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Collaborative effort reduces COPD readmissions, costs
Medicare exacts a penalty whenever it deems that hospitals have too many patients with chronic obstructive pulmonary disease who have been re-admitted within 30 days of discharge for care related to the disease. For acute-care hospitals the solution to reducing chronic obstructive pulmonary disease (COPD) re-admissions has been elusive, but members of a COPD chronic care management collaborative think they have found at least a partial solution.
Among 33 centers participating in the performance improvement program, the aggregated cost avoidance for emergency department (ED) visits was estimated at $351,000, and the savings for hospital re-visits avoided was an estimated $2.6 million, reported Valerie Press, MD, MPH, from the University of Chicago, and co-authors from the health care performance-improvement company Vizient.
The investigators described their chronic care management collaborative in a thematic poster presented during the American Thoracic Society’s virtual international conference (Abstract A1688).
“I’ve been working in the space of COPD re-admissions pretty much since Medicare started its penalty program,” Dr. Press said in an interview.
“At both my own institution and nationally, we’ve been trying to understand the policy that went into place to reduce what was considered to be excessive readmissions after a COPD admission, but there really wasn’t a lot of evidence to suggest how to do this at the time the policy went into place,” she said.
The Centers for Medicare & Medicaid Services (CMS) initiated its Hospital Readmission Reduction Program for COPD in 2014.
“The challenge with COPD is that we have not found really successful interventions to decrease readmissions,” commented Laura C. Myers, MD, MPH, in an interview. Dr. Myers, who studies optimal care delivery models for patients with COPD at Kaiser Permanente Northern California in Oakland, was not involved in the study.
She said that although the aggregate cost savings in the study by Dr. Press and colleagues are relatively modest, “if you extrapolate across the country, then those numbers could potentially be impressive.”
Collaboration details
Dr. Press was a subject matter expert for the collaborative, which included 47 Vizient member sites in the Southeast, Southwest, Midwest, and Northeast and Northwest coasts. Of these centers, 33 completed both parts of the collaboration.
The program included bi-monthly didactic sessions and site report and discussion sessions with peer-to-peer networking for a total of 6 months. During the sessions, meeting participants discussed best practices, received expert coaching, and provided progress updates on performance improvement projects.
“The goal was for them to identify the gaps or needs they had at their hospitals or practices, and then to try to put in place one or more interventions,” Dr. Press said. “This wasn’t a research program. It wasn’t standardized, and not all hospitals had to do the same program.”
The participants submitted reports for baseline and post-collaboration periods on both an intervention’s “reach,” defined as the percentage of patients who received a specified intervention, and on two outcome measures.
The interventions measured included spirometry, follow-up visits scheduled within 7 to 14 days of discharge, patients receiving COPD education, pulmonary referrals, and adherence to the COPD clinical pathway.
The outcome measures were the rate of COPD-related ED visits and hospital readmissions.
Revisits reduced
At the end of the program, 83% of participating sites had reductions in either ED visits or readmissions, and of this group, five sites had decreases in both measures.
Among all sites with improved metrics, the average rate of COPD-related ED revisits declined from 12.7% to 9%, and average inpatient readmissions declined from 20.1% to 15.6%.
As noted, the estimated cost savings in ED revisits avoided was $351,00, and the estimated savings in hospital readmission costs was $2.6 million.
“Although the centers didn’t have to participate in both parts, we did see in our results that the programs that participated fully had better results,” Dr. Press said.
“Historically, we’ve had such difficulty in decreasing COPD readmissions, and it’s nice to see something that actually works, both for patients and for conserving health resources,” Dr. Myers commented.
The study was supported by Vizient. Dr. Press disclosed honoraria from the company in her role as subject matter expert. Dr. Myers reported no conflicts of interest.
Medicare exacts a penalty whenever it deems that hospitals have too many patients with chronic obstructive pulmonary disease who have been re-admitted within 30 days of discharge for care related to the disease. For acute-care hospitals the solution to reducing chronic obstructive pulmonary disease (COPD) re-admissions has been elusive, but members of a COPD chronic care management collaborative think they have found at least a partial solution.
Among 33 centers participating in the performance improvement program, the aggregated cost avoidance for emergency department (ED) visits was estimated at $351,000, and the savings for hospital re-visits avoided was an estimated $2.6 million, reported Valerie Press, MD, MPH, from the University of Chicago, and co-authors from the health care performance-improvement company Vizient.
The investigators described their chronic care management collaborative in a thematic poster presented during the American Thoracic Society’s virtual international conference (Abstract A1688).
“I’ve been working in the space of COPD re-admissions pretty much since Medicare started its penalty program,” Dr. Press said in an interview.
“At both my own institution and nationally, we’ve been trying to understand the policy that went into place to reduce what was considered to be excessive readmissions after a COPD admission, but there really wasn’t a lot of evidence to suggest how to do this at the time the policy went into place,” she said.
The Centers for Medicare & Medicaid Services (CMS) initiated its Hospital Readmission Reduction Program for COPD in 2014.
“The challenge with COPD is that we have not found really successful interventions to decrease readmissions,” commented Laura C. Myers, MD, MPH, in an interview. Dr. Myers, who studies optimal care delivery models for patients with COPD at Kaiser Permanente Northern California in Oakland, was not involved in the study.
She said that although the aggregate cost savings in the study by Dr. Press and colleagues are relatively modest, “if you extrapolate across the country, then those numbers could potentially be impressive.”
Collaboration details
Dr. Press was a subject matter expert for the collaborative, which included 47 Vizient member sites in the Southeast, Southwest, Midwest, and Northeast and Northwest coasts. Of these centers, 33 completed both parts of the collaboration.
The program included bi-monthly didactic sessions and site report and discussion sessions with peer-to-peer networking for a total of 6 months. During the sessions, meeting participants discussed best practices, received expert coaching, and provided progress updates on performance improvement projects.
“The goal was for them to identify the gaps or needs they had at their hospitals or practices, and then to try to put in place one or more interventions,” Dr. Press said. “This wasn’t a research program. It wasn’t standardized, and not all hospitals had to do the same program.”
The participants submitted reports for baseline and post-collaboration periods on both an intervention’s “reach,” defined as the percentage of patients who received a specified intervention, and on two outcome measures.
The interventions measured included spirometry, follow-up visits scheduled within 7 to 14 days of discharge, patients receiving COPD education, pulmonary referrals, and adherence to the COPD clinical pathway.
The outcome measures were the rate of COPD-related ED visits and hospital readmissions.
Revisits reduced
At the end of the program, 83% of participating sites had reductions in either ED visits or readmissions, and of this group, five sites had decreases in both measures.
Among all sites with improved metrics, the average rate of COPD-related ED revisits declined from 12.7% to 9%, and average inpatient readmissions declined from 20.1% to 15.6%.
As noted, the estimated cost savings in ED revisits avoided was $351,00, and the estimated savings in hospital readmission costs was $2.6 million.
“Although the centers didn’t have to participate in both parts, we did see in our results that the programs that participated fully had better results,” Dr. Press said.
“Historically, we’ve had such difficulty in decreasing COPD readmissions, and it’s nice to see something that actually works, both for patients and for conserving health resources,” Dr. Myers commented.
The study was supported by Vizient. Dr. Press disclosed honoraria from the company in her role as subject matter expert. Dr. Myers reported no conflicts of interest.
Medicare exacts a penalty whenever it deems that hospitals have too many patients with chronic obstructive pulmonary disease who have been re-admitted within 30 days of discharge for care related to the disease. For acute-care hospitals the solution to reducing chronic obstructive pulmonary disease (COPD) re-admissions has been elusive, but members of a COPD chronic care management collaborative think they have found at least a partial solution.
Among 33 centers participating in the performance improvement program, the aggregated cost avoidance for emergency department (ED) visits was estimated at $351,000, and the savings for hospital re-visits avoided was an estimated $2.6 million, reported Valerie Press, MD, MPH, from the University of Chicago, and co-authors from the health care performance-improvement company Vizient.
The investigators described their chronic care management collaborative in a thematic poster presented during the American Thoracic Society’s virtual international conference (Abstract A1688).
“I’ve been working in the space of COPD re-admissions pretty much since Medicare started its penalty program,” Dr. Press said in an interview.
“At both my own institution and nationally, we’ve been trying to understand the policy that went into place to reduce what was considered to be excessive readmissions after a COPD admission, but there really wasn’t a lot of evidence to suggest how to do this at the time the policy went into place,” she said.
The Centers for Medicare & Medicaid Services (CMS) initiated its Hospital Readmission Reduction Program for COPD in 2014.
“The challenge with COPD is that we have not found really successful interventions to decrease readmissions,” commented Laura C. Myers, MD, MPH, in an interview. Dr. Myers, who studies optimal care delivery models for patients with COPD at Kaiser Permanente Northern California in Oakland, was not involved in the study.
She said that although the aggregate cost savings in the study by Dr. Press and colleagues are relatively modest, “if you extrapolate across the country, then those numbers could potentially be impressive.”
Collaboration details
Dr. Press was a subject matter expert for the collaborative, which included 47 Vizient member sites in the Southeast, Southwest, Midwest, and Northeast and Northwest coasts. Of these centers, 33 completed both parts of the collaboration.
