Pulmonology

A strategy for the treatment of tuberculosis involving just an 8-week treatment regimen – along with close posttreatment monitoring and treatment extension if needed – shows potential as an effective alternative to the standard 24-week regimen.

“We found that if we use the strategy of a bedaquiline-linezolid five-drug regimen for 8 weeks and then followed patients for 96 weeks, [the regimen] was noninferior, clinically, to the standard regimen in terms of the number of people alive, free of TB disease, and not on treatment,” said lead author Nicholas Paton, MD, of the National University of Singapore, in a press conference held during the Conference on Retroviruses & Opportunistic Infections.

“The total time on treatment was reduced by half – instead of 160 days, it was 85 days for the total duration.”

Commenting on the study, which was published concurrently in the New England Journal of Medicine, Richard E. Chaisson, MD, noted that, although more needs to be understood, the high number of responses is nevertheless encouraging.

“Clinicians will not feel comfortable with the short regimens at this point, but it is remarkable that so many patients did well with shorter treatments,” Dr. Chaisson, who is a professor of medicine, epidemiology, and international health and director of the Johns Hopkins University Center for Tuberculosis Research, Baltimore, said in an interview.

Importantly, the study should help push forward “future studies [that] will stratify patients according to their likelihood of responding to shorter treatments,” he said.

The current global standard for TB treatment, practiced for 4 decades, has been a 6-month rifampin-based regimen. Although the regimen performs well, curing more than 95% of cases in clinical trials, in real-world practice, the prolonged duration can be problematic, with issues of nonadherence and loss of patients to follow-up.

Previous research has shown that shorter regimens have potential, with some studies showing as many as 85% of patients cured with 3- and 4-month regimens, and some promising 2-month regimens showing efficacy specifically for those with smear-negative TB.

These efforts suggest that “the current 6-month regimen may lead to overtreatment in the majority of persons in order to prevent relapse in a minority of persons,” the authors asserted.
 

TRUNCATE-TB

To investigate a suitable shorter-term alternative, the authors conducted the phase 2-3, prospective, open-label TRUNCATE-TB trial, in which 674 patients with rifampin-susceptible pulmonary TB were enrolled at 18 sites in Asia and Africa.

The patients were randomly assigned to receive either the standard treatment regimen (rifampin and isoniazid for 24 weeks with pyrazinamide and ethambutol for the first 8 weeks; n = 181), or one of four novel five-drug regimens to be administered over 8 weeks, along with extended treatment for persistent clinical disease of up to 12 weeks, if needed, and a plan for retreatment in the case of relapse (n = 493).

Two of the regimens were dropped because of logistic criteria; the two remaining shorter-course groups included in the study involved either high-dose rifampin plus linezolid or bedaquiline plus linezolid, each combined with isoniazid, pyrazinamide, and ethambutol.

Of the patients, 62% were male, and four withdrew or were lost to follow-up by the end of the study at a final follow-up at week 96.

Among patients assigned to the 8-week regimens, 80% stopped at exactly 8 weeks, while 9% wound up having extended treatment to 10 weeks and 3% were extended to 12 weeks.

For the primary endpoint, a composite of death, ongoing treatment, or active disease at week 96, the rate was lowest in the standard 24-week therapy group, occurring in 7 of 181 patients (3.9%), compared with 21 of 184 patients (11.4%) in the rifampin plus linezolid group (adjusted difference, 7.4 percentage points, which did not meet noninferiority criterion), and 11 of 189 (5.8%) in the group in the bedaquiline plus linezolid group (adjusted difference, 0.8 percentage points, meeting noninferiority criterion).

The mean total duration of treatment through week 96 in the standard treatment group was 180 days versus 106 days in the rifampin–linezolid group, and 85 days in the bedaquiline-linezolid group.

The results were consistent across multiple subgroups defined according to baseline characteristics, including some that could be linked to severe disease and a high risk for relapse.

In terms of safety, there were no significant differences between the groups in terms of grade 3 or 4 adverse events.

Of note, only two patients (1.1%) in the bedaquiline plus linezolid group acquired a resistance, which Dr. Paton said was “encouraging,” because of concerns about resistance to that drug.
 

‘Unfavorable’ composite also evaluated

In an updated analysis of the study that Dr. Paton presented at the meeting, the authors looked at a revised “unfavorable” primary outcome – a composite including treatment failure, relapse, death, or nonattendance at week 96 without evidence of prior disease clearance.

The rate remained lowest in the standard 24-week therapy group (3.9%) versus 25% in the rifampin plus linezolid group, and 13.8% in the bedaquiline plus linezolid group.

Though the lower rate with the standard treatment was expected, Dr. Paton said the results nevertheless hold promise, at least for some patients, for successful treatment with the 8-week bedaquiline plus linezolid strategy.

“What the trial has told us is that even with that 13.8% relapse rate, we can manage patients within this strategy and people can do fine at the end, because with some simple clinical biomarkers, we can pick the people who may have a high chance of achieving a cure.”

Dr. Chaisson expressed concern over the higher unfavorable rates, but said the results help pave the way for refining a workable-shorter term strategy.

“TRUNCATE-TB did find that most patients could be successfully treated in 2 months with the novel regimen of bedaquiline plus linezolid, but the failure rate was still unacceptably high,” he said. 

“This regimen will not be widely adapted at this point, but additional analyses may identify subsets of patients who will do well with shorter regimens, and future studies will stratify patients according to their likelihood of responding to shorter treatments.”

The authors of an accompanying editorial further commented that the benefits of a shorter treatment strategy could very well outweigh possible shortcomings.

“Treatment algorithms such as that used in the TRUNCATE-TB trial are fundamental to tuberculosis control,” wrote Véronique Dartois, PhD, Center for Discovery and Innovation, Nutley, N.J., and Eric J. Rubin, MD, PhD, the editor-in-chief of NEJM. “Although implementing them could be a challenge, any added burden might be offset by reduced costs, better adherence, and increased patient satisfaction. Thus, for tuberculosis, a strategy might be more than just a regimen.”

The good news, as summed up by CROI vice-chair Landon Myer, MD, PhD, in the press conference, is that “we’re moving closer and closer to the holy grail of a short, efficacious regimen for TB treatment. We’re getting there slowly, but we’re getting there.”

The study received grant funding from the Singapore National Medical Research Council; a grant from the Department of Health and Social Care; the Foreign, Commonwealth, and Development Office; the Medical Research Council; and Wellcome Trust; as well as a grant from the UK Research and Innovation Medical Research Council. Dr. Dartois reported no relevant financial relationships. Dr. Chaisson had no disclosures to report.

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

A strategy for the treatment of tuberculosis involving just an 8-week treatment regimen – along with close posttreatment monitoring and treatment extension if needed – shows potential as an effective alternative to the standard 24-week regimen.

“We found that if we use the strategy of a bedaquiline-linezolid five-drug regimen for 8 weeks and then followed patients for 96 weeks, [the regimen] was noninferior, clinically, to the standard regimen in terms of the number of people alive, free of TB disease, and not on treatment,” said lead author Nicholas Paton, MD, of the National University of Singapore, in a press conference held during the Conference on Retroviruses & Opportunistic Infections.

“The total time on treatment was reduced by half – instead of 160 days, it was 85 days for the total duration.”

Commenting on the study, which was published concurrently in the New England Journal of Medicine, Richard E. Chaisson, MD, noted that, although more needs to be understood, the high number of responses is nevertheless encouraging.

“Clinicians will not feel comfortable with the short regimens at this point, but it is remarkable that so many patients did well with shorter treatments,” Dr. Chaisson, who is a professor of medicine, epidemiology, and international health and director of the Johns Hopkins University Center for Tuberculosis Research, Baltimore, said in an interview.

Importantly, the study should help push forward “future studies [that] will stratify patients according to their likelihood of responding to shorter treatments,” he said.

The current global standard for TB treatment, practiced for 4 decades, has been a 6-month rifampin-based regimen. Although the regimen performs well, curing more than 95% of cases in clinical trials, in real-world practice, the prolonged duration can be problematic, with issues of nonadherence and loss of patients to follow-up.

Previous research has shown that shorter regimens have potential, with some studies showing as many as 85% of patients cured with 3- and 4-month regimens, and some promising 2-month regimens showing efficacy specifically for those with smear-negative TB.

These efforts suggest that “the current 6-month regimen may lead to overtreatment in the majority of persons in order to prevent relapse in a minority of persons,” the authors asserted.
 

TRUNCATE-TB

To investigate a suitable shorter-term alternative, the authors conducted the phase 2-3, prospective, open-label TRUNCATE-TB trial, in which 674 patients with rifampin-susceptible pulmonary TB were enrolled at 18 sites in Asia and Africa.

The patients were randomly assigned to receive either the standard treatment regimen (rifampin and isoniazid for 24 weeks with pyrazinamide and ethambutol for the first 8 weeks; n = 181), or one of four novel five-drug regimens to be administered over 8 weeks, along with extended treatment for persistent clinical disease of up to 12 weeks, if needed, and a plan for retreatment in the case of relapse (n = 493).

Two of the regimens were dropped because of logistic criteria; the two remaining shorter-course groups included in the study involved either high-dose rifampin plus linezolid or bedaquiline plus linezolid, each combined with isoniazid, pyrazinamide, and ethambutol.

Of the patients, 62% were male, and four withdrew or were lost to follow-up by the end of the study at a final follow-up at week 96.

Among patients assigned to the 8-week regimens, 80% stopped at exactly 8 weeks, while 9% wound up having extended treatment to 10 weeks and 3% were extended to 12 weeks.

For the primary endpoint, a composite of death, ongoing treatment, or active disease at week 96, the rate was lowest in the standard 24-week therapy group, occurring in 7 of 181 patients (3.9%), compared with 21 of 184 patients (11.4%) in the rifampin plus linezolid group (adjusted difference, 7.4 percentage points, which did not meet noninferiority criterion), and 11 of 189 (5.8%) in the group in the bedaquiline plus linezolid group (adjusted difference, 0.8 percentage points, meeting noninferiority criterion).

The mean total duration of treatment through week 96 in the standard treatment group was 180 days versus 106 days in the rifampin–linezolid group, and 85 days in the bedaquiline-linezolid group.

The results were consistent across multiple subgroups defined according to baseline characteristics, including some that could be linked to severe disease and a high risk for relapse.

In terms of safety, there were no significant differences between the groups in terms of grade 3 or 4 adverse events.

Of note, only two patients (1.1%) in the bedaquiline plus linezolid group acquired a resistance, which Dr. Paton said was “encouraging,” because of concerns about resistance to that drug.
 

‘Unfavorable’ composite also evaluated

In an updated analysis of the study that Dr. Paton presented at the meeting, the authors looked at a revised “unfavorable” primary outcome – a composite including treatment failure, relapse, death, or nonattendance at week 96 without evidence of prior disease clearance.

The rate remained lowest in the standard 24-week therapy group (3.9%) versus 25% in the rifampin plus linezolid group, and 13.8% in the bedaquiline plus linezolid group.

Though the lower rate with the standard treatment was expected, Dr. Paton said the results nevertheless hold promise, at least for some patients, for successful treatment with the 8-week bedaquiline plus linezolid strategy.

“What the trial has told us is that even with that 13.8% relapse rate, we can manage patients within this strategy and people can do fine at the end, because with some simple clinical biomarkers, we can pick the people who may have a high chance of achieving a cure.”

Dr. Chaisson expressed concern over the higher unfavorable rates, but said the results help pave the way for refining a workable-shorter term strategy.

“TRUNCATE-TB did find that most patients could be successfully treated in 2 months with the novel regimen of bedaquiline plus linezolid, but the failure rate was still unacceptably high,” he said. 

“This regimen will not be widely adapted at this point, but additional analyses may identify subsets of patients who will do well with shorter regimens, and future studies will stratify patients according to their likelihood of responding to shorter treatments.”

The authors of an accompanying editorial further commented that the benefits of a shorter treatment strategy could very well outweigh possible shortcomings.

“Treatment algorithms such as that used in the TRUNCATE-TB trial are fundamental to tuberculosis control,” wrote Véronique Dartois, PhD, Center for Discovery and Innovation, Nutley, N.J., and Eric J. Rubin, MD, PhD, the editor-in-chief of NEJM. “Although implementing them could be a challenge, any added burden might be offset by reduced costs, better adherence, and increased patient satisfaction. Thus, for tuberculosis, a strategy might be more than just a regimen.”

The good news, as summed up by CROI vice-chair Landon Myer, MD, PhD, in the press conference, is that “we’re moving closer and closer to the holy grail of a short, efficacious regimen for TB treatment. We’re getting there slowly, but we’re getting there.”

The study received grant funding from the Singapore National Medical Research Council; a grant from the Department of Health and Social Care; the Foreign, Commonwealth, and Development Office; the Medical Research Council; and Wellcome Trust; as well as a grant from the UK Research and Innovation Medical Research Council. Dr. Dartois reported no relevant financial relationships. Dr. Chaisson had no disclosures to report.

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

A strategy for the treatment of tuberculosis involving just an 8-week treatment regimen – along with close posttreatment monitoring and treatment extension if needed – shows potential as an effective alternative to the standard 24-week regimen.

“We found that if we use the strategy of a bedaquiline-linezolid five-drug regimen for 8 weeks and then followed patients for 96 weeks, [the regimen] was noninferior, clinically, to the standard regimen in terms of the number of people alive, free of TB disease, and not on treatment,” said lead author Nicholas Paton, MD, of the National University of Singapore, in a press conference held during the Conference on Retroviruses & Opportunistic Infections.

“The total time on treatment was reduced by half – instead of 160 days, it was 85 days for the total duration.”

Commenting on the study, which was published concurrently in the New England Journal of Medicine, Richard E. Chaisson, MD, noted that, although more needs to be understood, the high number of responses is nevertheless encouraging.

“Clinicians will not feel comfortable with the short regimens at this point, but it is remarkable that so many patients did well with shorter treatments,” Dr. Chaisson, who is a professor of medicine, epidemiology, and international health and director of the Johns Hopkins University Center for Tuberculosis Research, Baltimore, said in an interview.

Importantly, the study should help push forward “future studies [that] will stratify patients according to their likelihood of responding to shorter treatments,” he said.

The current global standard for TB treatment, practiced for 4 decades, has been a 6-month rifampin-based regimen. Although the regimen performs well, curing more than 95% of cases in clinical trials, in real-world practice, the prolonged duration can be problematic, with issues of nonadherence and loss of patients to follow-up.

Previous research has shown that shorter regimens have potential, with some studies showing as many as 85% of patients cured with 3- and 4-month regimens, and some promising 2-month regimens showing efficacy specifically for those with smear-negative TB.

These efforts suggest that “the current 6-month regimen may lead to overtreatment in the majority of persons in order to prevent relapse in a minority of persons,” the authors asserted.
 

TRUNCATE-TB

To investigate a suitable shorter-term alternative, the authors conducted the phase 2-3, prospective, open-label TRUNCATE-TB trial, in which 674 patients with rifampin-susceptible pulmonary TB were enrolled at 18 sites in Asia and Africa.

The patients were randomly assigned to receive either the standard treatment regimen (rifampin and isoniazid for 24 weeks with pyrazinamide and ethambutol for the first 8 weeks; n = 181), or one of four novel five-drug regimens to be administered over 8 weeks, along with extended treatment for persistent clinical disease of up to 12 weeks, if needed, and a plan for retreatment in the case of relapse (n = 493).

Two of the regimens were dropped because of logistic criteria; the two remaining shorter-course groups included in the study involved either high-dose rifampin plus linezolid or bedaquiline plus linezolid, each combined with isoniazid, pyrazinamide, and ethambutol.

Of the patients, 62% were male, and four withdrew or were lost to follow-up by the end of the study at a final follow-up at week 96.

Among patients assigned to the 8-week regimens, 80% stopped at exactly 8 weeks, while 9% wound up having extended treatment to 10 weeks and 3% were extended to 12 weeks.

For the primary endpoint, a composite of death, ongoing treatment, or active disease at week 96, the rate was lowest in the standard 24-week therapy group, occurring in 7 of 181 patients (3.9%), compared with 21 of 184 patients (11.4%) in the rifampin plus linezolid group (adjusted difference, 7.4 percentage points, which did not meet noninferiority criterion), and 11 of 189 (5.8%) in the group in the bedaquiline plus linezolid group (adjusted difference, 0.8 percentage points, meeting noninferiority criterion).

The mean total duration of treatment through week 96 in the standard treatment group was 180 days versus 106 days in the rifampin–linezolid group, and 85 days in the bedaquiline-linezolid group.

The results were consistent across multiple subgroups defined according to baseline characteristics, including some that could be linked to severe disease and a high risk for relapse.

In terms of safety, there were no significant differences between the groups in terms of grade 3 or 4 adverse events.

Of note, only two patients (1.1%) in the bedaquiline plus linezolid group acquired a resistance, which Dr. Paton said was “encouraging,” because of concerns about resistance to that drug.
 

‘Unfavorable’ composite also evaluated

In an updated analysis of the study that Dr. Paton presented at the meeting, the authors looked at a revised “unfavorable” primary outcome – a composite including treatment failure, relapse, death, or nonattendance at week 96 without evidence of prior disease clearance.

The rate remained lowest in the standard 24-week therapy group (3.9%) versus 25% in the rifampin plus linezolid group, and 13.8% in the bedaquiline plus linezolid group.

