

[email protected]

SOURCE: Gupta RS et al. Pediatrics. 2020 Dec 22. doi: 10.1542/peds.2020-1330.

Among children with moderate or severe persistent asthma, monitoring daily inhaler use with sensors and a mobile application may improve asthma symptom control and caregiver quality of life, a randomized trial suggests.

But the intervention also may lead to more ED visits and increased hospitalization rates.

“We improved asthma symptom control but did not reduce health care use,” Ruchi S. Gupta, MD, MPH, and colleagues, wrote in a study published in Pediatrics.

The monitoring system alerted clinicians when a patient used a short-acting beta-agonist more than four times in a day. It could be that the “alerts enabled providers to detect asthma exacerbation virtually and refer for clinically appropriate care that included directing children to the ED,” the authors suggested. It also is possible that the intervention led caregivers to be more vigilant about symptoms and more empowered to seek care.
 

Adherence to preventive regimens

Many patients with asthma need to use preventive medications such as daily inhaled corticosteroids to control symptoms. Researchers have developed sensor-based inhaler monitoring interventions to improve treatment adherence, but the effectiveness of these interventions in improving asthma outcomes in urban and minority populations is unclear.

To assess the effectiveness of a clinically integrated, sensor-based inhaler monitoring intervention on improving asthma symptom control and related outcomes in children, Dr. Gupta, of Northwestern University and Ann & Robert H. Lurie Children’s Hospital of Chicago, and colleagues conducted a randomized, unblinded study, known as the Improving Technology-Assisted Recording of Asthma Control in Children (iTRACC) trial. They included 252 children: 127 in the control group and 125 in the intervention group.

Patients in the intervention group received Propeller Health’s Food and Drug Administration–cleared inhaler sensors for inhaled corticosteroids and short-acting beta-agonists. Caregivers could use a mobile application and clinicians could use a Web portal to track patients’ medication use. The app featured personalized insights, educational content, encouragement, surveys, and care team services.

Researchers recruited caregivers and children from five Chicago clinics for the study, which was conducted between 2016 and 2018. They included children aged 4-17 years who had a prescription for daily inhaled corticosteroids for at least 1 year before enrollment. In addition, participants had at least 1 exacerbation requiring oral corticosteroids in the previous year. They excluded children with other respiratory conditions. They also excluded participants who did not speak English because the app was available only in English.

“Sensors monitored inhaled medication use, capturing the date, time, and number of uses, and transmitted this information via Bluetooth to a paired smartphone and the provider portal in real-time,” the authors said.

Clinicians were alerted to call participants if a patient missed inhaled corticosteroid doses for 4 continuous days or used more than 4 short-acting beta-agonist doses per day. Clinicians could help guide asthma management, schedule an appointment, refill medications, and address technical difficulties with the sensors.

The intervention and control groups had similar baseline characteristics. About one-third of the patients were female, and the mean age was 9.3 years. In the control group, 28% identified as Hispanic, and 33% identified as non-Hispanic Black. In the intervention group, 40% identified as Hispanic, and 23% identified as non-Hispanic Black. About 59% reported Medicaid insurance. The intervention and control arms completed electronic surveys at 1, 3, 6, 9, and 12 months.

Average Asthma Control Test score increased from 19 to 22 in the intervention group, compared with an increase from 19 to 20 in the control group. Adjusted rates of emergency department visits and hospitalizations were greater in the intervention group (incidence rate ratios, 2.2 and 3.4, respectively). A measure of caregiver quality of life was greater in the intervention group, although the difference was not significant.

During the trial, more caregivers in the intervention group reported asthma attacks for which steroids were prescribed by a medical office (73% vs. 35%).

Some participants had to manually enter the number of daily puffs into the app because their inhalers were incompatible with the sensors. In addition, some data were missing because of incomplete or missing survey responses and sensor failure over time. “The number of intervention participants with actively transmitting sensors decreased from 102 at baseline to 56 at 12 months,” Dr. Gupta and associates noted.
 

Important area of research

“One interesting finding of this study is the increase in health care use in the intervention group to nearly twice as many emergency department (ED) visits and three times as many hospitalizations as the control group over 12 months,” Rachelle R. Ramsey, PhD, and Theresa W. Guilbert, MD, MS, of the University of Cincinnati, wrote in a related commentary. “Although it is plausible that, as the authors suggest, greater asthma knowledge and monitoring may have led to increased vigilance of asthma symptoms, it seems that this would have only led to an increase in ED visits but not hospitalizations.”

The mixture of objective electronic monitoring and subjective self-reported adherence may complicate interpretation of the results, they added.

“Overall, this article underscores the feasibility and importance of sensor-based electronic monitoring of adherence in pediatric asthma and encourages future research in this area,” Dr. Ramsey and Dr. Guilbert said.

The trial was supported by the UnitedHealth Group. Dr. Gupta has received grants from the National Institutes of Health, Rho, and other organizations, and has served as a medical consultant and adviser for a variety of companies. Dr. Ramsey is supported by the NIH. Dr. Guilbert reported fees from the American Board of Pediatrics, the Pediatric Pulmonary Subboard, and some pharmaceutical companies, plus grants from the NIH, grants and personal fees from Sanofi, Regeneron, and AstraZeneca, and royalties from UpToDate.