The program included bi-monthly didactic sessions and site report and discussion sessions with peer-to-peer networking for a total of 6 months. During the sessions, meeting participants discussed best practices, received expert coaching, and provided progress updates on performance improvement projects.
“The goal was for them to identify the gaps or needs they had at their hospitals or practices, and then to try to put in place one or more interventions,” Dr. Press said. “This wasn’t a research program. It wasn’t standardized, and not all hospitals had to do the same program.”
The participants submitted reports for baseline and post-collaboration periods on both an intervention’s “reach,” defined as the percentage of patients who received a specified intervention, and on two outcome measures.
The interventions measured included spirometry, follow-up visits scheduled within 7 to 14 days of discharge, patients receiving COPD education, pulmonary referrals, and adherence to the COPD clinical pathway.
The outcome measures were the rate of COPD-related ED visits and hospital readmissions.
Revisits reduced
At the end of the program, 83% of participating sites had reductions in either ED visits or readmissions, and of this group, five sites had decreases in both measures.
Among all sites with improved metrics, the average rate of COPD-related ED revisits declined from 12.7% to 9%, and average inpatient readmissions declined from 20.1% to 15.6%.
As noted, the estimated cost savings in ED revisits avoided was $351,00, and the estimated savings in hospital readmission costs was $2.6 million.
“Although the centers didn’t have to participate in both parts, we did see in our results that the programs that participated fully had better results,” Dr. Press said.
“Historically, we’ve had such difficulty in decreasing COPD readmissions, and it’s nice to see something that actually works, both for patients and for conserving health resources,” Dr. Myers commented.
The study was supported by Vizient. Dr. Press disclosed honoraria from the company in her role as subject matter expert. Dr. Myers reported no conflicts of interest.
FROM ATS 2021
Obstructive sleep apnea linked to COVID-19 risk
Greater severity of obstructive sleep apnea (OSA) is associated with a higher risk of contracting COVID-19, and positive airway pressure (PAP) treatment may counter that risk, according to a retrospective analysis from the records of Kaiser Permanente Southern California.
OSA patients often worry that PAP therapy might increase risk of severe COVID-19, said Dennis Hwang, MD, who presented the study at the American Thoracic Society’s virtual international conference (Abstract A1108). But the findings should be reassuring. “If you have obstructive sleep apnea, and you’re supposed to be using PAP, we recommend that you continue using PAP. It’s good for your overall wellness and reducing the risk of cardiovascular disease, but as it relates to COVID-19, it’s possible that it could protect. And there doesn’t appear to be any risk of increased severity of illness (with use of PAP),” Dr. Hwang said in an interview. He is medical director of sleep medicine for Kaiser Permanente San Bernardino County and cochair of sleep medicine for Kaiser Southern California.
He noted that the retrospective nature of the study makes it difficult to pin down whether PAP therapy is truly protective, “but I think there’s enough that we’ve been able conceptually to understand, to suggest that a direct causative relationship is possible,” said Dr. Hwang.
The results may imply that OSA patients should pay special attention to their OSA when there’s concern about exposure to an infectious agent like SARS-CoV-2. “The intermittent hypoxia at night, which can linger over to the day as increased sympathetic activity, increased heart rate. All of these are stresses to the body. So if you’re going to get infected, you want to start at a healthier level. You want to eliminate your sleep apnea to help reduce your risk of morbidity,” said Esra Tasali, MD, who was asked to comment on the study. Dr. Tasali is associate professor of medicine at the University of Chicago, and director of the Sleep Research Center there.
During the Q&A session after the talk, audience members asked about the timing of PAP use during COVID-19 infection, for example how often it was used during the asymptomatic phase of infection and if PAP has a positive effect. The data were not available, but “I think that the way to go is to understand this chronology,” said Dr. Tasali.
The researchers examined records between 2015 and 2020, using sleep study data, remotely collected daily PAP data, and electronic health records, all from Kaiser Permanente Southern California. Included subjects were adults who had enrolled before Feb. 1, 2020, and had sleep diagnostic or PAP data on record by March 1, 2020. The researchers analyzed PAP adherence between March 1, 2020, and the time of COVID-19 diagnosis, or until the study ended on July 31, 2020.
Patients were defined as being untreated (< 2 hours/night PAP), moderately treated (2-3.9 hours/night), or well treated (4 or more hours/night). Apnea hypopnea index (AHI) was used to determine severity. The analysis included 81,932 patients (39.8% were women, mean age was 54.0 years, 9.9% were Black, and 34.5% were Hispanic). A total of 1.7% of subjects without OSA experienced COVID-19 infection, compared to 1.8% with OSA; 0.3% with OSA were hospitalized and 0.07% underwent intensive care or died.
There were some differences between the two groups. The non-USA population was younger (mean age 47.0 vs. 54.5 years), was less likely to be men (44% vs. 60.3%), had a lower mean body mass index (30.4 vs. 34.3), had fewer comorbidities according to the Charleston Comorbidity Index (1.3 vs. 2.0), and were less likely to have hypertension (5.6% vs. 12.4%; P < .0001 for all).
Infection rates were higher in patients with more severe OSA. The rates in untreated mild, moderate, and severe OSA were 2%, 2%, and 2.4% respectively. The rate among all treated patients was 1.4% (P < .0001). Infection rates also dropped among patients with better treatment: untreated, 2.1%; moderately treated, 1.7%; and well treated, 1.3% (P < .0001).
Not having OSA was associated with a lower infection risk than was having OSA (odds ratio [OR], 0.82; 95% confidence interval, 0.70-0.96). Compared to untreated patients, there was lower infection risk in the moderately treated (OR, 0.82; 95% CI, 0.65-1.03) and well treated (OR, 0.68; 95% CI, 0.59-0.79) groups. Higher infection rates were associated with obesity, higher Charlson Comorbidity score (> 2; OR, 1.29; 95% CI, 1.09-1.53), Black (OR, 1.51; 95% CI, 1.24-1.84) and Hispanic ethnicities (OR, 2.23; 95% CI, 1.96-2.54), and Medicaid enrollment. Increasing age was associated with lower risk of infection, with each 5-year increment linked to reduced risk (OR, 0.88; 95% CI, 0.86-0.90). Dr. Hwang suggested that the age association may be because older individuals were more likely to follow social distancing and other precautions.
A multivariate analysis found that OSA was associated with infection risk according to OSA severity, including mild (OR, 1.21; 95% CI, 1.01-1.44), and moderate to severe (OR, 1.27; 95% CI, 1.07-1.51). There was no association between hospitalization rate or ICU admission/death and presence of OSA or PAP adherence in the data presented, but Dr. Hwang said that an updated analysis suggests that OSA may be associated with a risk of greater COVID-19 severity.
The control group was composed of individuals who had undergone sleep testing, but found to not have OSA. Still, they aren’t necessarily representative of the general population, since symptoms likely drove them to testing. A high percentage were also obese, and the average BMI was 30. “It’s certainly not a ‘normal population,’ but the advantage of what we did in terms of using this control group is that they underwent sleep testing, so they were proven to have no obstructive sleep apnea, whereas if we used a general population, we just don’t know,” said Dr. Hwang.
The study received technical and data support from Somnoware, and was funded by Kaiser Permanente. Dr. Tasali has no relevant financial disclosures.
Greater severity of obstructive sleep apnea (OSA) is associated with a higher risk of contracting COVID-19, and positive airway pressure (PAP) treatment may counter that risk, according to a retrospective analysis from the records of Kaiser Permanente Southern California.
OSA patients often worry that PAP therapy might increase risk of severe COVID-19, said Dennis Hwang, MD, who presented the study at the American Thoracic Society’s virtual international conference (Abstract A1108). But the findings should be reassuring. “If you have obstructive sleep apnea, and you’re supposed to be using PAP, we recommend that you continue using PAP. It’s good for your overall wellness and reducing the risk of cardiovascular disease, but as it relates to COVID-19, it’s possible that it could protect. And there doesn’t appear to be any risk of increased severity of illness (with use of PAP),” Dr. Hwang said in an interview. He is medical director of sleep medicine for Kaiser Permanente San Bernardino County and cochair of sleep medicine for Kaiser Southern California.
He noted that the retrospective nature of the study makes it difficult to pin down whether PAP therapy is truly protective, “but I think there’s enough that we’ve been able conceptually to understand, to suggest that a direct causative relationship is possible,” said Dr. Hwang.
The results may imply that OSA patients should pay special attention to their OSA when there’s concern about exposure to an infectious agent like SARS-CoV-2. “The intermittent hypoxia at night, which can linger over to the day as increased sympathetic activity, increased heart rate. All of these are stresses to the body. So if you’re going to get infected, you want to start at a healthier level. You want to eliminate your sleep apnea to help reduce your risk of morbidity,” said Esra Tasali, MD, who was asked to comment on the study. Dr. Tasali is associate professor of medicine at the University of Chicago, and director of the Sleep Research Center there.
During the Q&A session after the talk, audience members asked about the timing of PAP use during COVID-19 infection, for example how often it was used during the asymptomatic phase of infection and if PAP has a positive effect. The data were not available, but “I think that the way to go is to understand this chronology,” said Dr. Tasali.