Though the lower rate with the standard treatment was expected, Dr. Paton said the results nevertheless hold promise, at least for some patients, for successful treatment with the 8-week bedaquiline plus linezolid strategy.

“What the trial has told us is that even with that 13.8% relapse rate, we can manage patients within this strategy and people can do fine at the end, because with some simple clinical biomarkers, we can pick the people who may have a high chance of achieving a cure.”

Dr. Chaisson expressed concern over the higher unfavorable rates, but said the results help pave the way for refining a workable-shorter term strategy.

“TRUNCATE-TB did find that most patients could be successfully treated in 2 months with the novel regimen of bedaquiline plus linezolid, but the failure rate was still unacceptably high,” he said. 

“This regimen will not be widely adapted at this point, but additional analyses may identify subsets of patients who will do well with shorter regimens, and future studies will stratify patients according to their likelihood of responding to shorter treatments.”

The authors of an accompanying editorial further commented that the benefits of a shorter treatment strategy could very well outweigh possible shortcomings.

“Treatment algorithms such as that used in the TRUNCATE-TB trial are fundamental to tuberculosis control,” wrote Véronique Dartois, PhD, Center for Discovery and Innovation, Nutley, N.J., and Eric J. Rubin, MD, PhD, the editor-in-chief of NEJM. “Although implementing them could be a challenge, any added burden might be offset by reduced costs, better adherence, and increased patient satisfaction. Thus, for tuberculosis, a strategy might be more than just a regimen.”

The good news, as summed up by CROI vice-chair Landon Myer, MD, PhD, in the press conference, is that “we’re moving closer and closer to the holy grail of a short, efficacious regimen for TB treatment. We’re getting there slowly, but we’re getting there.”

The study received grant funding from the Singapore National Medical Research Council; a grant from the Department of Health and Social Care; the Foreign, Commonwealth, and Development Office; the Medical Research Council; and Wellcome Trust; as well as a grant from the UK Research and Innovation Medical Research Council. Dr. Dartois reported no relevant financial relationships. Dr. Chaisson had no disclosures to report.

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

The natural immunity provided by a COVID infection protects a person against severe illness on a par with two doses of mRNA vaccine, a new study says. 

People who’ve been infected with COVID reduced their chances of hospitalization and death by 88% over 10 months compared to somebody who hasn’t been infected, according to the study, published in The Lancet. 

The natural immunity provided by infection was “at least as high, if not higher” than the immunity provided by two doses of Moderna or Pfizer mRNA vaccines against the ancestral, Alpha, Delta, and Omicron BA.1 variants, the researchers reported. 

But protection against the BA.1 subvariant of Omicron was not as high – 36% at 10 months after infection, wrote the research team from the Institute for Health Metrics and Evaluation at the University of Washington.

They examined 65 studies from 19 countries through Sept. 31, 2022. They did not study data about infection from Omicron XBB and its sub-lineages. People who had immunity from both infection and vaccination, known as hybrid immunity, were not studied. 

The findings don’t mean people should skip the vaccines and get COVID on purpose, one of the researchers told NBC News. 

“The problem of saying ‘I’m gonna get infected to get immunity’ is you might be one of those people that end up in the hospital or die,” said Christopher Murray, MD, DPhil, director of the IHME. “Why would you take the risk when you can get immunity through vaccination quite safely?”

The findings could help people figure out the most effective time to get vaccinated or boosted and guide officials in setting policies on workplace vaccine mandates and rules for high-occupancy indoor settings, the researchers concluded.

This was the largest meta-analysis of immunity following infection to date, NBC News reports.

A version of this article originally appeared on WebMD.com.

The natural immunity provided by a COVID infection protects a person against severe illness on a par with two doses of mRNA vaccine, a new study says. 

People who’ve been infected with COVID reduced their chances of hospitalization and death by 88% over 10 months compared to somebody who hasn’t been infected, according to the study, published in The Lancet. 

The natural immunity provided by infection was “at least as high, if not higher” than the immunity provided by two doses of Moderna or Pfizer mRNA vaccines against the ancestral, Alpha, Delta, and Omicron BA.1 variants, the researchers reported. 

But protection against the BA.1 subvariant of Omicron was not as high – 36% at 10 months after infection, wrote the research team from the Institute for Health Metrics and Evaluation at the University of Washington.

They examined 65 studies from 19 countries through Sept. 31, 2022. They did not study data about infection from Omicron XBB and its sub-lineages. People who had immunity from both infection and vaccination, known as hybrid immunity, were not studied. 

The findings don’t mean people should skip the vaccines and get COVID on purpose, one of the researchers told NBC News. 

“The problem of saying ‘I’m gonna get infected to get immunity’ is you might be one of those people that end up in the hospital or die,” said Christopher Murray, MD, DPhil, director of the IHME. “Why would you take the risk when you can get immunity through vaccination quite safely?”

The findings could help people figure out the most effective time to get vaccinated or boosted and guide officials in setting policies on workplace vaccine mandates and rules for high-occupancy indoor settings, the researchers concluded.

This was the largest meta-analysis of immunity following infection to date, NBC News reports.

A version of this article originally appeared on WebMD.com.

The natural immunity provided by a COVID infection protects a person against severe illness on a par with two doses of mRNA vaccine, a new study says. 

People who’ve been infected with COVID reduced their chances of hospitalization and death by 88% over 10 months compared to somebody who hasn’t been infected, according to the study, published in The Lancet. 

The natural immunity provided by infection was “at least as high, if not higher” than the immunity provided by two doses of Moderna or Pfizer mRNA vaccines against the ancestral, Alpha, Delta, and Omicron BA.1 variants, the researchers reported. 

But protection against the BA.1 subvariant of Omicron was not as high – 36% at 10 months after infection, wrote the research team from the Institute for Health Metrics and Evaluation at the University of Washington.

They examined 65 studies from 19 countries through Sept. 31, 2022. They did not study data about infection from Omicron XBB and its sub-lineages. People who had immunity from both infection and vaccination, known as hybrid immunity, were not studied. 

The findings don’t mean people should skip the vaccines and get COVID on purpose, one of the researchers told NBC News. 

“The problem of saying ‘I’m gonna get infected to get immunity’ is you might be one of those people that end up in the hospital or die,” said Christopher Murray, MD, DPhil, director of the IHME. “Why would you take the risk when you can get immunity through vaccination quite safely?”

The findings could help people figure out the most effective time to get vaccinated or boosted and guide officials in setting policies on workplace vaccine mandates and rules for high-occupancy indoor settings, the researchers concluded.

This was the largest meta-analysis of immunity following infection to date, NBC News reports.

A version of this article originally appeared on WebMD.com.

Approximately one in four patients with untreated COVID-19 experience symptom relapse, while almost one in three exhibits relapse of viral load, a recent study finds.

These findings offer a natural history of COVID-19 that will inform discussions and research concerning antiviral therapy, lead author Jonathan Z. Li, MD, associate professor of infectious disease at Brigham and Women’s Hospital and Harvard Medical School, both in Boston, and colleagues reported in Annals of Internal Medicine.

“There are increasing reports that high-risk patients are avoiding nirmatrelvir-ritonavir due to concerns about post-Paxlovid rebound, but there remains a gap in our knowledge of the frequency of symptom and viral relapse during untreated natural infection,” Dr. Li said in a written comment.

To address this gap, Dr. Li and colleagues analyzed data from 563 participants from the placebo group of the Adaptive Platform Treatment Trial for Outpatients with COVID-19 (ACTIV-2/A5401).

From days 0-28, patients recorded severity of 13 symptoms, with scores ranging from absent to severe (absent = 0, mild = 1, moderate = 2, severe = 3). RNA testing was performed on samples from nasal swabs on days 0–14, 21, and 28.

“The symptom rebound definition was determined by consensus of the study team, which comprises more than 10 infectious disease, pulmonary, and critical care physicians, as likely representing a clinically meaningful change in symptoms,” Dr. Li said.

Symptom scores needed to increase by at least 4 points to reach the threshold. For instance, a patient would qualify for relapse if they had worsening of four symptoms from mild to moderate, emergence of two new moderate symptoms, or emergence of one new moderate and two new mild symptoms.

The threshold for viral relapse was defined by an increase of at least 0.5 log10 RNA copies/mL from one nasal swab to the next, while high-level viral relapse was defined by an increase of at least 5.0 log10 RNA copies/mL. The former threshold was chosen based on previous analysis of viral rebound after nirmatrelvir treatment in the EPIC-HR phase 3 trial, whereas the high-level relapse point was based on Dr. Li and colleagues’ previous work linking this cutoff with the presence of infectious virus.

Their present analysis revealed that 26% of patients had symptom relapse at a median of 11 days after first symptom onset. Viral relapse occurred in 31% of patients, while high-level viral relapse occurred in 13% of participants. In about 9 out 10 cases, these relapses were detected at only one time point, suggesting they were transient. Of note, symptom relapse and high-level viral relapse occurred simultaneously in only 3% of patients.

This lack of correlation was “surprising” and “highlights that recovery from any infection is not always a linear process,” Dr. Li said.

This finding also suggests that untreated patients with recurring symptoms probably pose a low risk of contagion, according to David Wohl, MD, coauthor of the paper and professor of medicine in the division of infectious diseases at the University of North Carolina at Chapel Hill.
 

Paxlovid may not be to blame for COVID-19 rebound

“These results provide important context for the reports of Paxlovid rebound and show that baseline rates of symptom and viral relapse should be accounted for when studying the risk of rebound after antiviral therapy,” Dr. Li said.

Dr. Wohl suggested that these data can also play a role in conversations with patients who experience rebound after taking antiviral therapy.

“Many who have a return of their symptoms after taking Paxlovid blame the drug, and that may be justified, but this study suggests it happens in untreated people too,” Dr. Wohl said in a written comment.
 

Longer antiviral therapy deserves investigation

This is a “very important study” because it offers a baseline for comparing the natural history of COVID-19 with clinical course after antiviral therapy, said Timothy Henrich, MD, associate professor in the division of experimental medicine at University of California, San Francisco.

“Unlike this natural history, where it’s kind of sputtering up and down as it goes down, [after antiviral therapy,] it goes away for several days, and then it comes back up; and when it comes up, people have symptoms again,” Dr. Henrich said in an interview.

This suggests that each type of rebound is a unique phenomenon and, from a clinical perspective, that antiviral therapy may need to be extended.

“We treat for too short a period of time,” Dr. Henrich said. “We’re able to suppress [SARS-CoV-2] to the point where we’re not detecting it in the nasal pharynx, but it’s clearly still there. And it’s clearly still in a place that can replicate without the drug.”

That said, treating for longer may not be a sure-fire solution, especially if antiviral therapy is started early in the clinical course, as this could delay SARS-CoV-2-specific immune responses that are necessary for resolution, Dr. Henrich added,

“We need further study of longer-term therapies,” he said.

An array of research questions need to be addressed, according to Aditya Shah, MBBS, an infectious disease specialist at Mayo Clinic, Rochester, Minn. In a written comment, he probed the significance of rebound in various clinical scenarios.

“What [type of] rebound matters and what doesn’t?” Dr. Shah asked. “Does symptom rebound matter? How many untreated and treated ‘symptom rebounders’ need additional treatment or health care? If rebound does not really matter, but if Paxlovid helps in certain unvaccinated and high-risk patients, then does rebound matter? Future research should also focus on Paxlovid utility in vaccinated but high-risk patients. Is it as beneficial in them as it is in unvaccinated high-risk patients?”

While potentially regimen-altering questions like these remain unanswered, Dr. Henrich advised providers to keep patients focused on what we do know about the benefits of antiviral therapy given the current 5-day course, which is that it reduces the risk of severe disease and hospitalization.

The investigators disclosed relationships with Merck, Gilead, ViiV, and others. Dr. Henrich disclosed grant support from Merck and a consulting role with Roche. Dr. Shah disclosed no conflicts of interest.

Approximately one in four patients with untreated COVID-19 experience symptom relapse, while almost one in three exhibits relapse of viral load, a recent study finds.

These findings offer a natural history of COVID-19 that will inform discussions and research concerning antiviral therapy, lead author Jonathan Z. Li, MD, associate professor of infectious disease at Brigham and Women’s Hospital and Harvard Medical School, both in Boston, and colleagues reported in Annals of Internal Medicine.

“There are increasing reports that high-risk patients are avoiding nirmatrelvir-ritonavir due to concerns about post-Paxlovid rebound, but there remains a gap in our knowledge of the frequency of symptom and viral relapse during untreated natural infection,” Dr. Li said in a written comment.

To address this gap, Dr. Li and colleagues analyzed data from 563 participants from the placebo group of the Adaptive Platform Treatment Trial for Outpatients with COVID-19 (ACTIV-2/A5401).

From days 0-28, patients recorded severity of 13 symptoms, with scores ranging from absent to severe (absent = 0, mild = 1, moderate = 2, severe = 3). RNA testing was performed on samples from nasal swabs on days 0–14, 21, and 28.

“The symptom rebound definition was determined by consensus of the study team, which comprises more than 10 infectious disease, pulmonary, and critical care physicians, as likely representing a clinically meaningful change in symptoms,” Dr. Li said.

Symptom scores needed to increase by at least 4 points to reach the threshold. For instance, a patient would qualify for relapse if they had worsening of four symptoms from mild to moderate, emergence of two new moderate symptoms, or emergence of one new moderate and two new mild symptoms.

The threshold for viral relapse was defined by an increase of at least 0.5 log10 RNA copies/mL from one nasal swab to the next, while high-level viral relapse was defined by an increase of at least 5.0 log10 RNA copies/mL. The former threshold was chosen based on previous analysis of viral rebound after nirmatrelvir treatment in the EPIC-HR phase 3 trial, whereas the high-level relapse point was based on Dr. Li and colleagues’ previous work linking this cutoff with the presence of infectious virus.

Their present analysis revealed that 26% of patients had symptom relapse at a median of 11 days after first symptom onset. Viral relapse occurred in 31% of patients, while high-level viral relapse occurred in 13% of participants. In about 9 out 10 cases, these relapses were detected at only one time point, suggesting they were transient. Of note, symptom relapse and high-level viral relapse occurred simultaneously in only 3% of patients.

This lack of correlation was “surprising” and “highlights that recovery from any infection is not always a linear process,” Dr. Li said.

This finding also suggests that untreated patients with recurring symptoms probably pose a low risk of contagion, according to David Wohl, MD, coauthor of the paper and professor of medicine in the division of infectious diseases at the University of North Carolina at Chapel Hill.
 

Paxlovid may not be to blame for COVID-19 rebound

“These results provide important context for the reports of Paxlovid rebound and show that baseline rates of symptom and viral relapse should be accounted for when studying the risk of rebound after antiviral therapy,” Dr. Li said.

Dr. Wohl suggested that these data can also play a role in conversations with patients who experience rebound after taking antiviral therapy.

“Many who have a return of their symptoms after taking Paxlovid blame the drug, and that may be justified, but this study suggests it happens in untreated people too,” Dr. Wohl said in a written comment.
 

Longer antiviral therapy deserves investigation

This is a “very important study” because it offers a baseline for comparing the natural history of COVID-19 with clinical course after antiviral therapy, said Timothy Henrich, MD, associate professor in the division of experimental medicine at University of California, San Francisco.

“Unlike this natural history, where it’s kind of sputtering up and down as it goes down, [after antiviral therapy,] it goes away for several days, and then it comes back up; and when it comes up, people have symptoms again,” Dr. Henrich said in an interview.

This suggests that each type of rebound is a unique phenomenon and, from a clinical perspective, that antiviral therapy may need to be extended.

“We treat for too short a period of time,” Dr. Henrich said. “We’re able to suppress [SARS-CoV-2] to the point where we’re not detecting it in the nasal pharynx, but it’s clearly still there. And it’s clearly still in a place that can replicate without the drug.”

That said, treating for longer may not be a sure-fire solution, especially if antiviral therapy is started early in the clinical course, as this could delay SARS-CoV-2-specific immune responses that are necessary for resolution, Dr. Henrich added,

“We need further study of longer-term therapies,” he said.

An array of research questions need to be addressed, according to Aditya Shah, MBBS, an infectious disease specialist at Mayo Clinic, Rochester, Minn. In a written comment, he probed the significance of rebound in various clinical scenarios.

“What [type of] rebound matters and what doesn’t?” Dr. Shah asked. “Does symptom rebound matter? How many untreated and treated ‘symptom rebounders’ need additional treatment or health care? If rebound does not really matter, but if Paxlovid helps in certain unvaccinated and high-risk patients, then does rebound matter? Future research should also focus on Paxlovid utility in vaccinated but high-risk patients. Is it as beneficial in them as it is in unvaccinated high-risk patients?”

While potentially regimen-altering questions like these remain unanswered, Dr. Henrich advised providers to keep patients focused on what we do know about the benefits of antiviral therapy given the current 5-day course, which is that it reduces the risk of severe disease and hospitalization.

The investigators disclosed relationships with Merck, Gilead, ViiV, and others. Dr. Henrich disclosed grant support from Merck and a consulting role with Roche. Dr. Shah disclosed no conflicts of interest.

Approximately one in four patients with untreated COVID-19 experience symptom relapse, while almost one in three exhibits relapse of viral load, a recent study finds.