[email protected]

SOURCE: Gupta RS et al. Pediatrics. 2020 Dec 22. doi: 10.1542/peds.2020-1330.

Among children with moderate or severe persistent asthma, monitoring daily inhaler use with sensors and a mobile application may improve asthma symptom control and caregiver quality of life, a randomized trial suggests.

But the intervention also may lead to more ED visits and increased hospitalization rates.

“We improved asthma symptom control but did not reduce health care use,” Ruchi S. Gupta, MD, MPH, and colleagues, wrote in a study published in Pediatrics.

The monitoring system alerted clinicians when a patient used a short-acting beta-agonist more than four times in a day. It could be that the “alerts enabled providers to detect asthma exacerbation virtually and refer for clinically appropriate care that included directing children to the ED,” the authors suggested. It also is possible that the intervention led caregivers to be more vigilant about symptoms and more empowered to seek care.
 

Adherence to preventive regimens

Many patients with asthma need to use preventive medications such as daily inhaled corticosteroids to control symptoms. Researchers have developed sensor-based inhaler monitoring interventions to improve treatment adherence, but the effectiveness of these interventions in improving asthma outcomes in urban and minority populations is unclear.

To assess the effectiveness of a clinically integrated, sensor-based inhaler monitoring intervention on improving asthma symptom control and related outcomes in children, Dr. Gupta, of Northwestern University and Ann & Robert H. Lurie Children’s Hospital of Chicago, and colleagues conducted a randomized, unblinded study, known as the Improving Technology-Assisted Recording of Asthma Control in Children (iTRACC) trial. They included 252 children: 127 in the control group and 125 in the intervention group.

Patients in the intervention group received Propeller Health’s Food and Drug Administration–cleared inhaler sensors for inhaled corticosteroids and short-acting beta-agonists. Caregivers could use a mobile application and clinicians could use a Web portal to track patients’ medication use. The app featured personalized insights, educational content, encouragement, surveys, and care team services.

Researchers recruited caregivers and children from five Chicago clinics for the study, which was conducted between 2016 and 2018. They included children aged 4-17 years who had a prescription for daily inhaled corticosteroids for at least 1 year before enrollment. In addition, participants had at least 1 exacerbation requiring oral corticosteroids in the previous year. They excluded children with other respiratory conditions. They also excluded participants who did not speak English because the app was available only in English.

“Sensors monitored inhaled medication use, capturing the date, time, and number of uses, and transmitted this information via Bluetooth to a paired smartphone and the provider portal in real-time,” the authors said.

Clinicians were alerted to call participants if a patient missed inhaled corticosteroid doses for 4 continuous days or used more than 4 short-acting beta-agonist doses per day. Clinicians could help guide asthma management, schedule an appointment, refill medications, and address technical difficulties with the sensors.

The intervention and control groups had similar baseline characteristics. About one-third of the patients were female, and the mean age was 9.3 years. In the control group, 28% identified as Hispanic, and 33% identified as non-Hispanic Black. In the intervention group, 40% identified as Hispanic, and 23% identified as non-Hispanic Black. About 59% reported Medicaid insurance. The intervention and control arms completed electronic surveys at 1, 3, 6, 9, and 12 months.

Average Asthma Control Test score increased from 19 to 22 in the intervention group, compared with an increase from 19 to 20 in the control group. Adjusted rates of emergency department visits and hospitalizations were greater in the intervention group (incidence rate ratios, 2.2 and 3.4, respectively). A measure of caregiver quality of life was greater in the intervention group, although the difference was not significant.

During the trial, more caregivers in the intervention group reported asthma attacks for which steroids were prescribed by a medical office (73% vs. 35%).

Some participants had to manually enter the number of daily puffs into the app because their inhalers were incompatible with the sensors. In addition, some data were missing because of incomplete or missing survey responses and sensor failure over time. “The number of intervention participants with actively transmitting sensors decreased from 102 at baseline to 56 at 12 months,” Dr. Gupta and associates noted.
 

Important area of research

“One interesting finding of this study is the increase in health care use in the intervention group to nearly twice as many emergency department (ED) visits and three times as many hospitalizations as the control group over 12 months,” Rachelle R. Ramsey, PhD, and Theresa W. Guilbert, MD, MS, of the University of Cincinnati, wrote in a related commentary. “Although it is plausible that, as the authors suggest, greater asthma knowledge and monitoring may have led to increased vigilance of asthma symptoms, it seems that this would have only led to an increase in ED visits but not hospitalizations.”

The mixture of objective electronic monitoring and subjective self-reported adherence may complicate interpretation of the results, they added.

“Overall, this article underscores the feasibility and importance of sensor-based electronic monitoring of adherence in pediatric asthma and encourages future research in this area,” Dr. Ramsey and Dr. Guilbert said.

The trial was supported by the UnitedHealth Group. Dr. Gupta has received grants from the National Institutes of Health, Rho, and other organizations, and has served as a medical consultant and adviser for a variety of companies. Dr. Ramsey is supported by the NIH. Dr. Guilbert reported fees from the American Board of Pediatrics, the Pediatric Pulmonary Subboard, and some pharmaceutical companies, plus grants from the NIH, grants and personal fees from Sanofi, Regeneron, and AstraZeneca, and royalties from UpToDate.

[email protected]

SOURCE: Gupta RS et al. Pediatrics. 2020 Dec 22. doi: 10.1542/peds.2020-1330.