The researchers examined records between 2015 and 2020, using sleep study data, remotely collected daily PAP data, and electronic health records, all from Kaiser Permanente Southern California. Included subjects were adults who had enrolled before Feb. 1, 2020, and had sleep diagnostic or PAP data on record by March 1, 2020. The researchers analyzed PAP adherence between March 1, 2020, and the time of COVID-19 diagnosis, or until the study ended on July 31, 2020.
Patients were defined as being untreated (< 2 hours/night PAP), moderately treated (2-3.9 hours/night), or well treated (4 or more hours/night). Apnea hypopnea index (AHI) was used to determine severity. The analysis included 81,932 patients (39.8% were women, mean age was 54.0 years, 9.9% were Black, and 34.5% were Hispanic). A total of 1.7% of subjects without OSA experienced COVID-19 infection, compared to 1.8% with OSA; 0.3% with OSA were hospitalized and 0.07% underwent intensive care or died.
There were some differences between the two groups. The non-USA population was younger (mean age 47.0 vs. 54.5 years), was less likely to be men (44% vs. 60.3%), had a lower mean body mass index (30.4 vs. 34.3), had fewer comorbidities according to the Charleston Comorbidity Index (1.3 vs. 2.0), and were less likely to have hypertension (5.6% vs. 12.4%; P < .0001 for all).
Infection rates were higher in patients with more severe OSA. The rates in untreated mild, moderate, and severe OSA were 2%, 2%, and 2.4% respectively. The rate among all treated patients was 1.4% (P < .0001). Infection rates also dropped among patients with better treatment: untreated, 2.1%; moderately treated, 1.7%; and well treated, 1.3% (P < .0001).
Not having OSA was associated with a lower infection risk than was having OSA (odds ratio [OR], 0.82; 95% confidence interval, 0.70-0.96). Compared to untreated patients, there was lower infection risk in the moderately treated (OR, 0.82; 95% CI, 0.65-1.03) and well treated (OR, 0.68; 95% CI, 0.59-0.79) groups. Higher infection rates were associated with obesity, higher Charlson Comorbidity score (> 2; OR, 1.29; 95% CI, 1.09-1.53), Black (OR, 1.51; 95% CI, 1.24-1.84) and Hispanic ethnicities (OR, 2.23; 95% CI, 1.96-2.54), and Medicaid enrollment. Increasing age was associated with lower risk of infection, with each 5-year increment linked to reduced risk (OR, 0.88; 95% CI, 0.86-0.90). Dr. Hwang suggested that the age association may be because older individuals were more likely to follow social distancing and other precautions.
A multivariate analysis found that OSA was associated with infection risk according to OSA severity, including mild (OR, 1.21; 95% CI, 1.01-1.44), and moderate to severe (OR, 1.27; 95% CI, 1.07-1.51). There was no association between hospitalization rate or ICU admission/death and presence of OSA or PAP adherence in the data presented, but Dr. Hwang said that an updated analysis suggests that OSA may be associated with a risk of greater COVID-19 severity.
The control group was composed of individuals who had undergone sleep testing, but found to not have OSA. Still, they aren’t necessarily representative of the general population, since symptoms likely drove them to testing. A high percentage were also obese, and the average BMI was 30. “It’s certainly not a ‘normal population,’ but the advantage of what we did in terms of using this control group is that they underwent sleep testing, so they were proven to have no obstructive sleep apnea, whereas if we used a general population, we just don’t know,” said Dr. Hwang.
The study received technical and data support from Somnoware, and was funded by Kaiser Permanente. Dr. Tasali has no relevant financial disclosures.
Greater severity of obstructive sleep apnea (OSA) is associated with a higher risk of contracting COVID-19, and positive airway pressure (PAP) treatment may counter that risk, according to a retrospective analysis from the records of Kaiser Permanente Southern California.
OSA patients often worry that PAP therapy might increase risk of severe COVID-19, said Dennis Hwang, MD, who presented the study at the American Thoracic Society’s virtual international conference (Abstract A1108). But the findings should be reassuring. “If you have obstructive sleep apnea, and you’re supposed to be using PAP, we recommend that you continue using PAP. It’s good for your overall wellness and reducing the risk of cardiovascular disease, but as it relates to COVID-19, it’s possible that it could protect. And there doesn’t appear to be any risk of increased severity of illness (with use of PAP),” Dr. Hwang said in an interview. He is medical director of sleep medicine for Kaiser Permanente San Bernardino County and cochair of sleep medicine for Kaiser Southern California.
He noted that the retrospective nature of the study makes it difficult to pin down whether PAP therapy is truly protective, “but I think there’s enough that we’ve been able conceptually to understand, to suggest that a direct causative relationship is possible,” said Dr. Hwang.
The results may imply that OSA patients should pay special attention to their OSA when there’s concern about exposure to an infectious agent like SARS-CoV-2. “The intermittent hypoxia at night, which can linger over to the day as increased sympathetic activity, increased heart rate. All of these are stresses to the body. So if you’re going to get infected, you want to start at a healthier level. You want to eliminate your sleep apnea to help reduce your risk of morbidity,” said Esra Tasali, MD, who was asked to comment on the study. Dr. Tasali is associate professor of medicine at the University of Chicago, and director of the Sleep Research Center there.
During the Q&A session after the talk, audience members asked about the timing of PAP use during COVID-19 infection, for example how often it was used during the asymptomatic phase of infection and if PAP has a positive effect. The data were not available, but “I think that the way to go is to understand this chronology,” said Dr. Tasali.
The researchers examined records between 2015 and 2020, using sleep study data, remotely collected daily PAP data, and electronic health records, all from Kaiser Permanente Southern California. Included subjects were adults who had enrolled before Feb. 1, 2020, and had sleep diagnostic or PAP data on record by March 1, 2020. The researchers analyzed PAP adherence between March 1, 2020, and the time of COVID-19 diagnosis, or until the study ended on July 31, 2020.
Patients were defined as being untreated (< 2 hours/night PAP), moderately treated (2-3.9 hours/night), or well treated (4 or more hours/night). Apnea hypopnea index (AHI) was used to determine severity. The analysis included 81,932 patients (39.8% were women, mean age was 54.0 years, 9.9% were Black, and 34.5% were Hispanic). A total of 1.7% of subjects without OSA experienced COVID-19 infection, compared to 1.8% with OSA; 0.3% with OSA were hospitalized and 0.07% underwent intensive care or died.
There were some differences between the two groups. The non-USA population was younger (mean age 47.0 vs. 54.5 years), was less likely to be men (44% vs. 60.3%), had a lower mean body mass index (30.4 vs. 34.3), had fewer comorbidities according to the Charleston Comorbidity Index (1.3 vs. 2.0), and were less likely to have hypertension (5.6% vs. 12.4%; P < .0001 for all).
Infection rates were higher in patients with more severe OSA. The rates in untreated mild, moderate, and severe OSA were 2%, 2%, and 2.4% respectively. The rate among all treated patients was 1.4% (P < .0001). Infection rates also dropped among patients with better treatment: untreated, 2.1%; moderately treated, 1.7%; and well treated, 1.3% (P < .0001).
Not having OSA was associated with a lower infection risk than was having OSA (odds ratio [OR], 0.82; 95% confidence interval, 0.70-0.96). Compared to untreated patients, there was lower infection risk in the moderately treated (OR, 0.82; 95% CI, 0.65-1.03) and well treated (OR, 0.68; 95% CI, 0.59-0.79) groups. Higher infection rates were associated with obesity, higher Charlson Comorbidity score (> 2; OR, 1.29; 95% CI, 1.09-1.53), Black (OR, 1.51; 95% CI, 1.24-1.84) and Hispanic ethnicities (OR, 2.23; 95% CI, 1.96-2.54), and Medicaid enrollment. Increasing age was associated with lower risk of infection, with each 5-year increment linked to reduced risk (OR, 0.88; 95% CI, 0.86-0.90). Dr. Hwang suggested that the age association may be because older individuals were more likely to follow social distancing and other precautions.
A multivariate analysis found that OSA was associated with infection risk according to OSA severity, including mild (OR, 1.21; 95% CI, 1.01-1.44), and moderate to severe (OR, 1.27; 95% CI, 1.07-1.51). There was no association between hospitalization rate or ICU admission/death and presence of OSA or PAP adherence in the data presented, but Dr. Hwang said that an updated analysis suggests that OSA may be associated with a risk of greater COVID-19 severity.
The control group was composed of individuals who had undergone sleep testing, but found to not have OSA. Still, they aren’t necessarily representative of the general population, since symptoms likely drove them to testing. A high percentage were also obese, and the average BMI was 30. “It’s certainly not a ‘normal population,’ but the advantage of what we did in terms of using this control group is that they underwent sleep testing, so they were proven to have no obstructive sleep apnea, whereas if we used a general population, we just don’t know,” said Dr. Hwang.
The study received technical and data support from Somnoware, and was funded by Kaiser Permanente. Dr. Tasali has no relevant financial disclosures.