These findings offer a natural history of COVID-19 that will inform discussions and research concerning antiviral therapy, lead author Jonathan Z. Li, MD, associate professor of infectious disease at Brigham and Women’s Hospital and Harvard Medical School, both in Boston, and colleagues reported in Annals of Internal Medicine.

“There are increasing reports that high-risk patients are avoiding nirmatrelvir-ritonavir due to concerns about post-Paxlovid rebound, but there remains a gap in our knowledge of the frequency of symptom and viral relapse during untreated natural infection,” Dr. Li said in a written comment.

To address this gap, Dr. Li and colleagues analyzed data from 563 participants from the placebo group of the Adaptive Platform Treatment Trial for Outpatients with COVID-19 (ACTIV-2/A5401).

From days 0-28, patients recorded severity of 13 symptoms, with scores ranging from absent to severe (absent = 0, mild = 1, moderate = 2, severe = 3). RNA testing was performed on samples from nasal swabs on days 0–14, 21, and 28.

“The symptom rebound definition was determined by consensus of the study team, which comprises more than 10 infectious disease, pulmonary, and critical care physicians, as likely representing a clinically meaningful change in symptoms,” Dr. Li said.

Symptom scores needed to increase by at least 4 points to reach the threshold. For instance, a patient would qualify for relapse if they had worsening of four symptoms from mild to moderate, emergence of two new moderate symptoms, or emergence of one new moderate and two new mild symptoms.

The threshold for viral relapse was defined by an increase of at least 0.5 log10 RNA copies/mL from one nasal swab to the next, while high-level viral relapse was defined by an increase of at least 5.0 log10 RNA copies/mL. The former threshold was chosen based on previous analysis of viral rebound after nirmatrelvir treatment in the EPIC-HR phase 3 trial, whereas the high-level relapse point was based on Dr. Li and colleagues’ previous work linking this cutoff with the presence of infectious virus.

Their present analysis revealed that 26% of patients had symptom relapse at a median of 11 days after first symptom onset. Viral relapse occurred in 31% of patients, while high-level viral relapse occurred in 13% of participants. In about 9 out 10 cases, these relapses were detected at only one time point, suggesting they were transient. Of note, symptom relapse and high-level viral relapse occurred simultaneously in only 3% of patients.

This lack of correlation was “surprising” and “highlights that recovery from any infection is not always a linear process,” Dr. Li said.

This finding also suggests that untreated patients with recurring symptoms probably pose a low risk of contagion, according to David Wohl, MD, coauthor of the paper and professor of medicine in the division of infectious diseases at the University of North Carolina at Chapel Hill.
 

Paxlovid may not be to blame for COVID-19 rebound

“These results provide important context for the reports of Paxlovid rebound and show that baseline rates of symptom and viral relapse should be accounted for when studying the risk of rebound after antiviral therapy,” Dr. Li said.

Dr. Wohl suggested that these data can also play a role in conversations with patients who experience rebound after taking antiviral therapy.

“Many who have a return of their symptoms after taking Paxlovid blame the drug, and that may be justified, but this study suggests it happens in untreated people too,” Dr. Wohl said in a written comment.
 

Longer antiviral therapy deserves investigation

This is a “very important study” because it offers a baseline for comparing the natural history of COVID-19 with clinical course after antiviral therapy, said Timothy Henrich, MD, associate professor in the division of experimental medicine at University of California, San Francisco.

“Unlike this natural history, where it’s kind of sputtering up and down as it goes down, [after antiviral therapy,] it goes away for several days, and then it comes back up; and when it comes up, people have symptoms again,” Dr. Henrich said in an interview.

This suggests that each type of rebound is a unique phenomenon and, from a clinical perspective, that antiviral therapy may need to be extended.

“We treat for too short a period of time,” Dr. Henrich said. “We’re able to suppress [SARS-CoV-2] to the point where we’re not detecting it in the nasal pharynx, but it’s clearly still there. And it’s clearly still in a place that can replicate without the drug.”

That said, treating for longer may not be a sure-fire solution, especially if antiviral therapy is started early in the clinical course, as this could delay SARS-CoV-2-specific immune responses that are necessary for resolution, Dr. Henrich added,

“We need further study of longer-term therapies,” he said.

An array of research questions need to be addressed, according to Aditya Shah, MBBS, an infectious disease specialist at Mayo Clinic, Rochester, Minn. In a written comment, he probed the significance of rebound in various clinical scenarios.

“What [type of] rebound matters and what doesn’t?” Dr. Shah asked. “Does symptom rebound matter? How many untreated and treated ‘symptom rebounders’ need additional treatment or health care? If rebound does not really matter, but if Paxlovid helps in certain unvaccinated and high-risk patients, then does rebound matter? Future research should also focus on Paxlovid utility in vaccinated but high-risk patients. Is it as beneficial in them as it is in unvaccinated high-risk patients?”

While potentially regimen-altering questions like these remain unanswered, Dr. Henrich advised providers to keep patients focused on what we do know about the benefits of antiviral therapy given the current 5-day course, which is that it reduces the risk of severe disease and hospitalization.

The investigators disclosed relationships with Merck, Gilead, ViiV, and others. Dr. Henrich disclosed grant support from Merck and a consulting role with Roche. Dr. Shah disclosed no conflicts of interest.

A diagnostic workup for pulmonary embolism (PE) should be performed in all patients with recent onset of exertional dyspnea, according to the authors of an article published in the Journal of Thrombosis and Haemostasis. That conclusion emerged from an analysis of PE prevalence in 417 patients with recent marked exertional dyspnea performing previously well-tolerated physical activities.

Exertional dyspnea is a frequently encountered complaint in clinical practice. Missteps in both diagnosis and early management, however, have been found to be prevalent in emergency department practices. PE diagnosis can be delayed or altogether missed through nonspecific clinical manifestations or the absence of typical signs and symptoms, with a complicated clinical course or mortality as a consequence, stated the researchers. Also, failure to diagnose PE is a common malpractice allegation.

Noting that the prevalence of PE among patients with dyspnea on exertion has not been reported, the authors hypothesized: “PE might be a frequent underlying condition in patients presenting for care complaining of marked dyspnea on exertion of recent onset.”

In a multicenter prospective, cross-sectional study among 14 university or hospital centers in Italy, patients who were referred for outpatient evaluation with recent (< 1 month) dyspnea on exertion with a severity of 3 or 4 on the modified Medical Research Council dyspnea scale were potentially eligible for the study. Prior deep-vein thrombosis (DVT), PE, and use of therapeutic anticoagulation were among exclusion criteria. All patients aged 75 years or younger with recent (< 1 month) marked exertional dyspnea had a systematic workup for PE, irrespective of concomitant signs or symptoms of venous thromboembolism and alternative explanations for dyspnea. The main study outcome was prevalence of PE in the entire cohort of patients with recent marked dyspnea on exertion.

When about 400 patients had been enrolled after an interim analysis in which the preestablished stopping rule (if the lower limit of the 95% confidence interval of the prevalence of PE exceeds 20%) was met, the study was prematurely terminated. PE was found, after exclusion of 134 patients based on low PE clinical probability and normal D-dimer, in 134 (47.3%) of the remaining 283 patients. The overall PE prevalence was 32.1% (95% confidence interval, 27.8-36.8).

PE was present in 40 of 204 (19.6%) patients without other findings suspicious for PE and in 94 of 213 patients (44.1%) with PE-suspicious findings. PE involved a main pulmonary artery in 37% and multiple lobes in 87% of the patients.

The researchers pointed out that, while the prevalence of PE was highest (44%) in patients who had concomitant signs or symptoms suspicious of PE or underlying DVT, PE was detected in almost 20% of patients without concomitant PE signs and symptoms. Also, the detected pulmonary emboli were deemed significant.

“Our findings suggest that, regardless of the diagnostic algorithm in use, physicians should rule in or out PE in patients who solely report recent onset of marked dyspnea on exertion,” they concluded.

Agreeing with the authors’ conclusions, Mary Jo S. Farmer, MD, PhD, of the department of medicine at University of Massachusetts, Worcester, stated in an interview, “The results of the current study support a diagnostic workup for pulmonary embolus in all patients with recent onset of exertional dyspnea.” She added, “Pulmonary emboli detected were significant as almost all were segmental or more proximal emboli involving multiple lobes. The observed overall prevalence of pulmonary embolus of 32% may seem high when compared with the low prevalence of 7%-13% reported in other studies of patients with suspected pulmonary embolus. However, the prevalence of pulmonary embolus among emergency department cohorts in European countries is generally higher, as is the diagnostic yield from [CT pulmonary angiogram] compared to North American countries. This could be explained by differences in applied thresholds for suspicion of pulmonary embolus. The incidence of COVID-19 and association with thrombosis was not reported.

“It has been reported that nonspecific clinical manifestations and absence of typical signs and symptoms can result in delay in diagnosis of pulmonary embolus or result in pulmonary embolus being missed, an unfortunate situation that could result in malpractice allegation.” Dr. Farmer concluded.

Among limitations of the study, the authors noted that their results are not applicable to patients older than 75 years or patients with chronic (more than 1 month) symptoms of dyspnea or less severe dyspnea (modified Medical Research Council dyspnea score of 2 or lower). Also, no attempt to stratify the clinical relevance of PE was made.

The study was funded by the Arianna Foundation on Anticoagulation, Bologna, Italy. The authors reported that they had no potential conflicts. Dr. Farmer also declared she had no relevant conflicts.

A diagnostic workup for pulmonary embolism (PE) should be performed in all patients with recent onset of exertional dyspnea, according to the authors of an article published in the Journal of Thrombosis and Haemostasis. That conclusion emerged from an analysis of PE prevalence in 417 patients with recent marked exertional dyspnea performing previously well-tolerated physical activities.

Exertional dyspnea is a frequently encountered complaint in clinical practice. Missteps in both diagnosis and early management, however, have been found to be prevalent in emergency department practices. PE diagnosis can be delayed or altogether missed through nonspecific clinical manifestations or the absence of typical signs and symptoms, with a complicated clinical course or mortality as a consequence, stated the researchers. Also, failure to diagnose PE is a common malpractice allegation.

Noting that the prevalence of PE among patients with dyspnea on exertion has not been reported, the authors hypothesized: “PE might be a frequent underlying condition in patients presenting for care complaining of marked dyspnea on exertion of recent onset.”

In a multicenter prospective, cross-sectional study among 14 university or hospital centers in Italy, patients who were referred for outpatient evaluation with recent (< 1 month) dyspnea on exertion with a severity of 3 or 4 on the modified Medical Research Council dyspnea scale were potentially eligible for the study. Prior deep-vein thrombosis (DVT), PE, and use of therapeutic anticoagulation were among exclusion criteria. All patients aged 75 years or younger with recent (< 1 month) marked exertional dyspnea had a systematic workup for PE, irrespective of concomitant signs or symptoms of venous thromboembolism and alternative explanations for dyspnea. The main study outcome was prevalence of PE in the entire cohort of patients with recent marked dyspnea on exertion.

When about 400 patients had been enrolled after an interim analysis in which the preestablished stopping rule (if the lower limit of the 95% confidence interval of the prevalence of PE exceeds 20%) was met, the study was prematurely terminated. PE was found, after exclusion of 134 patients based on low PE clinical probability and normal D-dimer, in 134 (47.3%) of the remaining 283 patients. The overall PE prevalence was 32.1% (95% confidence interval, 27.8-36.8).

PE was present in 40 of 204 (19.6%) patients without other findings suspicious for PE and in 94 of 213 patients (44.1%) with PE-suspicious findings. PE involved a main pulmonary artery in 37% and multiple lobes in 87% of the patients.

The researchers pointed out that, while the prevalence of PE was highest (44%) in patients who had concomitant signs or symptoms suspicious of PE or underlying DVT, PE was detected in almost 20% of patients without concomitant PE signs and symptoms. Also, the detected pulmonary emboli were deemed significant.

“Our findings suggest that, regardless of the diagnostic algorithm in use, physicians should rule in or out PE in patients who solely report recent onset of marked dyspnea on exertion,” they concluded.

Agreeing with the authors’ conclusions, Mary Jo S. Farmer, MD, PhD, of the department of medicine at University of Massachusetts, Worcester, stated in an interview, “The results of the current study support a diagnostic workup for pulmonary embolus in all patients with recent onset of exertional dyspnea.” She added, “Pulmonary emboli detected were significant as almost all were segmental or more proximal emboli involving multiple lobes. The observed overall prevalence of pulmonary embolus of 32% may seem high when compared with the low prevalence of 7%-13% reported in other studies of patients with suspected pulmonary embolus. However, the prevalence of pulmonary embolus among emergency department cohorts in European countries is generally higher, as is the diagnostic yield from [CT pulmonary angiogram] compared to North American countries. This could be explained by differences in applied thresholds for suspicion of pulmonary embolus. The incidence of COVID-19 and association with thrombosis was not reported.

“It has been reported that nonspecific clinical manifestations and absence of typical signs and symptoms can result in delay in diagnosis of pulmonary embolus or result in pulmonary embolus being missed, an unfortunate situation that could result in malpractice allegation.” Dr. Farmer concluded.

Among limitations of the study, the authors noted that their results are not applicable to patients older than 75 years or patients with chronic (more than 1 month) symptoms of dyspnea or less severe dyspnea (modified Medical Research Council dyspnea score of 2 or lower). Also, no attempt to stratify the clinical relevance of PE was made.

The study was funded by the Arianna Foundation on Anticoagulation, Bologna, Italy. The authors reported that they had no potential conflicts. Dr. Farmer also declared she had no relevant conflicts.

A diagnostic workup for pulmonary embolism (PE) should be performed in all patients with recent onset of exertional dyspnea, according to the authors of an article published in the Journal of Thrombosis and Haemostasis. That conclusion emerged from an analysis of PE prevalence in 417 patients with recent marked exertional dyspnea performing previously well-tolerated physical activities.

Exertional dyspnea is a frequently encountered complaint in clinical practice. Missteps in both diagnosis and early management, however, have been found to be prevalent in emergency department practices. PE diagnosis can be delayed or altogether missed through nonspecific clinical manifestations or the absence of typical signs and symptoms, with a complicated clinical course or mortality as a consequence, stated the researchers. Also, failure to diagnose PE is a common malpractice allegation.

Noting that the prevalence of PE among patients with dyspnea on exertion has not been reported, the authors hypothesized: “PE might be a frequent underlying condition in patients presenting for care complaining of marked dyspnea on exertion of recent onset.”

In a multicenter prospective, cross-sectional study among 14 university or hospital centers in Italy, patients who were referred for outpatient evaluation with recent (< 1 month) dyspnea on exertion with a severity of 3 or 4 on the modified Medical Research Council dyspnea scale were potentially eligible for the study. Prior deep-vein thrombosis (DVT), PE, and use of therapeutic anticoagulation were among exclusion criteria. All patients aged 75 years or younger with recent (< 1 month) marked exertional dyspnea had a systematic workup for PE, irrespective of concomitant signs or symptoms of venous thromboembolism and alternative explanations for dyspnea. The main study outcome was prevalence of PE in the entire cohort of patients with recent marked dyspnea on exertion.

When about 400 patients had been enrolled after an interim analysis in which the preestablished stopping rule (if the lower limit of the 95% confidence interval of the prevalence of PE exceeds 20%) was met, the study was prematurely terminated. PE was found, after exclusion of 134 patients based on low PE clinical probability and normal D-dimer, in 134 (47.3%) of the remaining 283 patients. The overall PE prevalence was 32.1% (95% confidence interval, 27.8-36.8).

PE was present in 40 of 204 (19.6%) patients without other findings suspicious for PE and in 94 of 213 patients (44.1%) with PE-suspicious findings. PE involved a main pulmonary artery in 37% and multiple lobes in 87% of the patients.

The researchers pointed out that, while the prevalence of PE was highest (44%) in patients who had concomitant signs or symptoms suspicious of PE or underlying DVT, PE was detected in almost 20% of patients without concomitant PE signs and symptoms. Also, the detected pulmonary emboli were deemed significant.

“Our findings suggest that, regardless of the diagnostic algorithm in use, physicians should rule in or out PE in patients who solely report recent onset of marked dyspnea on exertion,” they concluded.

Agreeing with the authors’ conclusions, Mary Jo S. Farmer, MD, PhD, of the department of medicine at University of Massachusetts, Worcester, stated in an interview, “The results of the current study support a diagnostic workup for pulmonary embolus in all patients with recent onset of exertional dyspnea.” She added, “Pulmonary emboli detected were significant as almost all were segmental or more proximal emboli involving multiple lobes. The observed overall prevalence of pulmonary embolus of 32% may seem high when compared with the low prevalence of 7%-13% reported in other studies of patients with suspected pulmonary embolus. However, the prevalence of pulmonary embolus among emergency department cohorts in European countries is generally higher, as is the diagnostic yield from [CT pulmonary angiogram] compared to North American countries. This could be explained by differences in applied thresholds for suspicion of pulmonary embolus. The incidence of COVID-19 and association with thrombosis was not reported.

“It has been reported that nonspecific clinical manifestations and absence of typical signs and symptoms can result in delay in diagnosis of pulmonary embolus or result in pulmonary embolus being missed, an unfortunate situation that could result in malpractice allegation.” Dr. Farmer concluded.

Among limitations of the study, the authors noted that their results are not applicable to patients older than 75 years or patients with chronic (more than 1 month) symptoms of dyspnea or less severe dyspnea (modified Medical Research Council dyspnea score of 2 or lower). Also, no attempt to stratify the clinical relevance of PE was made.

The study was funded by the Arianna Foundation on Anticoagulation, Bologna, Italy. The authors reported that they had no potential conflicts. Dr. Farmer also declared she had no relevant conflicts.

Physicians routinely monitor cholesterol, blood pressure, and glucose levels to get a clearer picture of their patients’ overall health. But a group of experts argues that having an accurate read of a person’s ability to absorb oxygen during peak exertion – VO₂ max – is just as important.

Once the focus of cyclists and other elite athletes, VO₂ max has in recent years caught the attention of geriatricians, who have linked the measure to maximum functional capacity – an umbrella term for the body’s ability to perform aerobic exercise.

“Function is prognostic of mortality,” said Daniel E. Forman, MD, FAHA, FACC, professor of medicine and chair of the section of geriatric cardiology at the University of Pittsburgh Medical Center. “If you aren’t looking at that, you’re missing the boat.”

Although cardiopulmonary exercise testing (CPET) remains the gold standard for assessing VO₂ max, Dr. Forman said clinicians often overlook CPET because it is old.
 

Getting precise

As a person ages, the amount of physical activity needed to stay fit varies, depending on genes, health, and fitness history. Measuring VO₂ max can help doctors better prescribe physical activity, both with regard to specific exercises and for how long, Claudio Gil Araújo, MD, PhD, dean of research and education at the Exercise Medicine Clinic at CLINIMEX in Rio de Janeiro, Brazil, told this news organization. The test can also measure progress.

“Guidelines talk about how much exercise you should do every week, but it’s somewhat misleading because the health outcomes are much more linked to physical fitness than the amount of exercise you do,” Dr. Araújo said. Treating a patient with hypertension requires an individualized approach. “The same thing is true with exercise,” he said.

A person with high aerobic fitness, either because of favorable genetics or because he or she has maintained good fitness by exercising, may need less activity, but 200 minutes per week may not be enough for someone else.

In his own lab, Dr. Araújo is following “dozens” of men and women who have been able to increase their ability to exercise – especially high-intensity activity – over time. And their VO₂ max readings have risen, he said.

Getting patients moving and collecting data on VO₂ max is the most precise way to measure aerobic fitness. But the test is far from a staple in primary care.

Dr. Araújo said a growing body of research has long shown VO₂ max to be a significant determinant of health and one that physicians should be paying closer attention to, especially for aging patients.

“If someone has a low VO₂ max, the treatment to correct this unfavorable health profile is to increase exercise levels,” Dr. Araújo said. “This is a very relevant public health message.”

Investigators have found that inactivity increases a person’s risk of dying from an atherosclerotic cardiovascular disease event by about the same amount as smoking, and that a sedentary lifestyle increases with age . A patient’s fitness is crucial to his or her overall health, and VO₂ max can play a key role. Poor performance on CPET could be a warning regarding a number of conditions, particularly cardiovascular and lung disease, Dr. Araújo said.

Indeed, acing the CPET is not easy.

“Your joints have to be normal, you can’t have low potassium, low sodium, or high blood sugar, your heart has to pump well, your blood vessels have to be healthy,” said Thomas Allison, PhD, MPH, director of the Integrated Stress Testing Center and the Sports Cardiology Clinic at Mayo Clinic, in Rochester, Minn. “All of those things can show up on the treadmill in terms of your VO₂ max.”

Low VO₂ max can be a physician’s first indication to investigate further. A review published in November 2022 in the International Journal of Cardiology Cardiovascular Risk and Prevention outlined what cross-sectional and longitudinal studies have documented regarding how VO₂ max changes as people age. From ages 18 to 35, VO₂ max remains fairly consistent. Between 35 and 55, it drops slightly but inexorably before falling sharply, if inconsistently. This inconsistency is where the important data lie.

“That lower level of physical activity may just be a behavioral change that needs to be reversed, or it could be a change that has been forced by underlying occult disease,” Dr. Allison said. That older people can’t run as fast as young people or are more likely to die in a given period than young people is not surprising. “The question is, at any given age, does your fitness level predict good health outcomes?” he said. “And the answer is yes.”

Fitness should be treated as any other data point, he added.

“If I want to know your blood pressure, I’m going to check your blood pressure; I’m not going to just ask you what it is,” Dr. Allison said. “If I ask if you have any limitations or symptoms with exercise or how physically active you are, if possible, I want to check that.”
 

Culture shift

Dr. Forman acknowledged that VO₂ max tests can be difficult and expensive to administer in offices that aren’t already equipped with CPET machines. He said conducting other assessments, such as observing the patient performing a short walk, won’t provide as accurate data but is better than not assessing function at all.

“Specialists all have different things they measure, but function is the common denominator. For an aging population, it is the number one thing we should be looking at,” Dr. Forman said. “It’s a skill set, it’s an investment, it’s a change in culture at a time when cardiologists are obsessed with getting the latest imaging machines.”

Dr. Allison said all cardiologists should assess their patients’ VO₂ max and that family medicine doctors should use the test for certain patients, such as those who have gained an unusual amount of weight or report being out of breath more than usual.

“We have all sorts of things that can go wrong with us as we get older, but if we’re sitting in a doctor’s office, it may not be apparent what they are,” Dr. Allison said. “We have to get patients up and moving.”

The authors have disclosed no relevant financial relationships.

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

Physicians routinely monitor cholesterol, blood pressure, and glucose levels to get a clearer picture of their patients’ overall health. But a group of experts argues that having an accurate read of a person’s ability to absorb oxygen during peak exertion – VO₂ max – is just as important.

Once the focus of cyclists and other elite athletes, VO₂ max has in recent years caught the attention of geriatricians, who have linked the measure to maximum functional capacity – an umbrella term for the body’s ability to perform aerobic exercise.

“Function is prognostic of mortality,” said Daniel E. Forman, MD, FAHA, FACC, professor of medicine and chair of the section of geriatric cardiology at the University of Pittsburgh Medical Center. “If you aren’t looking at that, you’re missing the boat.”

Although cardiopulmonary exercise testing (CPET) remains the gold standard for assessing VO₂ max, Dr. Forman said clinicians often overlook CPET because it is old.
 

Getting precise

As a person ages, the amount of physical activity needed to stay fit varies, depending on genes, health, and fitness history. Measuring VO₂ max can help doctors better prescribe physical activity, both with regard to specific exercises and for how long, Claudio Gil Araújo, MD, PhD, dean of research and education at the Exercise Medicine Clinic at CLINIMEX in Rio de Janeiro, Brazil, told this news organization. The test can also measure progress.

“Guidelines talk about how much exercise you should do every week, but it’s somewhat misleading because the health outcomes are much more linked to physical fitness than the amount of exercise you do,” Dr. Araújo said. Treating a patient with hypertension requires an individualized approach. “The same thing is true with exercise,” he said.

A person with high aerobic fitness, either because of favorable genetics or because he or she has maintained good fitness by exercising, may need less activity, but 200 minutes per week may not be enough for someone else.

In his own lab, Dr. Araújo is following “dozens” of men and women who have been able to increase their ability to exercise – especially high-intensity activity – over time. And their VO₂ max readings have risen, he said.

Getting patients moving and collecting data on VO₂ max is the most precise way to measure aerobic fitness. But the test is far from a staple in primary care.

Dr. Araújo said a growing body of research has long shown VO₂ max to be a significant determinant of health and one that physicians should be paying closer attention to, especially for aging patients.

“If someone has a low VO₂ max, the treatment to correct this unfavorable health profile is to increase exercise levels,” Dr. Araújo said. “This is a very relevant public health message.”

Investigators have found that inactivity increases a person’s risk of dying from an atherosclerotic cardiovascular disease event by about the same amount as smoking, and that a sedentary lifestyle increases with age . A patient’s fitness is crucial to his or her overall health, and VO₂ max can play a key role. Poor performance on CPET could be a warning regarding a number of conditions, particularly cardiovascular and lung disease, Dr. Araújo said.

Indeed, acing the CPET is not easy.

“Your joints have to be normal, you can’t have low potassium, low sodium, or high blood sugar, your heart has to pump well, your blood vessels have to be healthy,” said Thomas Allison, PhD, MPH, director of the Integrated Stress Testing Center and the Sports Cardiology Clinic at Mayo Clinic, in Rochester, Minn. “All of those things can show up on the treadmill in terms of your VO₂ max.”

Low VO₂ max can be a physician’s first indication to investigate further. A review published in November 2022 in the International Journal of Cardiology Cardiovascular Risk and Prevention outlined what cross-sectional and longitudinal studies have documented regarding how VO₂ max changes as people age. From ages 18 to 35, VO₂ max remains fairly consistent. Between 35 and 55, it drops slightly but inexorably before falling sharply, if inconsistently. This inconsistency is where the important data lie.

“That lower level of physical activity may just be a behavioral change that needs to be reversed, or it could be a change that has been forced by underlying occult disease,” Dr. Allison said. That older people can’t run as fast as young people or are more likely to die in a given period than young people is not surprising. “The question is, at any given age, does your fitness level predict good health outcomes?” he said. “And the answer is yes.”

Fitness should be treated as any other data point, he added.

“If I want to know your blood pressure, I’m going to check your blood pressure; I’m not going to just ask you what it is,” Dr. Allison said. “If I ask if you have any limitations or symptoms with exercise or how physically active you are, if possible, I want to check that.”
 

Culture shift

Dr. Forman acknowledged that VO₂ max tests can be difficult and expensive to administer in offices that aren’t already equipped with CPET machines. He said conducting other assessments, such as observing the patient performing a short walk, won’t provide as accurate data but is better than not assessing function at all.

“Specialists all have different things they measure, but function is the common denominator. For an aging population, it is the number one thing we should be looking at,” Dr. Forman said. “It’s a skill set, it’s an investment, it’s a change in culture at a time when cardiologists are obsessed with getting the latest imaging machines.”

Dr. Allison said all cardiologists should assess their patients’ VO₂ max and that family medicine doctors should use the test for certain patients, such as those who have gained an unusual amount of weight or report being out of breath more than usual.

“We have all sorts of things that can go wrong with us as we get older, but if we’re sitting in a doctor’s office, it may not be apparent what they are,” Dr. Allison said. “We have to get patients up and moving.”

The authors have disclosed no relevant financial relationships.

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

Physicians routinely monitor cholesterol, blood pressure, and glucose levels to get a clearer picture of their patients’ overall health. But a group of experts argues that having an accurate read of a person’s ability to absorb oxygen during peak exertion – VO₂ max – is just as important.

Once the focus of cyclists and other elite athletes, VO₂ max has in recent years caught the attention of geriatricians, who have linked the measure to maximum functional capacity – an umbrella term for the body’s ability to perform aerobic exercise.

“Function is prognostic of mortality,” said Daniel E. Forman, MD, FAHA, FACC, professor of medicine and chair of the section of geriatric cardiology at the University of Pittsburgh Medical Center. “If you aren’t looking at that, you’re missing the boat.”

Although cardiopulmonary exercise testing (CPET) remains the gold standard for assessing VO₂ max, Dr. Forman said clinicians often overlook CPET because it is old.
 

Getting precise

As a person ages, the amount of physical activity needed to stay fit varies, depending on genes, health, and fitness history. Measuring VO₂ max can help doctors better prescribe physical activity, both with regard to specific exercises and for how long, Claudio Gil Araújo, MD, PhD, dean of research and education at the Exercise Medicine Clinic at CLINIMEX in Rio de Janeiro, Brazil, told this news organization. The test can also measure progress.

“Guidelines talk about how much exercise you should do every week, but it’s somewhat misleading because the health outcomes are much more linked to physical fitness than the amount of exercise you do,” Dr. Araújo said. Treating a patient with hypertension requires an individualized approach. “The same thing is true with exercise,” he said.

A person with high aerobic fitness, either because of favorable genetics or because he or she has maintained good fitness by exercising, may need less activity, but 200 minutes per week may not be enough for someone else.

In his own lab, Dr. Araújo is following “dozens” of men and women who have been able to increase their ability to exercise – especially high-intensity activity – over time. And their VO₂ max readings have risen, he said.

Getting patients moving and collecting data on VO₂ max is the most precise way to measure aerobic fitness. But the test is far from a staple in primary care.

Dr. Araújo said a growing body of research has long shown VO₂ max to be a significant determinant of health and one that physicians should be paying closer attention to, especially for aging patients.

“If someone has a low VO₂ max, the treatment to correct this unfavorable health profile is to increase exercise levels,” Dr. Araújo said. “This is a very relevant public health message.”

Investigators have found that inactivity increases a person’s risk of dying from an atherosclerotic cardiovascular disease event by about the same amount as smoking, and that a sedentary lifestyle increases with age . A patient’s fitness is crucial to his or her overall health, and VO₂ max can play a key role. Poor performance on CPET could be a warning regarding a number of conditions, particularly cardiovascular and lung disease, Dr. Araújo said.

Indeed, acing the CPET is not easy.

“Your joints have to be normal, you can’t have low potassium, low sodium, or high blood sugar, your heart has to pump well, your blood vessels have to be healthy,” said Thomas Allison, PhD, MPH, director of the Integrated Stress Testing Center and the Sports Cardiology Clinic at Mayo Clinic, in Rochester, Minn. “All of those things can show up on the treadmill in terms of your VO₂ max.”

Low VO₂ max can be a physician’s first indication to investigate further. A review published in November 2022 in the International Journal of Cardiology Cardiovascular Risk and Prevention outlined what cross-sectional and longitudinal studies have documented regarding how VO₂ max changes as people age. From ages 18 to 35, VO₂ max remains fairly consistent. Between 35 and 55, it drops slightly but inexorably before falling sharply, if inconsistently. This inconsistency is where the important data lie.

“That lower level of physical activity may just be a behavioral change that needs to be reversed, or it could be a change that has been forced by underlying occult disease,” Dr. Allison said. That older people can’t run as fast as young people or are more likely to die in a given period than young people is not surprising. “The question is, at any given age, does your fitness level predict good health outcomes?” he said. “And the answer is yes.”

Fitness should be treated as any other data point, he added.

“If I want to know your blood pressure, I’m going to check your blood pressure; I’m not going to just ask you what it is,” Dr. Allison said. “If I ask if you have any limitations or symptoms with exercise or how physically active you are, if possible, I want to check that.”
 

Culture shift

Dr. Forman acknowledged that VO₂ max tests can be difficult and expensive to administer in offices that aren’t already equipped with CPET machines. He said conducting other assessments, such as observing the patient performing a short walk, won’t provide as accurate data but is better than not assessing function at all.

“Specialists all have different things they measure, but function is the common denominator. For an aging population, it is the number one thing we should be looking at,” Dr. Forman said. “It’s a skill set, it’s an investment, it’s a change in culture at a time when cardiologists are obsessed with getting the latest imaging machines.”

Dr. Allison said all cardiologists should assess their patients’ VO₂ max and that family medicine doctors should use the test for certain patients, such as those who have gained an unusual amount of weight or report being out of breath more than usual.

“We have all sorts of things that can go wrong with us as we get older, but if we’re sitting in a doctor’s office, it may not be apparent what they are,” Dr. Allison said. “We have to get patients up and moving.”

The authors have disclosed no relevant financial relationships.

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

This transcript has been edited for clarity.

Dear colleagues, I am Christoph Diener from the medical faculty of the University of Duisburg-Essen in Germany. Today, I would like to discuss what happened in neurology in the past month.
 

Treatment of tension-type headache

I would like to start with headache. You are all aware that we have several new studies regarding the prevention of migraine, but very few studies involving nondrug treatments for tension-type headache.

A working group in Göttingen, Germany, conducted a study in people with frequent episodic and chronic tension-type headache. The first of the four randomized groups received traditional Chinese acupuncture for 3 months. The second group received physical therapy and exercise for 1 hour per week for 12 weeks. The third group received a combination of acupuncture and exercise. The last was a control group that received only standard care.

The outcome parameters of tension-type headache were evaluated after 6 months and again after 12 months. Previously, these same researchers published that the intensity but not the frequency of tension-type headache was reduced by active therapy.

In Cephalalgia, they published the outcome for the endpoints of depression, anxiety, and quality of life. Acupuncture, exercise, and the combination of the two improved depression, anxiety, and quality of life. This shows that nonmedical treatment is effective in people with frequent episodic and chronic tension-type headache.
 

Headache after COVID-19

The next study was published in Headache and discusses headache after COVID-19. In this review of published studies, more than 50% of people with COVID-19 develop headache. It is more frequent in young patients and people with preexisting primary headaches, such as migraine and tension-type headache. Prognosis is usually good, but some patients develop new, daily persistent headache, which is a major problem because treatment is unclear. We desperately need studies investigating how to treat this new, daily persistent headache after COVID-19.

SSRIs during COVID-19 infection

The next study also focuses on COVID-19. We have conflicting results from several studies suggesting that selective serotonin reuptake inhibitors might be effective in people with mild COVID-19 infection. This hypothesis was tested in a study in Brazil and was published in JAMA, The study included 1,288 outpatients with mild COVID-19 who either received 50 mg of fluvoxamine twice daily for 10 days or placebo. There was no benefit of the treatment for any outcome.