FROM ATS 2021
OSA: Heart rate change may signal CPAP benefit
Some nonsleepy patients with coronary artery disease and obstructive sleep apnea (OSA) may receive cardiovascular benefit from continuous positive airway pressure (CPAP) therapy, according to a post hoc analysis of the RICCADSA clinical trial. That study found no benefit among patients overall, but the new analysis found that patients whose heart rate increases (delta heart rate, or dHR) more than average during apnea or hypopnea experienced fewer cardiovascular or cerebrovascular events during apnea or hypopnea when treated with CPAP.
Although RICCADSA showed no benefit, an analysis of the Multi-Ethnic Study of Atherosclerosis (MESA) and the Sleep Heart Health Study (SHHS) cohorts found that elevated pulse rate response to respiratory events was associated with greater risk of cardiovascular disease (CVD) morbidity and mortality. But the effect was seen only in nonsleepy patients. “We hypothesized that pulse rate response to apneas would predict which patients with OSA may most benefit from CPAP treatment. Now, our study suggests that there is, in fact, a subgroup of nonsleepy patients with OSA for whom CPAP could provide a reduction in risk, specifically those with a higher pulse rate response to their respiratory events,” Ali Azarbarzin, PhD, said in an interview.
Dr. Azarbarzin presented the study at the American Thoracic Society’s virtual international conference (Abstract A1103). He is in the division of sleep and circadian disorders at Brigham and Women’s Hospital, and is assistant professor of medicine at Harvard Medical School, both in Boston.
The study is in line with recent efforts to subgroup OSA patients to determine which are at higher risk of cardiovascular events and other complications, and which are most likely to respond to treatment, according to Esra Tasali, MD, of the University of Chicago, who moderated the session where the study was presented. “The field is really urgently in need of coming up with new methods, and I think this study is getting a handle on that,” said Dr. Tasali in an interview.
“I think that this is really pointing toward a new area that the whole (sleep field) is moving toward, which is better phenotyping of sleep apnea so that we can come up with more personalized treatments,” said Dr. Tasali.
The patients who appeared to gain a cardiovascular benefit from CPAP represented about 16% of trial participants. Dr. Azarbarzin refrained from making clinical recommendations, citing the need for more data. The team next plans to reproduce the findings in additional, larger trials such as the SAVE and ISAACC trials. “Ultimately, our goal is to confirm our findings in a future randomized controlled trial of CPAP by enrolling participants based on their pulse rate response,” said Dr. Azarbarzin.
The RICCADSA study was a single center randomized, controlled trial with 226 patients with coronary artery disease and OSA who were randomized to CPAP or no CPAP treatment. In the overall population, CPAP treatment was not associated with a statistically significant change in repeat revascularization, myocardial infarction, stroke, or cardiovascular mortality (hazard ratio [HR], 0.79; P = .435). That study assumed that the effect of OSA on CVD is similar across all subgroups of dHR.
The mean increase in heart rate was 7.1 beats per minute (BPM; standard deviation, 3.7). Each standard deviation increase in dHR was linked to greater CVD risk (HR, 1.45; P = .029). For each standard deviation decrease in dHR, treatment with CPAP decreased the CVD risk (HR, 0.54; P = .043).
For patients with a low dHR of 4 BPM, the hazard ratio for CVD was 0.8 with no CPAP treatment and 1.2 for CPAP treatment. For those at the mean value of 7 BPM, the HRs were 1.1 and 0.9 respectively. For those with a high dHR, (10 BPM), the hazard ratio was 1.6 without treatment and 0.7 with CPAP.
“We modeled delta heart rate interaction with CPAP, which was significant. What this means is that for someone with a mean delta heart rate of 7 beats per minute, the risk reduction (with CPAP) is similar to what RICCADSA reported. But if you look at those with high delta heart rate, the risk reduction was significantly larger. It was actually a more than 50% reduction of risk with CPAP treatment,” said Dr. Azarbarzin.
Dr. Azarbarzin has consulted for Somnifix and Apnimed and has received grants from Somnifix. Dr. Tasali has no relevant financial disclosures.
Some nonsleepy patients with coronary artery disease and obstructive sleep apnea (OSA) may receive cardiovascular benefit from continuous positive airway pressure (CPAP) therapy, according to a post hoc analysis of the RICCADSA clinical trial. That study found no benefit among patients overall, but the new analysis found that patients whose heart rate increases (delta heart rate, or dHR) more than average during apnea or hypopnea experienced fewer cardiovascular or cerebrovascular events during apnea or hypopnea when treated with CPAP.
Although RICCADSA showed no benefit, an analysis of the Multi-Ethnic Study of Atherosclerosis (MESA) and the Sleep Heart Health Study (SHHS) cohorts found that elevated pulse rate response to respiratory events was associated with greater risk of cardiovascular disease (CVD) morbidity and mortality. But the effect was seen only in nonsleepy patients. “We hypothesized that pulse rate response to apneas would predict which patients with OSA may most benefit from CPAP treatment. Now, our study suggests that there is, in fact, a subgroup of nonsleepy patients with OSA for whom CPAP could provide a reduction in risk, specifically those with a higher pulse rate response to their respiratory events,” Ali Azarbarzin, PhD, said in an interview.
Dr. Azarbarzin presented the study at the American Thoracic Society’s virtual international conference (Abstract A1103). He is in the division of sleep and circadian disorders at Brigham and Women’s Hospital, and is assistant professor of medicine at Harvard Medical School, both in Boston.
The study is in line with recent efforts to subgroup OSA patients to determine which are at higher risk of cardiovascular events and other complications, and which are most likely to respond to treatment, according to Esra Tasali, MD, of the University of Chicago, who moderated the session where the study was presented. “The field is really urgently in need of coming up with new methods, and I think this study is getting a handle on that,” said Dr. Tasali in an interview.
“I think that this is really pointing toward a new area that the whole (sleep field) is moving toward, which is better phenotyping of sleep apnea so that we can come up with more personalized treatments,” said Dr. Tasali.
The patients who appeared to gain a cardiovascular benefit from CPAP represented about 16% of trial participants. Dr. Azarbarzin refrained from making clinical recommendations, citing the need for more data. The team next plans to reproduce the findings in additional, larger trials such as the SAVE and ISAACC trials. “Ultimately, our goal is to confirm our findings in a future randomized controlled trial of CPAP by enrolling participants based on their pulse rate response,” said Dr. Azarbarzin.
The RICCADSA study was a single center randomized, controlled trial with 226 patients with coronary artery disease and OSA who were randomized to CPAP or no CPAP treatment. In the overall population, CPAP treatment was not associated with a statistically significant change in repeat revascularization, myocardial infarction, stroke, or cardiovascular mortality (hazard ratio [HR], 0.79; P = .435). That study assumed that the effect of OSA on CVD is similar across all subgroups of dHR.
The mean increase in heart rate was 7.1 beats per minute (BPM; standard deviation, 3.7). Each standard deviation increase in dHR was linked to greater CVD risk (HR, 1.45; P = .029). For each standard deviation decrease in dHR, treatment with CPAP decreased the CVD risk (HR, 0.54; P = .043).
For patients with a low dHR of 4 BPM, the hazard ratio for CVD was 0.8 with no CPAP treatment and 1.2 for CPAP treatment. For those at the mean value of 7 BPM, the HRs were 1.1 and 0.9 respectively. For those with a high dHR, (10 BPM), the hazard ratio was 1.6 without treatment and 0.7 with CPAP.
“We modeled delta heart rate interaction with CPAP, which was significant. What this means is that for someone with a mean delta heart rate of 7 beats per minute, the risk reduction (with CPAP) is similar to what RICCADSA reported. But if you look at those with high delta heart rate, the risk reduction was significantly larger. It was actually a more than 50% reduction of risk with CPAP treatment,” said Dr. Azarbarzin.
Dr. Azarbarzin has consulted for Somnifix and Apnimed and has received grants from Somnifix. Dr. Tasali has no relevant financial disclosures.
Some nonsleepy patients with coronary artery disease and obstructive sleep apnea (OSA) may receive cardiovascular benefit from continuous positive airway pressure (CPAP) therapy, according to a post hoc analysis of the RICCADSA clinical trial. That study found no benefit among patients overall, but the new analysis found that patients whose heart rate increases (delta heart rate, or dHR) more than average during apnea or hypopnea experienced fewer cardiovascular or cerebrovascular events during apnea or hypopnea when treated with CPAP.
Although RICCADSA showed no benefit, an analysis of the Multi-Ethnic Study of Atherosclerosis (MESA) and the Sleep Heart Health Study (SHHS) cohorts found that elevated pulse rate response to respiratory events was associated with greater risk of cardiovascular disease (CVD) morbidity and mortality. But the effect was seen only in nonsleepy patients. “We hypothesized that pulse rate response to apneas would predict which patients with OSA may most benefit from CPAP treatment. Now, our study suggests that there is, in fact, a subgroup of nonsleepy patients with OSA for whom CPAP could provide a reduction in risk, specifically those with a higher pulse rate response to their respiratory events,” Ali Azarbarzin, PhD, said in an interview.
Dr. Azarbarzin presented the study at the American Thoracic Society’s virtual international conference (Abstract A1103). He is in the division of sleep and circadian disorders at Brigham and Women’s Hospital, and is assistant professor of medicine at Harvard Medical School, both in Boston.
The study is in line with recent efforts to subgroup OSA patients to determine which are at higher risk of cardiovascular events and other complications, and which are most likely to respond to treatment, according to Esra Tasali, MD, of the University of Chicago, who moderated the session where the study was presented. “The field is really urgently in need of coming up with new methods, and I think this study is getting a handle on that,” said Dr. Tasali in an interview.
“I think that this is really pointing toward a new area that the whole (sleep field) is moving toward, which is better phenotyping of sleep apnea so that we can come up with more personalized treatments,” said Dr. Tasali.
The patients who appeared to gain a cardiovascular benefit from CPAP represented about 16% of trial participants. Dr. Azarbarzin refrained from making clinical recommendations, citing the need for more data. The team next plans to reproduce the findings in additional, larger trials such as the SAVE and ISAACC trials. “Ultimately, our goal is to confirm our findings in a future randomized controlled trial of CPAP by enrolling participants based on their pulse rate response,” said Dr. Azarbarzin.
The RICCADSA study was a single center randomized, controlled trial with 226 patients with coronary artery disease and OSA who were randomized to CPAP or no CPAP treatment. In the overall population, CPAP treatment was not associated with a statistically significant change in repeat revascularization, myocardial infarction, stroke, or cardiovascular mortality (hazard ratio [HR], 0.79; P = .435). That study assumed that the effect of OSA on CVD is similar across all subgroups of dHR.
The mean increase in heart rate was 7.1 beats per minute (BPM; standard deviation, 3.7). Each standard deviation increase in dHR was linked to greater CVD risk (HR, 1.45; P = .029). For each standard deviation decrease in dHR, treatment with CPAP decreased the CVD risk (HR, 0.54; P = .043).
For patients with a low dHR of 4 BPM, the hazard ratio for CVD was 0.8 with no CPAP treatment and 1.2 for CPAP treatment. For those at the mean value of 7 BPM, the HRs were 1.1 and 0.9 respectively. For those with a high dHR, (10 BPM), the hazard ratio was 1.6 without treatment and 0.7 with CPAP.
“We modeled delta heart rate interaction with CPAP, which was significant. What this means is that for someone with a mean delta heart rate of 7 beats per minute, the risk reduction (with CPAP) is similar to what RICCADSA reported. But if you look at those with high delta heart rate, the risk reduction was significantly larger. It was actually a more than 50% reduction of risk with CPAP treatment,” said Dr. Azarbarzin.
Dr. Azarbarzin has consulted for Somnifix and Apnimed and has received grants from Somnifix. Dr. Tasali has no relevant financial disclosures.
FROM ATS 2021
Tezepelumab reduces serious exacerbations in severe asthma
Results from the NAVIGATOR study of tezepelumab showed that treatment of adults and adolescents with severe, uncontrolled asthma with the new biologic led to a large reduction in exacerbations requiring hospital stays and ED visits.
Tezepelumab, codeveloped by Amgen and AstraZeneca, has a novel mechanism of action. It blocks thymic stromal lymphopoietin (TSLP), which is a cytokine produced by epithelial cells. TSLP levels correlate with airway obstruction, severity of disease, and glucocorticoid resistance. TSLP is involved in T2 inflammation within the airway, but also plays a role in the interactions between airway cells and immune cells, which doesn’t rely only solely on T2 inflammation. That broad mechanism of action distinguishes tezepelumab from most other biologics for the treatment of asthma, which are more targeted.
“By working at the top of the cascade, tezepelumab helps stop inflammation at a key source. Clinical trials with tezepelumab showed a clinical benefit in patients irrespective of their baseline biomarker level, including patients with low eosinophil levels at baseline,” said Jean-Pierre Llanos-Ackert, MD, who is executive medical director and global medical affairs lead for tezepelumab at Amgen.
The primary endpoint data look robust, according to Praveen Akuthota, MD, who is an associate professor of medicine at the University of California, San Diego, and comoderated the session at the American Thoracic Society’s virtual international conference, where the research was presented. The study was also published on May 13, 2021, in the New England Journal of Medicine. The conference session included updated results.
The drug holds promise, but more study is needed. “The question really will be, how is this drug different from the existing biologics? How much better is this drug in patients who have borderline T2 biomarkers, or even low T2. The study does show some efficacy in patients whose T2 signals may not be as robust. We’ll have to see with ongoing longitudinal data, how this drug positions, compared to the other agents. It’s obviously exciting, though, to have another option, given that we know what our current armamentarium of agents there are still nonresponders,” said Dr. Akuthota in an interview.
The other comoderator in the session, Laura Crotty Alexander, MD, commented: “It seems like it might work possibly even better than some that are directly covering one pathway only. Hopefully, this agent will be efficacious in a broader population than some of the more targeted biologics.” Dr. Alexander is an associate professor of medicine at the University of California, San Diego, and section chief of pulmonary critical care at the Veterans Affairs San Diego Healthcare System.
She pointed out that physicians often think of asthma patients in broad brush terms, as high or low T2, or T2 high and Th1 or neutrophilic or obese, but many patients present a more complicated picture. “There is some overlap across those phenotypes, such that an agent that works really well for one group doesn’t mean that it won’t have an impact, especially clinically, on some of these other phenotypes,” said Dr. Alexander.
Dr. Akuthota agreed. “Having options for patients whose biomarkers are not maybe as clear is, I think, important.”
Promising results
The study included 1,059 patients aged 12-80 who received 210 mg tezepelumab or placebo. Over 52 weeks, the treatment group had a 79% reduction in exacerbations requiring hospitalization or an ED visit, compared with placebo (rate ratio, 0.21; 95% confidence interval, 0.12-0.37), and an 85% reduction in exacerbations requiring hospitalization (RR, 0.15; 95% CI, 0.07-0.33). The drug increased the time to first exacerbation requiring hospitalization that required hospitalization or an ED visit, reducing risk by 65% (hazard ratio, 0.35; 95% CI, 0.22-0.56).
Fewer patients in the treatment group than placebo used asthma-related health care resources, including: ED visits (32 vs. 94), unscheduled visit to a specialist (285 vs. 406), telephone calls to a health care provider (234 vs. 599), ambulance transport (5 vs. 22), and home visits from a health care provider (18 vs. 22). Fewer patients in the tezepelumab group had hospital stays (3.2% vs. 7.0%), and they had a lower total number of hospital days (108 vs. 497) and days in the ICU (0 vs. 31).
The study was funded by Amgen and AstraZeneca. Dr. Llanos-Ackert is an employee of Amgen. Dr. Alexander has no relevant financial disclosures. Dr. Akuthota has consulted for AstraZeneca and participated in their clinical trials.
Results from the NAVIGATOR study of tezepelumab showed that treatment of adults and adolescents with severe, uncontrolled asthma with the new biologic led to a large reduction in exacerbations requiring hospital stays and ED visits.
Tezepelumab, codeveloped by Amgen and AstraZeneca, has a novel mechanism of action. It blocks thymic stromal lymphopoietin (TSLP), which is a cytokine produced by epithelial cells. TSLP levels correlate with airway obstruction, severity of disease, and glucocorticoid resistance. TSLP is involved in T2 inflammation within the airway, but also plays a role in the interactions between airway cells and immune cells, which doesn’t rely only solely on T2 inflammation. That broad mechanism of action distinguishes tezepelumab from most other biologics for the treatment of asthma, which are more targeted.
“By working at the top of the cascade, tezepelumab helps stop inflammation at a key source. Clinical trials with tezepelumab showed a clinical benefit in patients irrespective of their baseline biomarker level, including patients with low eosinophil levels at baseline,” said Jean-Pierre Llanos-Ackert, MD, who is executive medical director and global medical affairs lead for tezepelumab at Amgen.
The primary endpoint data look robust, according to Praveen Akuthota, MD, who is an associate professor of medicine at the University of California, San Diego, and comoderated the session at the American Thoracic Society’s virtual international conference, where the research was presented. The study was also published on May 13, 2021, in the New England Journal of Medicine. The conference session included updated results.
The drug holds promise, but more study is needed. “The question really will be, how is this drug different from the existing biologics? How much better is this drug in patients who have borderline T2 biomarkers, or even low T2. The study does show some efficacy in patients whose T2 signals may not be as robust. We’ll have to see with ongoing longitudinal data, how this drug positions, compared to the other agents. It’s obviously exciting, though, to have another option, given that we know what our current armamentarium of agents there are still nonresponders,” said Dr. Akuthota in an interview.
The other comoderator in the session, Laura Crotty Alexander, MD, commented: “It seems like it might work possibly even better than some that are directly covering one pathway only. Hopefully, this agent will be efficacious in a broader population than some of the more targeted biologics.” Dr. Alexander is an associate professor of medicine at the University of California, San Diego, and section chief of pulmonary critical care at the Veterans Affairs San Diego Healthcare System.
She pointed out that physicians often think of asthma patients in broad brush terms, as high or low T2, or T2 high and Th1 or neutrophilic or obese, but many patients present a more complicated picture. “There is some overlap across those phenotypes, such that an agent that works really well for one group doesn’t mean that it won’t have an impact, especially clinically, on some of these other phenotypes,” said Dr. Alexander.
Dr. Akuthota agreed. “Having options for patients whose biomarkers are not maybe as clear is, I think, important.”