Preventing dementia with antihypertensive treatment

The next study was published in the European Heart Journal and addresses the question of whether effective antihypertensive treatment in elderly persons can prevent dementia. This is a meta-analysis of five placebo-controlled trials with more than 28,000 patients. The meta-analysis clearly shows that treating hypertension in elderly patients does prevent dementia. The benefit is higher if the blood pressure is lowered by a larger amount which also stays true for elderly patients. There is no negative impact of lowering blood pressure in this population.

Antiplatelet therapy

The next study was published in Stroke and reexamines whether resumption of antiplatelet therapy should be early or late in people who had an intracerebral hemorrhage while on antiplatelet therapy. In the Taiwanese Health Registry, this was studied in 1,584 patients. The researchers divided participants into groups based on whether antiplatelet therapy was resumed within 30 days or after 30 days. In 1 year, the rate of recurrent intracerebral hemorrhage was 3.2%. There was no difference whether antiplatelet therapy was resumed early or late.

Regular exercise in Parkinson’s disease

The final study is a review of nonmedical therapy. This meta-analysis of 19 randomized trials looked at the benefit of regular exercise in patients with Parkinson’s disease and depression. The analysis clearly showed that rigorous and moderate exercise improved depression in patients with Parkinson’s disease. This is very important because exercise improves not only the symptoms of Parkinson’s disease but also comorbid depression while presenting no serious adverse events or side effects.

Dr. Diener is a professor in the department of neurology at Stroke Center–Headache Center, University Duisburg-Essen, Germany. He disclosed ties with Abbott, Addex Pharma, Alder, Allergan, Almirall, Amgen, Autonomic Technology, AstraZeneca, Bayer Vital, Berlin Chemie, Bristol-Myers Squibb, Boehringer Ingelheim, Chordate, CoAxia, Corimmun, Covidien, Coherex, CoLucid, Daiichi Sankyo, D-Pharm, Electrocore, Fresenius, GlaxoSmithKline, Grunenthal, Janssen-Cilag, Labrys Biologics Lilly, La Roche, Lundbeck, 3M Medica, MSD, Medtronic, Menarini, MindFrame, Minster, Neuroscore, Neurobiological Technologies, Novartis, Novo Nordisk, Johnson & Johnson, Knoll, Paion, Parke-Davis, Pierre Fabre, Pfizer Inc, Schaper and Brummer, Sanofi-Aventis, Schering-Plough, Servier, Solvay, St. Jude, Talecris, Thrombogenics, WebMD Global, Weber and Weber, Wyeth, and Yamanouchi. Dr. Diener has served as editor of Aktuelle Neurologie, Arzneimitteltherapie, Kopfschmerz News, Stroke News, and the Treatment Guidelines of the German Neurological Society; as co-editor of Cephalalgia; and on the editorial board of The Lancet Neurology, Stroke, European Neurology, and Cerebrovascular Disorders. The department of neurology in Essen is supported by the German Research Council, the German Ministry of Education and Research, European Union, National Institutes of Health, Bertelsmann Foundation, and Heinz Nixdorf Foundation. Dr. Diener has no ownership interest and does not own stocks in any pharmaceutical company. A version of this article originally appeared on Medscape.com.

This transcript has been edited for clarity.

Dear colleagues, I am Christoph Diener from the medical faculty of the University of Duisburg-Essen in Germany. Today, I would like to discuss what happened in neurology in the past month.
 

Treatment of tension-type headache

I would like to start with headache. You are all aware that we have several new studies regarding the prevention of migraine, but very few studies involving nondrug treatments for tension-type headache.

A working group in Göttingen, Germany, conducted a study in people with frequent episodic and chronic tension-type headache. The first of the four randomized groups received traditional Chinese acupuncture for 3 months. The second group received physical therapy and exercise for 1 hour per week for 12 weeks. The third group received a combination of acupuncture and exercise. The last was a control group that received only standard care.

The outcome parameters of tension-type headache were evaluated after 6 months and again after 12 months. Previously, these same researchers published that the intensity but not the frequency of tension-type headache was reduced by active therapy.

In Cephalalgia, they published the outcome for the endpoints of depression, anxiety, and quality of life. Acupuncture, exercise, and the combination of the two improved depression, anxiety, and quality of life. This shows that nonmedical treatment is effective in people with frequent episodic and chronic tension-type headache.
 

Headache after COVID-19

The next study was published in Headache and discusses headache after COVID-19. In this review of published studies, more than 50% of people with COVID-19 develop headache. It is more frequent in young patients and people with preexisting primary headaches, such as migraine and tension-type headache. Prognosis is usually good, but some patients develop new, daily persistent headache, which is a major problem because treatment is unclear. We desperately need studies investigating how to treat this new, daily persistent headache after COVID-19.

SSRIs during COVID-19 infection

The next study also focuses on COVID-19. We have conflicting results from several studies suggesting that selective serotonin reuptake inhibitors might be effective in people with mild COVID-19 infection. This hypothesis was tested in a study in Brazil and was published in JAMA, The study included 1,288 outpatients with mild COVID-19 who either received 50 mg of fluvoxamine twice daily for 10 days or placebo. There was no benefit of the treatment for any outcome.

Preventing dementia with antihypertensive treatment

The next study was published in the European Heart Journal and addresses the question of whether effective antihypertensive treatment in elderly persons can prevent dementia. This is a meta-analysis of five placebo-controlled trials with more than 28,000 patients. The meta-analysis clearly shows that treating hypertension in elderly patients does prevent dementia. The benefit is higher if the blood pressure is lowered by a larger amount which also stays true for elderly patients. There is no negative impact of lowering blood pressure in this population.

Antiplatelet therapy

The next study was published in Stroke and reexamines whether resumption of antiplatelet therapy should be early or late in people who had an intracerebral hemorrhage while on antiplatelet therapy. In the Taiwanese Health Registry, this was studied in 1,584 patients. The researchers divided participants into groups based on whether antiplatelet therapy was resumed within 30 days or after 30 days. In 1 year, the rate of recurrent intracerebral hemorrhage was 3.2%. There was no difference whether antiplatelet therapy was resumed early or late.

Regular exercise in Parkinson’s disease

The final study is a review of nonmedical therapy. This meta-analysis of 19 randomized trials looked at the benefit of regular exercise in patients with Parkinson’s disease and depression. The analysis clearly showed that rigorous and moderate exercise improved depression in patients with Parkinson’s disease. This is very important because exercise improves not only the symptoms of Parkinson’s disease but also comorbid depression while presenting no serious adverse events or side effects.

Dr. Diener is a professor in the department of neurology at Stroke Center–Headache Center, University Duisburg-Essen, Germany. He disclosed ties with Abbott, Addex Pharma, Alder, Allergan, Almirall, Amgen, Autonomic Technology, AstraZeneca, Bayer Vital, Berlin Chemie, Bristol-Myers Squibb, Boehringer Ingelheim, Chordate, CoAxia, Corimmun, Covidien, Coherex, CoLucid, Daiichi Sankyo, D-Pharm, Electrocore, Fresenius, GlaxoSmithKline, Grunenthal, Janssen-Cilag, Labrys Biologics Lilly, La Roche, Lundbeck, 3M Medica, MSD, Medtronic, Menarini, MindFrame, Minster, Neuroscore, Neurobiological Technologies, Novartis, Novo Nordisk, Johnson & Johnson, Knoll, Paion, Parke-Davis, Pierre Fabre, Pfizer Inc, Schaper and Brummer, Sanofi-Aventis, Schering-Plough, Servier, Solvay, St. Jude, Talecris, Thrombogenics, WebMD Global, Weber and Weber, Wyeth, and Yamanouchi. Dr. Diener has served as editor of Aktuelle Neurologie, Arzneimitteltherapie, Kopfschmerz News, Stroke News, and the Treatment Guidelines of the German Neurological Society; as co-editor of Cephalalgia; and on the editorial board of The Lancet Neurology, Stroke, European Neurology, and Cerebrovascular Disorders. The department of neurology in Essen is supported by the German Research Council, the German Ministry of Education and Research, European Union, National Institutes of Health, Bertelsmann Foundation, and Heinz Nixdorf Foundation. Dr. Diener has no ownership interest and does not own stocks in any pharmaceutical company. A version of this article originally appeared on Medscape.com.

This transcript has been edited for clarity.

Dear colleagues, I am Christoph Diener from the medical faculty of the University of Duisburg-Essen in Germany. Today, I would like to discuss what happened in neurology in the past month.
 

Treatment of tension-type headache

I would like to start with headache. You are all aware that we have several new studies regarding the prevention of migraine, but very few studies involving nondrug treatments for tension-type headache.

A working group in Göttingen, Germany, conducted a study in people with frequent episodic and chronic tension-type headache. The first of the four randomized groups received traditional Chinese acupuncture for 3 months. The second group received physical therapy and exercise for 1 hour per week for 12 weeks. The third group received a combination of acupuncture and exercise. The last was a control group that received only standard care.

The outcome parameters of tension-type headache were evaluated after 6 months and again after 12 months. Previously, these same researchers published that the intensity but not the frequency of tension-type headache was reduced by active therapy.

In Cephalalgia, they published the outcome for the endpoints of depression, anxiety, and quality of life. Acupuncture, exercise, and the combination of the two improved depression, anxiety, and quality of life. This shows that nonmedical treatment is effective in people with frequent episodic and chronic tension-type headache.
 

Headache after COVID-19

The next study was published in Headache and discusses headache after COVID-19. In this review of published studies, more than 50% of people with COVID-19 develop headache. It is more frequent in young patients and people with preexisting primary headaches, such as migraine and tension-type headache. Prognosis is usually good, but some patients develop new, daily persistent headache, which is a major problem because treatment is unclear. We desperately need studies investigating how to treat this new, daily persistent headache after COVID-19.

SSRIs during COVID-19 infection

The next study also focuses on COVID-19. We have conflicting results from several studies suggesting that selective serotonin reuptake inhibitors might be effective in people with mild COVID-19 infection. This hypothesis was tested in a study in Brazil and was published in JAMA, The study included 1,288 outpatients with mild COVID-19 who either received 50 mg of fluvoxamine twice daily for 10 days or placebo. There was no benefit of the treatment for any outcome.

Preventing dementia with antihypertensive treatment

The next study was published in the European Heart Journal and addresses the question of whether effective antihypertensive treatment in elderly persons can prevent dementia. This is a meta-analysis of five placebo-controlled trials with more than 28,000 patients. The meta-analysis clearly shows that treating hypertension in elderly patients does prevent dementia. The benefit is higher if the blood pressure is lowered by a larger amount which also stays true for elderly patients. There is no negative impact of lowering blood pressure in this population.

Antiplatelet therapy

The next study was published in Stroke and reexamines whether resumption of antiplatelet therapy should be early or late in people who had an intracerebral hemorrhage while on antiplatelet therapy. In the Taiwanese Health Registry, this was studied in 1,584 patients. The researchers divided participants into groups based on whether antiplatelet therapy was resumed within 30 days or after 30 days. In 1 year, the rate of recurrent intracerebral hemorrhage was 3.2%. There was no difference whether antiplatelet therapy was resumed early or late.

Regular exercise in Parkinson’s disease

The final study is a review of nonmedical therapy. This meta-analysis of 19 randomized trials looked at the benefit of regular exercise in patients with Parkinson’s disease and depression. The analysis clearly showed that rigorous and moderate exercise improved depression in patients with Parkinson’s disease. This is very important because exercise improves not only the symptoms of Parkinson’s disease but also comorbid depression while presenting no serious adverse events or side effects.

Dr. Diener is a professor in the department of neurology at Stroke Center–Headache Center, University Duisburg-Essen, Germany. He disclosed ties with Abbott, Addex Pharma, Alder, Allergan, Almirall, Amgen, Autonomic Technology, AstraZeneca, Bayer Vital, Berlin Chemie, Bristol-Myers Squibb, Boehringer Ingelheim, Chordate, CoAxia, Corimmun, Covidien, Coherex, CoLucid, Daiichi Sankyo, D-Pharm, Electrocore, Fresenius, GlaxoSmithKline, Grunenthal, Janssen-Cilag, Labrys Biologics Lilly, La Roche, Lundbeck, 3M Medica, MSD, Medtronic, Menarini, MindFrame, Minster, Neuroscore, Neurobiological Technologies, Novartis, Novo Nordisk, Johnson & Johnson, Knoll, Paion, Parke-Davis, Pierre Fabre, Pfizer Inc, Schaper and Brummer, Sanofi-Aventis, Schering-Plough, Servier, Solvay, St. Jude, Talecris, Thrombogenics, WebMD Global, Weber and Weber, Wyeth, and Yamanouchi. Dr. Diener has served as editor of Aktuelle Neurologie, Arzneimitteltherapie, Kopfschmerz News, Stroke News, and the Treatment Guidelines of the German Neurological Society; as co-editor of Cephalalgia; and on the editorial board of The Lancet Neurology, Stroke, European Neurology, and Cerebrovascular Disorders. The department of neurology in Essen is supported by the German Research Council, the German Ministry of Education and Research, European Union, National Institutes of Health, Bertelsmann Foundation, and Heinz Nixdorf Foundation. Dr. Diener has no ownership interest and does not own stocks in any pharmaceutical company. A version of this article originally appeared on Medscape.com.

Some time ago I was invited to join a bipartisan congressional task force on valley fever, also known as coccidioidomycosis. A large and diverse crowd attended the task force’s first meeting in Bakersfield, Calif. – a meeting for everyone: the medical profession, the public, it even included veterinarians.

The whole thing was a resounding success. Francis Collins was there, the just-retired director of the NIH. Tom Frieden, then-director of the Centers for Disease Control and Prevention was there, as were several congresspeople and also my college roommate, a retired Navy medical corps captain. I was enjoying it.

Afterward, we had a banquet dinner at a restaurant in downtown Bakersfield. One of the people there was a woman I knew well – her husband was a physician friend. The restaurant served steak and salmon, and this woman made the mistake of ordering the steak.

Not long after the entrees were served, I heard a commotion at the table just behind me. I turned around and saw that woman in distress. A piece of steak had wedged in her trachea and she couldn’t breathe.

Almost immediately, the chef showed up. I don’t know how he got there. The chef at this restaurant was a big guy. I mean, probably 6 feet, 5 inches tall and 275 pounds. He tried the Heimlich maneuver. It didn’t work.

At that point, I jumped up. I thought, “Well, maybe I know how to do this better than him.” Probably not, actually. I tried and couldn’t make it work either. So I knew we were going to have to do something.

Paul Krogstad, my friend and research partner who is a pediatric infectious disease physician, stepped up and tried to put his finger in her throat and dig it out. He couldn’t get it. The patient had lost consciousness.

So, I’m thinking, okay, there’s really only one choice. You have to get an airway surgically.

I said, “We have to put her down on the floor.” And then I said, “Knife!”

I was looking at the steak knives on the table and they weren’t to my liking for doing a procedure. My college roommate – the retired Navy man – whipped out this very good pocketknife.

So, there we were, I had Paul Krogstad holding her head, and CDC Director Tom Frieden taking her pulse, which she still had. I took the knife and did a cricothyroidotomy. I had never done this in my life.

While I was making the incision, somebody gave Paul a ballpoint pen and he broke it into pieces to make a tracheostomy tube. Once I’d made the little incision, I put the tube in. She wasn’t breathing, but she still had a pulse.

I leaned forward and blew into the tube and inflated her lungs. I could see her lungs balloon up. It was a nice feeling, because I knew I was clearly in the right place.

I can’t quite explain it, but while I was doing this, I was enormously calm and totally focused. I knew there was a crowd of people around me, all looking at me, but I wasn’t conscious of that.

It was really just the four of us: Paul and Tom and me and our patient. Those were the only people that I was really cognizant of. Paul and Tom were not panic stricken at all. I remember somebody shouting, “We have to start CPR!” and Frieden said, “No. We don’t.”

Moments later, she woke up, sat up, coughed, and shot the piece of steak across the room.

She was breathing on her own, but we still taped that tube into place. Somebody had already summoned an ambulance; they were there not very long after we completed this procedure. I got in the ambulance with her and we rode over to the emergency room at Mercy Truxtun.

She was stable and doing okay. I sat with her until a thoracic surgeon showed up. He checked out the situation and decided we didn’t need that tube and took it out. I didn’t want to take that out until I had a surgeon there who could do a formal tracheostomy.

They kept her in the hospital for 3 or 4 days. Now, this woman had always had difficulties swallowing, so steak may not have been the best choice. She still had trouble swallowing afterward but recovered.

I’ve known her and her husband a long time, so it was certainly rewarding to be able to provide this service. Years later, though, when her husband died, I spoke at his funeral. When she was speaking to the gathering, she said, “And oh, by the way, Royce, thanks for saving my life.”

That surprised me. I didn’t think we were going to go there.

I’d never tried to practice medicine “at the roadside” before. But that’s part of the career.

Royce Johnson, MD, is the chief of the division of infectious disease among other leadership positions at Kern Medical in Bakersfield, Calif., and the medical director of the Valley Fever Institute.

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

Some time ago I was invited to join a bipartisan congressional task force on valley fever, also known as coccidioidomycosis. A large and diverse crowd attended the task force’s first meeting in Bakersfield, Calif. – a meeting for everyone: the medical profession, the public, it even included veterinarians.