Promising results
The study included 1,059 patients aged 12-80 who received 210 mg tezepelumab or placebo. Over 52 weeks, the treatment group had a 79% reduction in exacerbations requiring hospitalization or an ED visit, compared with placebo (rate ratio, 0.21; 95% confidence interval, 0.12-0.37), and an 85% reduction in exacerbations requiring hospitalization (RR, 0.15; 95% CI, 0.07-0.33). The drug increased the time to first exacerbation requiring hospitalization that required hospitalization or an ED visit, reducing risk by 65% (hazard ratio, 0.35; 95% CI, 0.22-0.56).
Fewer patients in the treatment group than placebo used asthma-related health care resources, including: ED visits (32 vs. 94), unscheduled visit to a specialist (285 vs. 406), telephone calls to a health care provider (234 vs. 599), ambulance transport (5 vs. 22), and home visits from a health care provider (18 vs. 22). Fewer patients in the tezepelumab group had hospital stays (3.2% vs. 7.0%), and they had a lower total number of hospital days (108 vs. 497) and days in the ICU (0 vs. 31).
The study was funded by Amgen and AstraZeneca. Dr. Llanos-Ackert is an employee of Amgen. Dr. Alexander has no relevant financial disclosures. Dr. Akuthota has consulted for AstraZeneca and participated in their clinical trials.
Results from the NAVIGATOR study of tezepelumab showed that treatment of adults and adolescents with severe, uncontrolled asthma with the new biologic led to a large reduction in exacerbations requiring hospital stays and ED visits.
Tezepelumab, codeveloped by Amgen and AstraZeneca, has a novel mechanism of action. It blocks thymic stromal lymphopoietin (TSLP), which is a cytokine produced by epithelial cells. TSLP levels correlate with airway obstruction, severity of disease, and glucocorticoid resistance. TSLP is involved in T2 inflammation within the airway, but also plays a role in the interactions between airway cells and immune cells, which doesn’t rely only solely on T2 inflammation. That broad mechanism of action distinguishes tezepelumab from most other biologics for the treatment of asthma, which are more targeted.
“By working at the top of the cascade, tezepelumab helps stop inflammation at a key source. Clinical trials with tezepelumab showed a clinical benefit in patients irrespective of their baseline biomarker level, including patients with low eosinophil levels at baseline,” said Jean-Pierre Llanos-Ackert, MD, who is executive medical director and global medical affairs lead for tezepelumab at Amgen.
The primary endpoint data look robust, according to Praveen Akuthota, MD, who is an associate professor of medicine at the University of California, San Diego, and comoderated the session at the American Thoracic Society’s virtual international conference, where the research was presented. The study was also published on May 13, 2021, in the New England Journal of Medicine. The conference session included updated results.
The drug holds promise, but more study is needed. “The question really will be, how is this drug different from the existing biologics? How much better is this drug in patients who have borderline T2 biomarkers, or even low T2. The study does show some efficacy in patients whose T2 signals may not be as robust. We’ll have to see with ongoing longitudinal data, how this drug positions, compared to the other agents. It’s obviously exciting, though, to have another option, given that we know what our current armamentarium of agents there are still nonresponders,” said Dr. Akuthota in an interview.
The other comoderator in the session, Laura Crotty Alexander, MD, commented: “It seems like it might work possibly even better than some that are directly covering one pathway only. Hopefully, this agent will be efficacious in a broader population than some of the more targeted biologics.” Dr. Alexander is an associate professor of medicine at the University of California, San Diego, and section chief of pulmonary critical care at the Veterans Affairs San Diego Healthcare System.
She pointed out that physicians often think of asthma patients in broad brush terms, as high or low T2, or T2 high and Th1 or neutrophilic or obese, but many patients present a more complicated picture. “There is some overlap across those phenotypes, such that an agent that works really well for one group doesn’t mean that it won’t have an impact, especially clinically, on some of these other phenotypes,” said Dr. Alexander.
Dr. Akuthota agreed. “Having options for patients whose biomarkers are not maybe as clear is, I think, important.”
Promising results
The study included 1,059 patients aged 12-80 who received 210 mg tezepelumab or placebo. Over 52 weeks, the treatment group had a 79% reduction in exacerbations requiring hospitalization or an ED visit, compared with placebo (rate ratio, 0.21; 95% confidence interval, 0.12-0.37), and an 85% reduction in exacerbations requiring hospitalization (RR, 0.15; 95% CI, 0.07-0.33). The drug increased the time to first exacerbation requiring hospitalization that required hospitalization or an ED visit, reducing risk by 65% (hazard ratio, 0.35; 95% CI, 0.22-0.56).
Fewer patients in the treatment group than placebo used asthma-related health care resources, including: ED visits (32 vs. 94), unscheduled visit to a specialist (285 vs. 406), telephone calls to a health care provider (234 vs. 599), ambulance transport (5 vs. 22), and home visits from a health care provider (18 vs. 22). Fewer patients in the tezepelumab group had hospital stays (3.2% vs. 7.0%), and they had a lower total number of hospital days (108 vs. 497) and days in the ICU (0 vs. 31).
The study was funded by Amgen and AstraZeneca. Dr. Llanos-Ackert is an employee of Amgen. Dr. Alexander has no relevant financial disclosures. Dr. Akuthota has consulted for AstraZeneca and participated in their clinical trials.
FROM ATS 2021
COPD in younger adults deadlier than expected
Adults in their 30s, 40s and 50s with chronic obstructive pulmonary disease (COPD) experience significant morbidity and excess mortality from the disease, results of a population-based study show.
Among adults aged 35-55 years with COPD in Ontario in a longitudinal population cohort study, the overall mortality rate was fivefold higher, compared with other adults in the same age range without COPD.
In contrast, the mortality rate among adults 65 years and older with COPD was 2.5-fold higher than that of their peers without COPD, reported Alina J. Blazer, MSc, MD, a clinical and research fellow at the University of Toronto.
“Overall, our study has shown that younger adults with COPD experience significant morbidity, as evidence by their elevated rates of health care use and excess mortality from their disease. This study provides further evidence that so-called ‘early’ COPD is not a benign disease, and suggests that we should focus clinical efforts on identifying COPD in younger patients, in the hopes that earlier intervention may improve their current health, reduce resource utilization, and prevent further disease progression,” she said during a minisymposium at the American Thoracic Society’s virtual international conference (Abstract A1131).
COPD is widely regarded as a disease affecting only older adults, but it can also occur in those younger than 65, and although it is commonly assumed that COPD diagnosed earlier in life will be milder in severity, this assumption has not been fully explored in real-world settings, Dr. Blazer said.
She and her colleagues conducted a study to examine disease burden as measured by health services utilization and mortality among younger adults with COPD, and compared the rates with those of older adults with COPD.
The sample for this study included 194,759 adults with COPD aged 35-55 years in Ontario in 2016. COPD was identified from health administrative data for three or more outpatient claims or one or more hospitalization claims for COPD over a 2-year period.
For context, the data were compared with those for 496,2113 COPD patients aged 65 years and older.
They found that, compared with their peers without the disease, younger adults had a 3.1-fold higher rate of hospitalization for any cause, a 2.2-fold higher rate of all-cause ED visits, and a 1.7-fold higher rate of outpatient visits for any cause.
In contrast, the comparative rates for seniors with versus without COPD were 2.1-fold, 1.8-fold, and 1.4-fold, respectively.
As noted before, the mortality rate for younger adults with COPD was 5-fold higher than for those without COPD, compared with 2.5-fold among older adults with COPD versus those without.
Earlier diagnosis, follow-up
“A very important talk,” commented session comoderator Valerie Press, MD, MPH, from the University of Chicago. “I know that there’s a lot of work to be done in earlier diagnosis in general, and I think starting with the younger population is a really important area.”
She asked Dr. Blazer about the possibility of asthma codiagnosis or misdiagnosis in the younger patients.
“We use a very specific, validated case definition in the study that our group has used before, and the specificity is over 96% for physician-diagnosed COPD, at the expense of sensitivity, so if anything we probably underestimated the rate of COPD in our study,” Dr. Blazer said.
Audience member Sherry Rogers, MD, an allergist and immunologist in private practice in Syracuse, N.Y., asked whether the investigators could determine what proportion of the excess mortality they saw was attributable to COPD.
“This was looking at all-cause mortality, so we don’t know that it’s necessarily all attributable to COPD per se but perhaps also to COPD-attributable comorbidities,” Dr. Blazer said. “It would be important to piece out the actual causes of mortality that are contributing to that elevated [morality] in that population.”
She added that the next step could include examining rates of specialty referrals and pharmacotherapy to see whether younger patients with COPD are receiving appropriate care, and to ascertain how they are being followed.
The study was supported by the University of Toronto and Sunnybrook Research Institute. Dr. Blazer reported no conflicts of interest to disclose.
Adults in their 30s, 40s and 50s with chronic obstructive pulmonary disease (COPD) experience significant morbidity and excess mortality from the disease, results of a population-based study show.
Among adults aged 35-55 years with COPD in Ontario in a longitudinal population cohort study, the overall mortality rate was fivefold higher, compared with other adults in the same age range without COPD.
In contrast, the mortality rate among adults 65 years and older with COPD was 2.5-fold higher than that of their peers without COPD, reported Alina J. Blazer, MSc, MD, a clinical and research fellow at the University of Toronto.
“Overall, our study has shown that younger adults with COPD experience significant morbidity, as evidence by their elevated rates of health care use and excess mortality from their disease. This study provides further evidence that so-called ‘early’ COPD is not a benign disease, and suggests that we should focus clinical efforts on identifying COPD in younger patients, in the hopes that earlier intervention may improve their current health, reduce resource utilization, and prevent further disease progression,” she said during a minisymposium at the American Thoracic Society’s virtual international conference (Abstract A1131).
COPD is widely regarded as a disease affecting only older adults, but it can also occur in those younger than 65, and although it is commonly assumed that COPD diagnosed earlier in life will be milder in severity, this assumption has not been fully explored in real-world settings, Dr. Blazer said.
She and her colleagues conducted a study to examine disease burden as measured by health services utilization and mortality among younger adults with COPD, and compared the rates with those of older adults with COPD.
The sample for this study included 194,759 adults with COPD aged 35-55 years in Ontario in 2016. COPD was identified from health administrative data for three or more outpatient claims or one or more hospitalization claims for COPD over a 2-year period.
For context, the data were compared with those for 496,2113 COPD patients aged 65 years and older.
They found that, compared with their peers without the disease, younger adults had a 3.1-fold higher rate of hospitalization for any cause, a 2.2-fold higher rate of all-cause ED visits, and a 1.7-fold higher rate of outpatient visits for any cause.
In contrast, the comparative rates for seniors with versus without COPD were 2.1-fold, 1.8-fold, and 1.4-fold, respectively.
As noted before, the mortality rate for younger adults with COPD was 5-fold higher than for those without COPD, compared with 2.5-fold among older adults with COPD versus those without.
Earlier diagnosis, follow-up
“A very important talk,” commented session comoderator Valerie Press, MD, MPH, from the University of Chicago. “I know that there’s a lot of work to be done in earlier diagnosis in general, and I think starting with the younger population is a really important area.”
She asked Dr. Blazer about the possibility of asthma codiagnosis or misdiagnosis in the younger patients.
“We use a very specific, validated case definition in the study that our group has used before, and the specificity is over 96% for physician-diagnosed COPD, at the expense of sensitivity, so if anything we probably underestimated the rate of COPD in our study,” Dr. Blazer said.
Audience member Sherry Rogers, MD, an allergist and immunologist in private practice in Syracuse, N.Y., asked whether the investigators could determine what proportion of the excess mortality they saw was attributable to COPD.
“This was looking at all-cause mortality, so we don’t know that it’s necessarily all attributable to COPD per se but perhaps also to COPD-attributable comorbidities,” Dr. Blazer said. “It would be important to piece out the actual causes of mortality that are contributing to that elevated [morality] in that population.”
She added that the next step could include examining rates of specialty referrals and pharmacotherapy to see whether younger patients with COPD are receiving appropriate care, and to ascertain how they are being followed.
The study was supported by the University of Toronto and Sunnybrook Research Institute. Dr. Blazer reported no conflicts of interest to disclose.
Adults in their 30s, 40s and 50s with chronic obstructive pulmonary disease (COPD) experience significant morbidity and excess mortality from the disease, results of a population-based study show.
Among adults aged 35-55 years with COPD in Ontario in a longitudinal population cohort study, the overall mortality rate was fivefold higher, compared with other adults in the same age range without COPD.
In contrast, the mortality rate among adults 65 years and older with COPD was 2.5-fold higher than that of their peers without COPD, reported Alina J. Blazer, MSc, MD, a clinical and research fellow at the University of Toronto.
“Overall, our study has shown that younger adults with COPD experience significant morbidity, as evidence by their elevated rates of health care use and excess mortality from their disease. This study provides further evidence that so-called ‘early’ COPD is not a benign disease, and suggests that we should focus clinical efforts on identifying COPD in younger patients, in the hopes that earlier intervention may improve their current health, reduce resource utilization, and prevent further disease progression,” she said during a minisymposium at the American Thoracic Society’s virtual international conference (Abstract A1131).
COPD is widely regarded as a disease affecting only older adults, but it can also occur in those younger than 65, and although it is commonly assumed that COPD diagnosed earlier in life will be milder in severity, this assumption has not been fully explored in real-world settings, Dr. Blazer said.
She and her colleagues conducted a study to examine disease burden as measured by health services utilization and mortality among younger adults with COPD, and compared the rates with those of older adults with COPD.
The sample for this study included 194,759 adults with COPD aged 35-55 years in Ontario in 2016. COPD was identified from health administrative data for three or more outpatient claims or one or more hospitalization claims for COPD over a 2-year period.
For context, the data were compared with those for 496,2113 COPD patients aged 65 years and older.
They found that, compared with their peers without the disease, younger adults had a 3.1-fold higher rate of hospitalization for any cause, a 2.2-fold higher rate of all-cause ED visits, and a 1.7-fold higher rate of outpatient visits for any cause.
In contrast, the comparative rates for seniors with versus without COPD were 2.1-fold, 1.8-fold, and 1.4-fold, respectively.
As noted before, the mortality rate for younger adults with COPD was 5-fold higher than for those without COPD, compared with 2.5-fold among older adults with COPD versus those without.
Earlier diagnosis, follow-up
“A very important talk,” commented session comoderator Valerie Press, MD, MPH, from the University of Chicago. “I know that there’s a lot of work to be done in earlier diagnosis in general, and I think starting with the younger population is a really important area.”
She asked Dr. Blazer about the possibility of asthma codiagnosis or misdiagnosis in the younger patients.
“We use a very specific, validated case definition in the study that our group has used before, and the specificity is over 96% for physician-diagnosed COPD, at the expense of sensitivity, so if anything we probably underestimated the rate of COPD in our study,” Dr. Blazer said.
Audience member Sherry Rogers, MD, an allergist and immunologist in private practice in Syracuse, N.Y., asked whether the investigators could determine what proportion of the excess mortality they saw was attributable to COPD.
“This was looking at all-cause mortality, so we don’t know that it’s necessarily all attributable to COPD per se but perhaps also to COPD-attributable comorbidities,” Dr. Blazer said. “It would be important to piece out the actual causes of mortality that are contributing to that elevated [morality] in that population.”
She added that the next step could include examining rates of specialty referrals and pharmacotherapy to see whether younger patients with COPD are receiving appropriate care, and to ascertain how they are being followed.
The study was supported by the University of Toronto and Sunnybrook Research Institute. Dr. Blazer reported no conflicts of interest to disclose.
FROM ATS 2021
Patients with moderate COPD also benefit from triple therapy
The benefits of a triple fixed-dose inhaled corticosteroid, long-acting muscarinic antagonist, and long-acting beta2 agonist combination extend to patients with moderate as well as severe chronic obstructive pulmonary disease (COPD).
That’s according to investigators in the ETHOS (Efficacy and Safety of Triple Therapy in Obstructive Lung Disease) trial (NCT02465567).
In a subanalysis of data on patients with moderate COPD who were enrolled in the comparison trial, the single-inhaler combination of the inhaled corticosteroid (ICS) budesonide, the long-acting muscarinic antagonist (LAMA) glycopyrrolate, and the long-acting beta2 agonist (LABA) formoterol fumarate (BGF) showed benefits in terms of COPD exacerbations, lung function, symptoms, and quality-of-life compared with either of two dual therapy combinations (glycopyrrolate or budesonide with formoterol [GFF/BFF]).
“A moderate benefit:risk ratio was demonstrated in patients with moderate COPD, consistent with the results of the overall ETHOS population, indicating the results of the ETHOS study were not driven by patients with severe or very severe COPD,” wrote Gary T. Ferguson, MD, from the Pulmonary Research Institute of Southeast Michigan in Farmington Hills, and colleagues. Their poster was presented during the American Thoracic Society’s virtual international conference. (Abstract A2244).
As reported at ATS 2020, in the overall ETHOS population of 8,509 patients with moderate to very severe COPD the annual rate of moderate or severe COPD exacerbations was 1.08 and 1.07 for the triple combinations with 320-mcg and 160-mcg doses of budesonide, respectively, compared with 1.42 for glycopyrrolate-formoterol, and 1.24 for budesonide-formoterol.
, Klaus F. Rabe, MD, PhD, of LungenClinic Grosshansdorf and Christian-Albrechts University Kiel (Germany), and colleagues found.
Subanalysis details
At the 2021 iteration of ATS, ETHOS investigator Dr. Ferguson and colleagues reported results for 613 patients with moderate COPD assigned to BGF 320 mcg, 604 assigned to BGF 160 mcg, 596 assigned to GFF, and 614 randomized to BFF.
Baseline demographic and clinical characteristics were similar among the groups, including age, sex, smoking status, mean COPD Assessment Test (CAT) score, mean blood eosinophil count, ICS use at screening, exacerbations in the previous year, mean postbronchodilator forced expiratory volume in 1 second (FEV1) percentage of predicted, and mean postbronchodilator percentage reversibility.