The whole thing was a resounding success. Francis Collins was there, the just-retired director of the NIH. Tom Frieden, then-director of the Centers for Disease Control and Prevention was there, as were several congresspeople and also my college roommate, a retired Navy medical corps captain. I was enjoying it.

Afterward, we had a banquet dinner at a restaurant in downtown Bakersfield. One of the people there was a woman I knew well – her husband was a physician friend. The restaurant served steak and salmon, and this woman made the mistake of ordering the steak.

Not long after the entrees were served, I heard a commotion at the table just behind me. I turned around and saw that woman in distress. A piece of steak had wedged in her trachea and she couldn’t breathe.

Almost immediately, the chef showed up. I don’t know how he got there. The chef at this restaurant was a big guy. I mean, probably 6 feet, 5 inches tall and 275 pounds. He tried the Heimlich maneuver. It didn’t work.

At that point, I jumped up. I thought, “Well, maybe I know how to do this better than him.” Probably not, actually. I tried and couldn’t make it work either. So I knew we were going to have to do something.

Paul Krogstad, my friend and research partner who is a pediatric infectious disease physician, stepped up and tried to put his finger in her throat and dig it out. He couldn’t get it. The patient had lost consciousness.

So, I’m thinking, okay, there’s really only one choice. You have to get an airway surgically.

I said, “We have to put her down on the floor.” And then I said, “Knife!”

I was looking at the steak knives on the table and they weren’t to my liking for doing a procedure. My college roommate – the retired Navy man – whipped out this very good pocketknife.

So, there we were, I had Paul Krogstad holding her head, and CDC Director Tom Frieden taking her pulse, which she still had. I took the knife and did a cricothyroidotomy. I had never done this in my life.

While I was making the incision, somebody gave Paul a ballpoint pen and he broke it into pieces to make a tracheostomy tube. Once I’d made the little incision, I put the tube in. She wasn’t breathing, but she still had a pulse.

I leaned forward and blew into the tube and inflated her lungs. I could see her lungs balloon up. It was a nice feeling, because I knew I was clearly in the right place.

I can’t quite explain it, but while I was doing this, I was enormously calm and totally focused. I knew there was a crowd of people around me, all looking at me, but I wasn’t conscious of that.

It was really just the four of us: Paul and Tom and me and our patient. Those were the only people that I was really cognizant of. Paul and Tom were not panic stricken at all. I remember somebody shouting, “We have to start CPR!” and Frieden said, “No. We don’t.”

Moments later, she woke up, sat up, coughed, and shot the piece of steak across the room.

She was breathing on her own, but we still taped that tube into place. Somebody had already summoned an ambulance; they were there not very long after we completed this procedure. I got in the ambulance with her and we rode over to the emergency room at Mercy Truxtun.

She was stable and doing okay. I sat with her until a thoracic surgeon showed up. He checked out the situation and decided we didn’t need that tube and took it out. I didn’t want to take that out until I had a surgeon there who could do a formal tracheostomy.

They kept her in the hospital for 3 or 4 days. Now, this woman had always had difficulties swallowing, so steak may not have been the best choice. She still had trouble swallowing afterward but recovered.

I’ve known her and her husband a long time, so it was certainly rewarding to be able to provide this service. Years later, though, when her husband died, I spoke at his funeral. When she was speaking to the gathering, she said, “And oh, by the way, Royce, thanks for saving my life.”

That surprised me. I didn’t think we were going to go there.

I’d never tried to practice medicine “at the roadside” before. But that’s part of the career.

Royce Johnson, MD, is the chief of the division of infectious disease among other leadership positions at Kern Medical in Bakersfield, Calif., and the medical director of the Valley Fever Institute.

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

Some time ago I was invited to join a bipartisan congressional task force on valley fever, also known as coccidioidomycosis. A large and diverse crowd attended the task force’s first meeting in Bakersfield, Calif. – a meeting for everyone: the medical profession, the public, it even included veterinarians.

The whole thing was a resounding success. Francis Collins was there, the just-retired director of the NIH. Tom Frieden, then-director of the Centers for Disease Control and Prevention was there, as were several congresspeople and also my college roommate, a retired Navy medical corps captain. I was enjoying it.

Afterward, we had a banquet dinner at a restaurant in downtown Bakersfield. One of the people there was a woman I knew well – her husband was a physician friend. The restaurant served steak and salmon, and this woman made the mistake of ordering the steak.

Not long after the entrees were served, I heard a commotion at the table just behind me. I turned around and saw that woman in distress. A piece of steak had wedged in her trachea and she couldn’t breathe.

Almost immediately, the chef showed up. I don’t know how he got there. The chef at this restaurant was a big guy. I mean, probably 6 feet, 5 inches tall and 275 pounds. He tried the Heimlich maneuver. It didn’t work.

At that point, I jumped up. I thought, “Well, maybe I know how to do this better than him.” Probably not, actually. I tried and couldn’t make it work either. So I knew we were going to have to do something.

Paul Krogstad, my friend and research partner who is a pediatric infectious disease physician, stepped up and tried to put his finger in her throat and dig it out. He couldn’t get it. The patient had lost consciousness.

So, I’m thinking, okay, there’s really only one choice. You have to get an airway surgically.

I said, “We have to put her down on the floor.” And then I said, “Knife!”

I was looking at the steak knives on the table and they weren’t to my liking for doing a procedure. My college roommate – the retired Navy man – whipped out this very good pocketknife.

So, there we were, I had Paul Krogstad holding her head, and CDC Director Tom Frieden taking her pulse, which she still had. I took the knife and did a cricothyroidotomy. I had never done this in my life.

While I was making the incision, somebody gave Paul a ballpoint pen and he broke it into pieces to make a tracheostomy tube. Once I’d made the little incision, I put the tube in. She wasn’t breathing, but she still had a pulse.

I leaned forward and blew into the tube and inflated her lungs. I could see her lungs balloon up. It was a nice feeling, because I knew I was clearly in the right place.

I can’t quite explain it, but while I was doing this, I was enormously calm and totally focused. I knew there was a crowd of people around me, all looking at me, but I wasn’t conscious of that.

It was really just the four of us: Paul and Tom and me and our patient. Those were the only people that I was really cognizant of. Paul and Tom were not panic stricken at all. I remember somebody shouting, “We have to start CPR!” and Frieden said, “No. We don’t.”

Moments later, she woke up, sat up, coughed, and shot the piece of steak across the room.

She was breathing on her own, but we still taped that tube into place. Somebody had already summoned an ambulance; they were there not very long after we completed this procedure. I got in the ambulance with her and we rode over to the emergency room at Mercy Truxtun.

She was stable and doing okay. I sat with her until a thoracic surgeon showed up. He checked out the situation and decided we didn’t need that tube and took it out. I didn’t want to take that out until I had a surgeon there who could do a formal tracheostomy.

They kept her in the hospital for 3 or 4 days. Now, this woman had always had difficulties swallowing, so steak may not have been the best choice. She still had trouble swallowing afterward but recovered.

I’ve known her and her husband a long time, so it was certainly rewarding to be able to provide this service. Years later, though, when her husband died, I spoke at his funeral. When she was speaking to the gathering, she said, “And oh, by the way, Royce, thanks for saving my life.”

That surprised me. I didn’t think we were going to go there.

I’d never tried to practice medicine “at the roadside” before. But that’s part of the career.

Royce Johnson, MD, is the chief of the division of infectious disease among other leadership positions at Kern Medical in Bakersfield, Calif., and the medical director of the Valley Fever Institute.

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

The increased risk for diabetes following COVID-19 infection has persisted into the Omicron era, but vaccination against SARS-CoV-2 appears to diminish that likelihood, new data suggest.

The findings, from more than 20,000 patients in the Cedars-Sinai Health System in Los Angeles, suggest that “continued efforts to prevent COVID-19 infection may be beneficial to patient health until we develop better understanding of the effects of potential long-term effects of COVID-19,” lead author Alan C. Kwan, MD, of the department of cardiology at Cedars Sinai’s Smidt Heart Institute, said in an interview.

Several studies conducted early in the pandemic suggested increased risks for both new-onset diabetes and cardiometabolic diseases following COVID-19 infection, possibly because of persistent inflammation contributing to insulin resistance.

However, it hasn’t been clear if those risks have persisted with the more recent predominance of the less-virulent Omicron variant or whether the COVID-19 vaccine influences the risk. This new study suggests that both are the case.

“Our results verify that the risk of developing type 2 diabetes after a COVID-19 infection was not just an early observation but, in fact, a real risk that has, unfortunately, persisted through the Omicron era,” Dr. Kwan noted.

“While the level of evidence by our study and others may not reach the degree needed to affect formal guidelines at this time, we believe it is reasonable to have increased clinical suspicion for diabetes after COVID-19 infection and a lower threshold for testing,” he added.

Moreover, “we believe that our study and others suggest the potential role of COVID-19 to affect cardiovascular risk, and so both prevention of COVID-19 infection, through reasonable personal practices and vaccination, and an increased attention to cardiovascular health after COVID-19 infection is warranted.”

The findings were published online in JAMA Network Open.

Dr. Kwan and colleagues analyzed data for a total of 23,709 patients treated (inpatient and outpatient) for at least one COVID-19 infection between March 2020 and June 2022.

Rates of new-onset diabetes (using ICD-10 codes, primarily type 2 diabetes), hypertension, and hyperlipidemia were all elevated in the 90 days following COVID-19 infection compared with the 90 days prior. The same was true of two diagnoses unrelated to COVID-19, urinary tract infection and gastroesophageal reflux, used as benchmarks of health care engagement.

The highest odds for post versus preinfection were for diabetes (odds ratio, 2.35; P < .001), followed by hypertension (OR, 1.54; P < .001), the benchmark diagnoses (OR, 1.42; P < .001), and hyperlipidemia (OR, 1.22; P = .03).

Following adjustments, the risk versus the benchmark conditions for new-onset diabetes before versus after COVID-19 was significantly elevated (OR, 1.58; P < .001), while the risks for hypertension and hyperlipidemia versus benchmark diagnoses were not (OR, 1.06; P = .52 and 0.91, P = .43, respectively).

The diabetes risk after versus before COVID-19 infection was higher among those who had not been vaccinated (OR, 1.78; P < .001), compared with those who had received the vaccine (OR, 1.07; P = .80).

However, there was no significant interaction between vaccination and diabetes diagnosis (P = .08). “For this reason, we believe our data are suggestive of a protective effect in the population who received vaccination prior to infection, but [this is] not definitive,” Dr. Kwan said.

There were no apparent interactions by age, sex, or pre-existing cardiovascular risk factors, including hypertension or hyperlipidemia. Age, sex, and timing of index infection regarding the Omicron variant were not associated with an increased risk of a new cardiometabolic diagnosis before or after COVID-19 infection in any of the models.

Dr. Kwan said in an interview: “We have continued to be surprised by the evolving understanding of the SARS-CoV-2 virus and the effects on human health. In the beginning of the pandemic it was framed as a purely respiratory virus, which we now know to be a severely limited description of all of its potential effects on the human body. We believe that our research and others raise a concern for increased cardiometabolic risk after COVID infection.”

He added that, “while knowledge is incomplete on this topic, we believe that clinical providers may wish to have a higher degree of suspicion for both diabetes and risk of future cardiac events in patients after COVID infection, and that continued efforts to prevent COVID infection may be beneficial to patient health until we develop better understanding of the potential long-term effects of COVID.”

This study was funded by the Erika J. Glazer Family Foundation, the Doris Duke Charitable Foundation, and grants from the National Institutes of Health. Dr. Kwan reported receiving grants from the Doris Duke Charitable Foundation during the conduct of the study.

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

The increased risk for diabetes following COVID-19 infection has persisted into the Omicron era, but vaccination against SARS-CoV-2 appears to diminish that likelihood, new data suggest.

The findings, from more than 20,000 patients in the Cedars-Sinai Health System in Los Angeles, suggest that “continued efforts to prevent COVID-19 infection may be beneficial to patient health until we develop better understanding of the effects of potential long-term effects of COVID-19,” lead author Alan C. Kwan, MD, of the department of cardiology at Cedars Sinai’s Smidt Heart Institute, said in an interview.

Several studies conducted early in the pandemic suggested increased risks for both new-onset diabetes and cardiometabolic diseases following COVID-19 infection, possibly because of persistent inflammation contributing to insulin resistance.

However, it hasn’t been clear if those risks have persisted with the more recent predominance of the less-virulent Omicron variant or whether the COVID-19 vaccine influences the risk. This new study suggests that both are the case.

“Our results verify that the risk of developing type 2 diabetes after a COVID-19 infection was not just an early observation but, in fact, a real risk that has, unfortunately, persisted through the Omicron era,” Dr. Kwan noted.

“While the level of evidence by our study and others may not reach the degree needed to affect formal guidelines at this time, we believe it is reasonable to have increased clinical suspicion for diabetes after COVID-19 infection and a lower threshold for testing,” he added.

Moreover, “we believe that our study and others suggest the potential role of COVID-19 to affect cardiovascular risk, and so both prevention of COVID-19 infection, through reasonable personal practices and vaccination, and an increased attention to cardiovascular health after COVID-19 infection is warranted.”

The findings were published online in JAMA Network Open.

Dr. Kwan and colleagues analyzed data for a total of 23,709 patients treated (inpatient and outpatient) for at least one COVID-19 infection between March 2020 and June 2022.

Rates of new-onset diabetes (using ICD-10 codes, primarily type 2 diabetes), hypertension, and hyperlipidemia were all elevated in the 90 days following COVID-19 infection compared with the 90 days prior. The same was true of two diagnoses unrelated to COVID-19, urinary tract infection and gastroesophageal reflux, used as benchmarks of health care engagement.

The highest odds for post versus preinfection were for diabetes (odds ratio, 2.35; P < .001), followed by hypertension (OR, 1.54; P < .001), the benchmark diagnoses (OR, 1.42; P < .001), and hyperlipidemia (OR, 1.22; P = .03).

Following adjustments, the risk versus the benchmark conditions for new-onset diabetes before versus after COVID-19 was significantly elevated (OR, 1.58; P < .001), while the risks for hypertension and hyperlipidemia versus benchmark diagnoses were not (OR, 1.06; P = .52 and 0.91, P = .43, respectively).

The diabetes risk after versus before COVID-19 infection was higher among those who had not been vaccinated (OR, 1.78; P < .001), compared with those who had received the vaccine (OR, 1.07; P = .80).

However, there was no significant interaction between vaccination and diabetes diagnosis (P = .08). “For this reason, we believe our data are suggestive of a protective effect in the population who received vaccination prior to infection, but [this is] not definitive,” Dr. Kwan said.

There were no apparent interactions by age, sex, or pre-existing cardiovascular risk factors, including hypertension or hyperlipidemia. Age, sex, and timing of index infection regarding the Omicron variant were not associated with an increased risk of a new cardiometabolic diagnosis before or after COVID-19 infection in any of the models.

Dr. Kwan said in an interview: “We have continued to be surprised by the evolving understanding of the SARS-CoV-2 virus and the effects on human health. In the beginning of the pandemic it was framed as a purely respiratory virus, which we now know to be a severely limited description of all of its potential effects on the human body. We believe that our research and others raise a concern for increased cardiometabolic risk after COVID infection.”

He added that, “while knowledge is incomplete on this topic, we believe that clinical providers may wish to have a higher degree of suspicion for both diabetes and risk of future cardiac events in patients after COVID infection, and that continued efforts to prevent COVID infection may be beneficial to patient health until we develop better understanding of the potential long-term effects of COVID.”

This study was funded by the Erika J. Glazer Family Foundation, the Doris Duke Charitable Foundation, and grants from the National Institutes of Health. Dr. Kwan reported receiving grants from the Doris Duke Charitable Foundation during the conduct of the study.

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

The increased risk for diabetes following COVID-19 infection has persisted into the Omicron era, but vaccination against SARS-CoV-2 appears to diminish that likelihood, new data suggest.

The findings, from more than 20,000 patients in the Cedars-Sinai Health System in Los Angeles, suggest that “continued efforts to prevent COVID-19 infection may be beneficial to patient health until we develop better understanding of the effects of potential long-term effects of COVID-19,” lead author Alan C. Kwan, MD, of the department of cardiology at Cedars Sinai’s Smidt Heart Institute, said in an interview.

Several studies conducted early in the pandemic suggested increased risks for both new-onset diabetes and cardiometabolic diseases following COVID-19 infection, possibly because of persistent inflammation contributing to insulin resistance.

However, it hasn’t been clear if those risks have persisted with the more recent predominance of the less-virulent Omicron variant or whether the COVID-19 vaccine influences the risk. This new study suggests that both are the case.

“Our results verify that the risk of developing type 2 diabetes after a COVID-19 infection was not just an early observation but, in fact, a real risk that has, unfortunately, persisted through the Omicron era,” Dr. Kwan noted.

“While the level of evidence by our study and others may not reach the degree needed to affect formal guidelines at this time, we believe it is reasonable to have increased clinical suspicion for diabetes after COVID-19 infection and a lower threshold for testing,” he added.

Moreover, “we believe that our study and others suggest the potential role of COVID-19 to affect cardiovascular risk, and so both prevention of COVID-19 infection, through reasonable personal practices and vaccination, and an increased attention to cardiovascular health after COVID-19 infection is warranted.”

The findings were published online in JAMA Network Open.

Dr. Kwan and colleagues analyzed data for a total of 23,709 patients treated (inpatient and outpatient) for at least one COVID-19 infection between March 2020 and June 2022.

Rates of new-onset diabetes (using ICD-10 codes, primarily type 2 diabetes), hypertension, and hyperlipidemia were all elevated in the 90 days following COVID-19 infection compared with the 90 days prior. The same was true of two diagnoses unrelated to COVID-19, urinary tract infection and gastroesophageal reflux, used as benchmarks of health care engagement.

The highest odds for post versus preinfection were for diabetes (odds ratio, 2.35; P < .001), followed by hypertension (OR, 1.54; P < .001), the benchmark diagnoses (OR, 1.42; P < .001), and hyperlipidemia (OR, 1.22; P = .03).

Following adjustments, the risk versus the benchmark conditions for new-onset diabetes before versus after COVID-19 was significantly elevated (OR, 1.58; P < .001), while the risks for hypertension and hyperlipidemia versus benchmark diagnoses were not (OR, 1.06; P = .52 and 0.91, P = .43, respectively).

The diabetes risk after versus before COVID-19 infection was higher among those who had not been vaccinated (OR, 1.78; P < .001), compared with those who had received the vaccine (OR, 1.07; P = .80).

However, there was no significant interaction between vaccination and diabetes diagnosis (P = .08). “For this reason, we believe our data are suggestive of a protective effect in the population who received vaccination prior to infection, but [this is] not definitive,” Dr. Kwan said.

There were no apparent interactions by age, sex, or pre-existing cardiovascular risk factors, including hypertension or hyperlipidemia. Age, sex, and timing of index infection regarding the Omicron variant were not associated with an increased risk of a new cardiometabolic diagnosis before or after COVID-19 infection in any of the models.

Dr. Kwan said in an interview: “We have continued to be surprised by the evolving understanding of the SARS-CoV-2 virus and the effects on human health. In the beginning of the pandemic it was framed as a purely respiratory virus, which we now know to be a severely limited description of all of its potential effects on the human body. We believe that our research and others raise a concern for increased cardiometabolic risk after COVID infection.”

He added that, “while knowledge is incomplete on this topic, we believe that clinical providers may wish to have a higher degree of suspicion for both diabetes and risk of future cardiac events in patients after COVID infection, and that continued efforts to prevent COVID infection may be beneficial to patient health until we develop better understanding of the potential long-term effects of COVID.”

This study was funded by the Erika J. Glazer Family Foundation, the Doris Duke Charitable Foundation, and grants from the National Institutes of Health. Dr. Kwan reported receiving grants from the Doris Duke Charitable Foundation during the conduct of the study.

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

Hospitalized COVID-19 patients with high troponin levels are twice as likely to have cardiac abnormalities than those with normal troponin, with or without COVID-19, a multicenter U.K. study suggests.

The causes were diverse, myocarditis prevalence was lower than previously reported, and myocardial scar emerged as an independent risk factor for adverse cardiovascular outcomes at 12 months.

“We know that multiorgan involvement in hospitalized patients with COVID-19 is common ... and may result in acute myocardial injury, detected by an increase in cardiac troponin concentrations,” John P. Greenwood, PhD, of the University of Leeds (England), told this news organization. “Elevated cardiac troponin is associated with a worse prognosis.”

“Multiple mechanisms of myocardial injury have been proposed and ... mitigation or prevention strategies likely depend on the underpinning mechanisms,” he said. “The sequelae of scar may predispose to late events.”

The study, published online  in Circulation, also identified a new pattern of microinfarction on cardiac magnetic resonance (CMR) imaging, highlighting the pro-thrombotic nature of SARS-CoV-2, Dr. Greenwood said.
 

Injury patterns different

Three hundred and forty-two patients with COVID-19 and elevated troponin levels (COVID+/troponin+) across 25 centers were enrolled between June 2020 and March 2021 in COVID-HEART, deemed an “urgent public health study” in the United Kingdom. The aim was to characterize myocardial injury and its associations and sequelae in convalescent patients after hospitalization with COVID-19.

Enrollment took place during the Wuhan and Alpha waves of COVID-19: before vaccination and when dexamethasone and anticoagulant protocols were emerging. All participants underwent CMR at a median of 21 days after discharge.

Two prospective control groups also were recruited: 64 patients with COVID-19 and normal troponin levels (COVID+/troponin−) and 113 without COVID-19 or elevated troponin matched by age and cardiovascular comorbidities (COVID−/comorbidity+).

Overall, participants’ median age was 61 years and 69% were men. Common comorbidities included hypertension (47%), obesity (43%), and diabetes (25%).

The frequency of any heart abnormality – for example, left or right ventricular impairment, scar, or pericardial disease – was twice as great (61%) in COVID+/troponin+ cases, compared with controls (36% for COVID+/troponin− patients versus 31% for COVID−/comorbidity+ patients).

Specifically, more cases than controls had ventricular impairment (17.2% vs. 3.1% and 7.1%) or scar (42% vs. 7% and 23%).

The myocardial injury pattern differed between cases and controls, with cases more likely to have infarction (13% vs. 2% and 7%) or microinfarction (9% vs. 0% and 1%).

However, there was no between-group difference in nonischemic scar (13% vs. 5% and 14%).

The prevalence of probable recent myocarditis was 6.7% in cases, compared with 1.7% in controls without COVID-19 – “much lower” than in previous studies, Dr. Greenwood noted.

During follow-up, four COVID+/troponin+ patients (1.2%) died, and 34 (10%) experienced a subsequent major adverse cardiovascular event (MACE; 10.2%), which was similar to controls (6.1%).

Myocardial scar, but not previous COVID-19 infection or troponin level, was an independent predictor of MACE (odds ratio, 2.25).

“These findings suggest that macroangiopathic and microangiopathic thrombosis may be the key pathologic process for myocardial injury in COVID-19 survivors,” the authors conclude.

Dr. Greenwood added, “We are currently analyzing the 6-month follow-up CMR scans, the quality-of-life questionnaires, and the 6-minute walk tests. These will give us great understanding of how the heart repairs after acute myocardial injury associated with COVID-19. It will also allow us to assess the impact on patient quality of life and functional capacity.”
 

‘Tour de force’

James A. de Lemos, MD, co-chair of the American Heart Association’s COVID-19 CVD Registry Steering Committee and a professor of medicine at the University of Texas Southwestern Medical Center, Dallas, said, “This is a tour de force collaboration – obtaining this many MRIs across multiple centers in the pandemic is quite remarkable. The study highlights the multiple different processes that lead to cardiac injury in COVID patients, complements autopsy studies and prior smaller MRI studies, [and] also provides the best data on the rate of myocarditis to date among the subset of COVID patients with cardiac injury.”

Overall, he said, the findings “do support closer follow-up for patients who had COVID and elevated troponins. We need to see follow-up MRI results in this cohort, as well as longer term outcomes. We also need studies on newer, more benign variants that are likely to have lower rates of cardiac injury and even fewer MRI abnormalities.”

Matthias Stuber, PhD, and Aaron L. Baggish, MD, both of Lausanne University Hospital and University of Lausanne, Switzerland, noted in a related editorial, “We are also reminded that the clinical severity of COVID-19 is most often dictated by the presence of pre-existing comorbidity, with antecedent ischemic scar now added to the long list of bad actors. Although not the primary focus of the COVID-HEART study, the question of whether cardiac troponin levels should be checked routinely and universally during the index admission for COVID-19 remains unresolved,” they noted.

“In general, we are most effective as clinicians when we use tests to confirm or rule out the specific disease processes suspected by careful basic clinical assessment rather than in a shotgun manner among undifferentiated all-comers,” they conclude.

No commercial funding or relevant financial relationships were reported.

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

Hospitalized COVID-19 patients with high troponin levels are twice as likely to have cardiac abnormalities than those with normal troponin, with or without COVID-19, a multicenter U.K. study suggests.

The causes were diverse, myocarditis prevalence was lower than previously reported, and myocardial scar emerged as an independent risk factor for adverse cardiovascular outcomes at 12 months.

“We know that multiorgan involvement in hospitalized patients with COVID-19 is common ... and may result in acute myocardial injury, detected by an increase in cardiac troponin concentrations,” John P. Greenwood, PhD, of the University of Leeds (England), told this news organization. “Elevated cardiac troponin is associated with a worse prognosis.”

“Multiple mechanisms of myocardial injury have been proposed and ... mitigation or prevention strategies likely depend on the underpinning mechanisms,” he said. “The sequelae of scar may predispose to late events.”

The study, published online  in Circulation, also identified a new pattern of microinfarction on cardiac magnetic resonance (CMR) imaging, highlighting the pro-thrombotic nature of SARS-CoV-2, Dr. Greenwood said.
 

Injury patterns different

Three hundred and forty-two patients with COVID-19 and elevated troponin levels (COVID+/troponin+) across 25 centers were enrolled between June 2020 and March 2021 in COVID-HEART, deemed an “urgent public health study” in the United Kingdom. The aim was to characterize myocardial injury and its associations and sequelae in convalescent patients after hospitalization with COVID-19.

Enrollment took place during the Wuhan and Alpha waves of COVID-19: before vaccination and when dexamethasone and anticoagulant protocols were emerging. All participants underwent CMR at a median of 21 days after discharge.

Two prospective control groups also were recruited: 64 patients with COVID-19 and normal troponin levels (COVID+/troponin−) and 113 without COVID-19 or elevated troponin matched by age and cardiovascular comorbidities (COVID−/comorbidity+).

Overall, participants’ median age was 61 years and 69% were men. Common comorbidities included hypertension (47%), obesity (43%), and diabetes (25%).

The frequency of any heart abnormality – for example, left or right ventricular impairment, scar, or pericardial disease – was twice as great (61%) in COVID+/troponin+ cases, compared with controls (36% for COVID+/troponin− patients versus 31% for COVID−/comorbidity+ patients).

Specifically, more cases than controls had ventricular impairment (17.2% vs. 3.1% and 7.1%) or scar (42% vs. 7% and 23%).

The myocardial injury pattern differed between cases and controls, with cases more likely to have infarction (13% vs. 2% and 7%) or microinfarction (9% vs. 0% and 1%).

However, there was no between-group difference in nonischemic scar (13% vs. 5% and 14%).

The prevalence of probable recent myocarditis was 6.7% in cases, compared with 1.7% in controls without COVID-19 – “much lower” than in previous studies, Dr. Greenwood noted.

During follow-up, four COVID+/troponin+ patients (1.2%) died, and 34 (10%) experienced a subsequent major adverse cardiovascular event (MACE; 10.2%), which was similar to controls (6.1%).

Myocardial scar, but not previous COVID-19 infection or troponin level, was an independent predictor of MACE (odds ratio, 2.25).

“These findings suggest that macroangiopathic and microangiopathic thrombosis may be the key pathologic process for myocardial injury in COVID-19 survivors,” the authors conclude.

Dr. Greenwood added, “We are currently analyzing the 6-month follow-up CMR scans, the quality-of-life questionnaires, and the 6-minute walk tests. These will give us great understanding of how the heart repairs after acute myocardial injury associated with COVID-19. It will also allow us to assess the impact on patient quality of life and functional capacity.”
 

‘Tour de force’

James A. de Lemos, MD, co-chair of the American Heart Association’s COVID-19 CVD Registry Steering Committee and a professor of medicine at the University of Texas Southwestern Medical Center, Dallas, said, “This is a tour de force collaboration – obtaining this many MRIs across multiple centers in the pandemic is quite remarkable. The study highlights the multiple different processes that lead to cardiac injury in COVID patients, complements autopsy studies and prior smaller MRI studies, [and] also provides the best data on the rate of myocarditis to date among the subset of COVID patients with cardiac injury.”

Overall, he said, the findings “do support closer follow-up for patients who had COVID and elevated troponins. We need to see follow-up MRI results in this cohort, as well as longer term outcomes. We also need studies on newer, more benign variants that are likely to have lower rates of cardiac injury and even fewer MRI abnormalities.”

Matthias Stuber, PhD, and Aaron L. Baggish, MD, both of Lausanne University Hospital and University of Lausanne, Switzerland, noted in a related editorial, “We are also reminded that the clinical severity of COVID-19 is most often dictated by the presence of pre-existing comorbidity, with antecedent ischemic scar now added to the long list of bad actors. Although not the primary focus of the COVID-HEART study, the question of whether cardiac troponin levels should be checked routinely and universally during the index admission for COVID-19 remains unresolved,” they noted.

“In general, we are most effective as clinicians when we use tests to confirm or rule out the specific disease processes suspected by careful basic clinical assessment rather than in a shotgun manner among undifferentiated all-comers,” they conclude.

No commercial funding or relevant financial relationships were reported.

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

Hospitalized COVID-19 patients with high troponin levels are twice as likely to have cardiac abnormalities than those with normal troponin, with or without COVID-19, a multicenter U.K. study suggests.

The causes were diverse, myocarditis prevalence was lower than previously reported, and myocardial scar emerged as an independent risk factor for adverse cardiovascular outcomes at 12 months.

“We know that multiorgan involvement in hospitalized patients with COVID-19 is common ... and may result in acute myocardial injury, detected by an increase in cardiac troponin concentrations,” John P. Greenwood, PhD, of the University of Leeds (England), told this news organization. “Elevated cardiac troponin is associated with a worse prognosis.”

“Multiple mechanisms of myocardial injury have been proposed and ... mitigation or prevention strategies likely depend on the underpinning mechanisms,” he said. “The sequelae of scar may predispose to late events.”

The study, published online  in Circulation, also identified a new pattern of microinfarction on cardiac magnetic resonance (CMR) imaging, highlighting the pro-thrombotic nature of SARS-CoV-2, Dr. Greenwood said.
 

Injury patterns different

Three hundred and forty-two patients with COVID-19 and elevated troponin levels (COVID+/troponin+) across 25 centers were enrolled between June 2020 and March 2021 in COVID-HEART, deemed an “urgent public health study” in the United Kingdom. The aim was to characterize myocardial injury and its associations and sequelae in convalescent patients after hospitalization with COVID-19.

Enrollment took place during the Wuhan and Alpha waves of COVID-19: before vaccination and when dexamethasone and anticoagulant protocols were emerging. All participants underwent CMR at a median of 21 days after discharge.

Two prospective control groups also were recruited: 64 patients with COVID-19 and normal troponin levels (COVID+/troponin−) and 113 without COVID-19 or elevated troponin matched by age and cardiovascular comorbidities (COVID−/comorbidity+).

Overall, participants’ median age was 61 years and 69% were men. Common comorbidities included hypertension (47%), obesity (43%), and diabetes (25%).

The frequency of any heart abnormality – for example, left or right ventricular impairment, scar, or pericardial disease – was twice as great (61%) in COVID+/troponin+ cases, compared with controls (36% for COVID+/troponin− patients versus 31% for COVID−/comorbidity+ patients).

Specifically, more cases than controls had ventricular impairment (17.2% vs. 3.1% and 7.1%) or scar (42% vs. 7% and 23%).

The myocardial injury pattern differed between cases and controls, with cases more likely to have infarction (13% vs. 2% and 7%) or microinfarction (9% vs. 0% and 1%).

However, there was no between-group difference in nonischemic scar (13% vs. 5% and 14%).

The prevalence of probable recent myocarditis was 6.7% in cases, compared with 1.7% in controls without COVID-19 – “much lower” than in previous studies, Dr. Greenwood noted.

During follow-up, four COVID+/troponin+ patients (1.2%) died, and 34 (10%) experienced a subsequent major adverse cardiovascular event (MACE; 10.2%), which was similar to controls (6.1%).

Myocardial scar, but not previous COVID-19 infection or troponin level, was an independent predictor of MACE (odds ratio, 2.25).

“These findings suggest that macroangiopathic and microangiopathic thrombosis may be the key pathologic process for myocardial injury in COVID-19 survivors,” the authors conclude.

Dr. Greenwood added, “We are currently analyzing the 6-month follow-up CMR scans, the quality-of-life questionnaires, and the 6-minute walk tests. These will give us great understanding of how the heart repairs after acute myocardial injury associated with COVID-19. It will also allow us to assess the impact on patient quality of life and functional capacity.”
 

‘Tour de force’

James A. de Lemos, MD, co-chair of the American Heart Association’s COVID-19 CVD Registry Steering Committee and a professor of medicine at the University of Texas Southwestern Medical Center, Dallas, said, “This is a tour de force collaboration – obtaining this many MRIs across multiple centers in the pandemic is quite remarkable. The study highlights the multiple different processes that lead to cardiac injury in COVID patients, complements autopsy studies and prior smaller MRI studies, [and] also provides the best data on the rate of myocarditis to date among the subset of COVID patients with cardiac injury.”

Overall, he said, the findings “do support closer follow-up for patients who had COVID and elevated troponins. We need to see follow-up MRI results in this cohort, as well as longer term outcomes. We also need studies on newer, more benign variants that are likely to have lower rates of cardiac injury and even fewer MRI abnormalities.”

Matthias Stuber, PhD, and Aaron L. Baggish, MD, both of Lausanne University Hospital and University of Lausanne, Switzerland, noted in a related editorial, “We are also reminded that the clinical severity of COVID-19 is most often dictated by the presence of pre-existing comorbidity, with antecedent ischemic scar now added to the long list of bad actors. Although not the primary focus of the COVID-HEART study, the question of whether cardiac troponin levels should be checked routinely and universally during the index admission for COVID-19 remains unresolved,” they noted.

“In general, we are most effective as clinicians when we use tests to confirm or rule out the specific disease processes suspected by careful basic clinical assessment rather than in a shotgun manner among undifferentiated all-comers,” they conclude.

No commercial funding or relevant financial relationships were reported.

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

Physicians nationwide will be challenged by the “unwinding” of the federal public health emergency declared for the COVID-19 pandemic.

The Biden administration intends to end by May 11 certain COVID-19 emergency measures used to aid in the response to the pandemic, while many others will remain in place.

A separate declaration covers the Food and Drug Administration’s emergency use authorizations (EUAs) for COVID medicines and tests. That would not be affected by the May 11 deadline, the FDA said. In addition, Congress and state lawmakers have extended some COVID response measures.

The result is a patchwork of emergency COVID-19 measures with different end dates.

The American Medical Association and the American Academy of Family Physicians (AAFP) are assessing how best to advise their members about the end of the public health emergency.

Several waivers regarding copays and coverage and policies regarding controlled substances will expire, Claire Ernst, director of government affairs at the Medical Group Management Association, told this news organization.

The impact of the unwinding “will vary based on some factors, such as what state the practice resides in,” Ms. Ernst said. “Fortunately, Congress provided some predictability for practices by extending many of the telehealth waivers through the end of 2024.”

The AAFP told this news organization that it has joined several other groups in calling for the release of proposed Drug Enforcement Administration (DEA) regulations meant to permanently allow prescriptions of buprenorphine treatment for opioid use disorder via telehealth. The AAFP and other groups want to review these proposals and, if needed, urge the DEA to modify or finalize before there are any disruptions in access to medications for opioid use disorder.
 

Patients’ questions

Clinicians can expect to field patients’ questions about their insurance coverage and what they need to pay, said Nancy Foster, vice president for quality and patient safety policy at the American Hospital Association (AHA).

“Your doctor’s office, that clinic you typically get care at, that is the face of medicine to you,” Ms. Foster told this news organization. “Many doctors and their staff will be asked, ‘What’s happening with Medicaid?’ ‘What about my Medicare coverage?’ ‘Can I still access care in the same way that I did before?’ ”

Physicians will need to be ready to answers those question, or point patients to where they can get answers, Ms. Foster said.

For example, Medicaid will no longer cover postpartum care for some enrollees after giving birth, said Taylor Platt, health policy manager for the American College of Obstetricians and Gynecologists.

The federal response to the pandemic created “a de facto postpartum coverage extension for Medicaid enrollees,” which will be lost in some states, Ms. Platt told this news organization. However, 28 states and the District of Columbia have taken separate measures to extend postpartum coverage to 1 year.

“This coverage has been critical for postpartum individuals to address health needs like substance use and mental health treatment and chronic conditions,” Ms. Platt said.

States significantly changed Medicaid policy to expand access to care during the pandemic.

All 50 states and the District of Columbia, for example, expanded coverage or access to telehealth services in Medicaid during the pandemic, according to a Jan. 31 report from the Kaiser Family Foundation (KFF). These expansions expire under various deadlines, although most states have made or are planning to make some Medicaid telehealth flexibilities permanent, KFF said.

The KFF report notes that all states and the District of Columbia temporarily waived some aspects of state licensure requirements, so that clinicians with equivalent licenses in other states could practice via telehealth.

In some states, these waivers are still active and are tied to the end of the federal emergency declaration. In others, they expired, with some states allowing for long-term or permanent interstate telemedicine, KFF said. (The Federation of State Medical Boards has a detailed summary of these modifications.)
 

The end of free COVID vaccines, testing for some patients

The AAFP has also raised concerns about continued access to COVID-19 vaccines, particularly for uninsured adults. Ashish Jha, MD, MPH, the White House COVID-19 Response Coordinator, said in a tweet that this transition, however, wouldn’t happen until a few months after the public health emergency ends.

After those few months, there will be a transition from U.S. government–distributed vaccines and treatments to ones purchased through the regular health care system, the “way we do for every other vaccine and treatment,” Dr. Jha added.

But that raises the same kind of difficult questions that permeate U.S. health care, with a potential to keep COVID active, said Patricia Jackson, RN, president of the Association for Professionals in Infection Control and Epidemiology (APIC).

People who don’t have insurance may lose access to COVID testing and vaccines.

“Will that lead to increases in transmission? Who knows,” Ms. Jackson told this news organization. “We will have to see. There are some health equity issues that potentially arise.”
 

Future FDA actions

Biden’s May 11 deadline applies to emergency provisions made under a Section 319 declaration, which allow the Department of Health and Human Services to respond to crises.

But a separate flexibility, known as a Section 564 declaration, covers the FDA’s EUAs, which can remain in effect even as the other declarations end.

The best-known EUAs for the pandemic were used to bring COVID vaccines and treatments to market. Many of these have since been converted to normal approvals as companies presented more evidence to support the initial emergency approvals. In other cases, EUAs have been withdrawn owing to disappointing research results, changing virus strains, and evolving medical treatments.

The FDA also used many EUAs to cover new uses of ventilators and other hospital equipment and expand these supplies in response to the pandemic, said Mark Howell, AHA’s director of policy and patient safety.

The FDA should examine the EUAs issued during the pandemic to see what greater flexibilities might be used to deal with future serious shortages of critical supplies. International incidents such as the war in Ukraine show how fragile the supply chain can be. The FDA should consider its recent experience with EUAs to address this, Mr. Howell said.

“What do we do coming out of the pandemic? And how do we think about being more proactive in this space to ensure that our supply doesn’t bottleneck, that we continue to make sure that providers have access to supply that’s not only safe and effective, but that they can use?” Mr. Howell told this news organization.

Such planning might also help prepare the country for the next pandemic, which is a near certainty, APIC’s Ms. Jackson said. The nation needs a nimbler response to the next major outbreak of an infectious disease, she said.

“There is going to be a next time,” Ms. Jackson said. “We are going to have another pandemic.”

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

Physicians nationwide will be challenged by the “unwinding” of the federal public health emergency declared for the COVID-19 pandemic.

The Biden administration intends to end by May 11 certain COVID-19 emergency measures used to aid in the response to the pandemic, while many others will remain in place.

A separate declaration covers the Food and Drug Administration’s emergency use authorizations (EUAs) for COVID medicines and tests. That would not be affected by the May 11 deadline, the FDA said. In addition, Congress and state lawmakers have extended some COVID response measures.

The result is a patchwork of emergency COVID-19 measures with different end dates.

The American Medical Association and the American Academy of Family Physicians (AAFP) are assessing how best to advise their members about the end of the public health emergency.

Several waivers regarding copays and coverage and policies regarding controlled substances will expire, Claire Ernst, director of government affairs at the Medical Group Management Association, told this news organization.

The impact of the unwinding “will vary based on some factors, such as what state the practice resides in,” Ms. Ernst said. “Fortunately, Congress provided some predictability for practices by extending many of the telehealth waivers through the end of 2024.”

The AAFP told this news organization that it has joined several other groups in calling for the release of proposed Drug Enforcement Administration (DEA) regulations meant to permanently allow prescriptions of buprenorphine treatment for opioid use disorder via telehealth. The AAFP and other groups want to review these proposals and, if needed, urge the DEA to modify or finalize before there are any disruptions in access to medications for opioid use disorder.
 

Patients’ questions

Clinicians can expect to field patients’ questions about their insurance coverage and what they need to pay, said Nancy Foster, vice president for quality and patient safety policy at the American Hospital Association (AHA).

“Your doctor’s office, that clinic you typically get care at, that is the face of medicine to you,” Ms. Foster told this news organization. “Many doctors and their staff will be asked, ‘What’s happening with Medicaid?’ ‘What about my Medicare coverage?’ ‘Can I still access care in the same way that I did before?’ ”

Physicians will need to be ready to answers those question, or point patients to where they can get answers, Ms. Foster said.

For example, Medicaid will no longer cover postpartum care for some enrollees after giving birth, said Taylor Platt, health policy manager for the American College of Obstetricians and Gynecologists.

The federal response to the pandemic created “a de facto postpartum coverage extension for Medicaid enrollees,” which will be lost in some states, Ms. Platt told this news organization. However, 28 states and the District of Columbia have taken separate measures to extend postpartum coverage to 1 year.

“This coverage has been critical for postpartum individuals to address health needs like substance use and mental health treatment and chronic conditions,” Ms. Platt said.

States significantly changed Medicaid policy to expand access to care during the pandemic.

All 50 states and the District of Columbia, for example, expanded coverage or access to telehealth services in Medicaid during the pandemic, according to a Jan. 31 report from the Kaiser Family Foundation (KFF). These expansions expire under various deadlines, although most states have made or are planning to make some Medicaid telehealth flexibilities permanent, KFF said.

The KFF report notes that all states and the District of Columbia temporarily waived some aspects of state licensure requirements, so that clinicians with equivalent licenses in other states could practice via telehealth.

In some states, these waivers are still active and are tied to the end of the federal emergency declaration. In others, they expired, with some states allowing for long-term or permanent interstate telemedicine, KFF said. (The Federation of State Medical Boards has a detailed summary of these modifications.)
 

The end of free COVID vaccines, testing for some patients

The AAFP has also raised concerns about continued access to COVID-19 vaccines, particularly for uninsured adults. Ashish Jha, MD, MPH, the White House COVID-19 Response Coordinator, said in a tweet that this transition, however, wouldn’t happen until a few months after the public health emergency ends.

After those few months, there will be a transition from U.S. government–distributed vaccines and treatments to ones purchased through the regular health care system, the “way we do for every other vaccine and treatment,” Dr. Jha added.

But that raises the same kind of difficult questions that permeate U.S. health care, with a potential to keep COVID active, said Patricia Jackson, RN, president of the Association for Professionals in Infection Control and Epidemiology (APIC).

People who don’t have insurance may lose access to COVID testing and vaccines.

“Will that lead to increases in transmission? Who knows,” Ms. Jackson told this news organization. “We will have to see. There are some health equity issues that potentially arise.”
 

Future FDA actions

Biden’s May 11 deadline applies to emergency provisions made under a Section 319 declaration, which allow the Department of Health and Human Services to respond to crises.

But a separate flexibility, known as a Section 564 declaration, covers the FDA’s EUAs, which can remain in effect even as the other declarations end.

The best-known EUAs for the pandemic were used to bring COVID vaccines and treatments to market. Many of these have since been converted to normal approvals as companies presented more evidence to support the initial emergency approvals. In other cases, EUAs have been withdrawn owing to disappointing research results, changing virus strains, and evolving medical treatments.

The FDA also used many EUAs to cover new uses of ventilators and other hospital equipment and expand these supplies in response to the pandemic, said Mark Howell, AHA’s director of policy and patient safety.

The FDA should examine the EUAs issued during the pandemic to see what greater flexibilities might be used to deal with future serious shortages of critical supplies. International incidents such as the war in Ukraine show how fragile the supply chain can be. The FDA should consider its recent experience with EUAs to address this, Mr. Howell said.

“What do we do coming out of the pandemic? And how do we think about being more proactive in this space to ensure that our supply doesn’t bottleneck, that we continue to make sure that providers have access to supply that’s not only safe and effective, but that they can use?” Mr. Howell told this news organization.

Such planning might also help prepare the country for the next pandemic, which is a near certainty, APIC’s Ms. Jackson said. The nation needs a nimbler response to the next major outbreak of an infectious disease, she said.

“There is going to be a next time,” Ms. Jackson said. “We are going to have another pandemic.”

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

Physicians nationwide will be challenged by the “unwinding” of the federal public health emergency declared for the COVID-19 pandemic.

The Biden administration intends to end by May 11 certain COVID-19 emergency measures used to aid in the response to the pandemic, while many others will remain in place.

A separate declaration covers the Food and Drug Administration’s emergency use authorizations (EUAs) for COVID medicines and tests. That would not be affected by the May 11 deadline, the FDA said. In addition, Congress and state lawmakers have extended some COVID response measures.

The result is a patchwork of emergency COVID-19 measures with different end dates.

The American Medical Association and the American Academy of Family Physicians (AAFP) are assessing how best to advise their members about the end of the public health emergency.

Several waivers regarding copays and coverage and policies regarding controlled substances will expire, Claire Ernst, director of government affairs at the Medical Group Management Association, told this news organization.

The impact of the unwinding “will vary based on some factors, such as what state the practice resides in,” Ms. Ernst said. “Fortunately, Congress provided some predictability for practices by extending many of the telehealth waivers through the end of 2024.”

The AAFP told this news organization that it has joined several other groups in calling for the release of proposed Drug Enforcement Administration (DEA) regulations meant to permanently allow prescriptions of buprenorphine treatment for opioid use disorder via telehealth. The AAFP and other groups want to review these proposals and, if needed, urge the DEA to modify or finalize before there are any disruptions in access to medications for opioid use disorder.
 

Patients’ questions

Clinicians can expect to field patients’ questions about their insurance coverage and what they need to pay, said Nancy Foster, vice president for quality and patient safety policy at the American Hospital Association (AHA).

“Your doctor’s office, that clinic you typically get care at, that is the face of medicine to you,” Ms. Foster told this news organization. “Many doctors and their staff will be asked, ‘What’s happening with Medicaid?’ ‘What about my Medicare coverage?’ ‘Can I still access care in the same way that I did before?’ ”

Physicians will need to be ready to answers those question, or point patients to where they can get answers, Ms. Foster said.

For example, Medicaid will no longer cover postpartum care for some enrollees after giving birth, said Taylor Platt, health policy manager for the American College of Obstetricians and Gynecologists.

The federal response to the pandemic created “a de facto postpartum coverage extension for Medicaid enrollees,” which will be lost in some states, Ms. Platt told this news organization. However, 28 states and the District of Columbia have taken separate measures to extend postpartum coverage to 1 year.

“This coverage has been critical for postpartum individuals to address health needs like substance use and mental health treatment and chronic conditions,” Ms. Platt said.

States significantly changed Medicaid policy to expand access to care during the pandemic.

All 50 states and the District of Columbia, for example, expanded coverage or access to telehealth services in Medicaid during the pandemic, according to a Jan. 31 report from the Kaiser Family Foundation (KFF). These expansions expire under various deadlines, although most states have made or are planning to make some Medicaid telehealth flexibilities permanent, KFF said.

The KFF report notes that all states and the District of Columbia temporarily waived some aspects of state licensure requirements, so that clinicians with equivalent licenses in other states could practice via telehealth.

In some states, these waivers are still active and are tied to the end of the federal emergency declaration. In others, they expired, with some states allowing for long-term or permanent interstate telemedicine, KFF said. (The Federation of State Medical Boards has a detailed summary of these modifications.)
 

The end of free COVID vaccines, testing for some patients

The AAFP has also raised concerns about continued access to COVID-19 vaccines, particularly for uninsured adults. Ashish Jha, MD, MPH, the White House COVID-19 Response Coordinator, said in a tweet that this transition, however, wouldn’t happen until a few months after the public health emergency ends.

After those few months, there will be a transition from U.S. government–distributed vaccines and treatments to ones purchased through the regular health care system, the “way we do for every other vaccine and treatment,” Dr. Jha added.

But that raises the same kind of difficult questions that permeate U.S. health care, with a potential to keep COVID active, said Patricia Jackson, RN, president of the Association for Professionals in Infection Control and Epidemiology (APIC).

People who don’t have insurance may lose access to COVID testing and vaccines.

“Will that lead to increases in transmission? Who knows,” Ms. Jackson told this news organization. “We will have to see. There are some health equity issues that potentially arise.”
 

Future FDA actions

Biden’s May 11 deadline applies to emergency provisions made under a Section 319 declaration, which allow the Department of Health and Human Services to respond to crises.

But a separate flexibility, known as a Section 564 declaration, covers the FDA’s EUAs, which can remain in effect even as the other declarations end.

The best-known EUAs for the pandemic were used to bring COVID vaccines and treatments to market. Many of these have since been converted to normal approvals as companies presented more evidence to support the initial emergency approvals. In other cases, EUAs have been withdrawn owing to disappointing research results, changing virus strains, and evolving medical treatments.

The FDA also used many EUAs to cover new uses of ventilators and other hospital equipment and expand these supplies in response to the pandemic, said Mark Howell, AHA’s director of policy and patient safety.

The FDA should examine the EUAs issued during the pandemic to see what greater flexibilities might be used to deal with future serious shortages of critical supplies. International incidents such as the war in Ukraine show how fragile the supply chain can be. The FDA should consider its recent experience with EUAs to address this, Mr. Howell said.

“What do we do coming out of the pandemic? And how do we think about being more proactive in this space to ensure that our supply doesn’t bottleneck, that we continue to make sure that providers have access to supply that’s not only safe and effective, but that they can use?” Mr. Howell told this news organization.

Such planning might also help prepare the country for the next pandemic, which is a near certainty, APIC’s Ms. Jackson said. The nation needs a nimbler response to the next major outbreak of an infectious disease, she said.

“There is going to be a next time,” Ms. Jackson said. “We are going to have another pandemic.”

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