A modified intention-to-treat (ITT) analysis showed that the rate of moderate or severe exacerbations over 52 weeks with BGF 320 mcg was 21% lower than with GFF (P = .0123), but only 4% lower than with BFF, a difference that was not statistically significant.
The BGF 160-mg dose was associated with a 30% reduction in exacerbations vs. GFF (P = .0002), and with a nonsignificant reduction of 15% compared with BFF.
There was a numerical but not statistically significant improvement from baseline at week 24 in morning pre-dose trough FEV1 between the BGF 320-mcg dose and GFF (difference 47 mL), and a significant improvement (90 mL) with BGF compared with BFF (P = .0006). The BGF 160-mcg dose was associated with a larger improvement (89 mL) compared with BFF (P = .0004) but not with GFF.
The FEV1 area under the curve (AUC) of receiver operating characteristics from 0 to 4 hours was superior with BGF at both doses compared with both GFF and BFF.
Patients who used BGF 320 mcg also used significantly less rescue medication over 24 weeks compared with patients who used GFF (P < .0001) or BFF (P = .0001). There were no significant differences in rescue medication use between the BGF 160-mg dose and either of the dual therapy combinations.
Time to clinically important deterioration – defined as a greater than 100 mL decrease in trough FEV1, or a 4 units increase in St. George’s Respiratory Questionnaire total score, or a treatment-emergent moderate/severe COPD exacerbation occurring up to week 52 – was significantly longer with the 320-mcg but not 160-mcg BGF dose compared with GFF (P = .0295) or BFF (P = .0172).
Safety
Treatment-emergent adverse events (TEAEs) occurred in about two-thirds of patients in each trial arm, although TEAEs related to study treatment were more common with the two triple-therapy combinations and with BFF than with GFF.
TEAEs leading to study discontinuation occurred in 5.5% of patients on BGF 320 mcg, 4% on BGF 160 mcg, 4.5% on GFF, and 3.2% on BFF.
Confirmed major adverse cardiovascular events occurred in 0.8% and 1.5% in the BGF 320- and 160-mcg groups, respectively, in 1.8% of patients in the GFF arm, and 1.5% in the BFF arm.
Confirmed pneumonia was seen in 2.6% of patients in each BGF arm, 2.2% in the GFF arm, and 3.6% in the BFF arm.
Selected population
In a comment, David Mannino, MD, medical director of the COPD Foundation, who was not involved in the study, noted that the enrollment criteria for ETHOS tended to skew the population toward patients with severe disease.
In the trial, all patients were receiving at least two inhaled maintenance therapies at the time of screening, and had a postbronchodilator ratio of FEV1 to forced vital capacity of less than 0.7, with a postbronchodilator FEV1 of 25%-65% of the predicted normal value. The patients all had a smoking history of at least 10 pack-years and a documented history of at least one moderate or severe COPD exacerbation in the year before screening.
“The question was whether they would see the same results in people with more moderate impairment, and the answer in this subanalysis is ‘yes.’ The findings weren’t identical between patients with severe and moderate disease, but there were similarities with what was seen in the overall ETHOS study,” he said.
The ETHOS Trial was supported by Pearl Therapeutics. Dr. Ferguson reported grants, personal fees, and nonfinancial support from AstraZeneca during the conduct of the study; and grants, fees, and nonfinancial support from Pearl and others. Dr. Mannino reports recruitment to an advisory board for AstraZeneca.
The benefits of a triple fixed-dose inhaled corticosteroid, long-acting muscarinic antagonist, and long-acting beta2 agonist combination extend to patients with moderate as well as severe chronic obstructive pulmonary disease (COPD).
That’s according to investigators in the ETHOS (Efficacy and Safety of Triple Therapy in Obstructive Lung Disease) trial (NCT02465567).
In a subanalysis of data on patients with moderate COPD who were enrolled in the comparison trial, the single-inhaler combination of the inhaled corticosteroid (ICS) budesonide, the long-acting muscarinic antagonist (LAMA) glycopyrrolate, and the long-acting beta2 agonist (LABA) formoterol fumarate (BGF) showed benefits in terms of COPD exacerbations, lung function, symptoms, and quality-of-life compared with either of two dual therapy combinations (glycopyrrolate or budesonide with formoterol [GFF/BFF]).
“A moderate benefit:risk ratio was demonstrated in patients with moderate COPD, consistent with the results of the overall ETHOS population, indicating the results of the ETHOS study were not driven by patients with severe or very severe COPD,” wrote Gary T. Ferguson, MD, from the Pulmonary Research Institute of Southeast Michigan in Farmington Hills, and colleagues. Their poster was presented during the American Thoracic Society’s virtual international conference. (Abstract A2244).
As reported at ATS 2020, in the overall ETHOS population of 8,509 patients with moderate to very severe COPD the annual rate of moderate or severe COPD exacerbations was 1.08 and 1.07 for the triple combinations with 320-mcg and 160-mcg doses of budesonide, respectively, compared with 1.42 for glycopyrrolate-formoterol, and 1.24 for budesonide-formoterol.
, Klaus F. Rabe, MD, PhD, of LungenClinic Grosshansdorf and Christian-Albrechts University Kiel (Germany), and colleagues found.
Subanalysis details
At the 2021 iteration of ATS, ETHOS investigator Dr. Ferguson and colleagues reported results for 613 patients with moderate COPD assigned to BGF 320 mcg, 604 assigned to BGF 160 mcg, 596 assigned to GFF, and 614 randomized to BFF.
Baseline demographic and clinical characteristics were similar among the groups, including age, sex, smoking status, mean COPD Assessment Test (CAT) score, mean blood eosinophil count, ICS use at screening, exacerbations in the previous year, mean postbronchodilator forced expiratory volume in 1 second (FEV1) percentage of predicted, and mean postbronchodilator percentage reversibility.
A modified intention-to-treat (ITT) analysis showed that the rate of moderate or severe exacerbations over 52 weeks with BGF 320 mcg was 21% lower than with GFF (P = .0123), but only 4% lower than with BFF, a difference that was not statistically significant.
The BGF 160-mg dose was associated with a 30% reduction in exacerbations vs. GFF (P = .0002), and with a nonsignificant reduction of 15% compared with BFF.
There was a numerical but not statistically significant improvement from baseline at week 24 in morning pre-dose trough FEV1 between the BGF 320-mcg dose and GFF (difference 47 mL), and a significant improvement (90 mL) with BGF compared with BFF (P = .0006). The BGF 160-mcg dose was associated with a larger improvement (89 mL) compared with BFF (P = .0004) but not with GFF.
The FEV1 area under the curve (AUC) of receiver operating characteristics from 0 to 4 hours was superior with BGF at both doses compared with both GFF and BFF.
Patients who used BGF 320 mcg also used significantly less rescue medication over 24 weeks compared with patients who used GFF (P < .0001) or BFF (P = .0001). There were no significant differences in rescue medication use between the BGF 160-mg dose and either of the dual therapy combinations.
Time to clinically important deterioration – defined as a greater than 100 mL decrease in trough FEV1, or a 4 units increase in St. George’s Respiratory Questionnaire total score, or a treatment-emergent moderate/severe COPD exacerbation occurring up to week 52 – was significantly longer with the 320-mcg but not 160-mcg BGF dose compared with GFF (P = .0295) or BFF (P = .0172).
Safety
Treatment-emergent adverse events (TEAEs) occurred in about two-thirds of patients in each trial arm, although TEAEs related to study treatment were more common with the two triple-therapy combinations and with BFF than with GFF.
TEAEs leading to study discontinuation occurred in 5.5% of patients on BGF 320 mcg, 4% on BGF 160 mcg, 4.5% on GFF, and 3.2% on BFF.
Confirmed major adverse cardiovascular events occurred in 0.8% and 1.5% in the BGF 320- and 160-mcg groups, respectively, in 1.8% of patients in the GFF arm, and 1.5% in the BFF arm.
Confirmed pneumonia was seen in 2.6% of patients in each BGF arm, 2.2% in the GFF arm, and 3.6% in the BFF arm.
Selected population
In a comment, David Mannino, MD, medical director of the COPD Foundation, who was not involved in the study, noted that the enrollment criteria for ETHOS tended to skew the population toward patients with severe disease.
In the trial, all patients were receiving at least two inhaled maintenance therapies at the time of screening, and had a postbronchodilator ratio of FEV1 to forced vital capacity of less than 0.7, with a postbronchodilator FEV1 of 25%-65% of the predicted normal value. The patients all had a smoking history of at least 10 pack-years and a documented history of at least one moderate or severe COPD exacerbation in the year before screening.
“The question was whether they would see the same results in people with more moderate impairment, and the answer in this subanalysis is ‘yes.’ The findings weren’t identical between patients with severe and moderate disease, but there were similarities with what was seen in the overall ETHOS study,” he said.
The ETHOS Trial was supported by Pearl Therapeutics. Dr. Ferguson reported grants, personal fees, and nonfinancial support from AstraZeneca during the conduct of the study; and grants, fees, and nonfinancial support from Pearl and others. Dr. Mannino reports recruitment to an advisory board for AstraZeneca.
The benefits of a triple fixed-dose inhaled corticosteroid, long-acting muscarinic antagonist, and long-acting beta2 agonist combination extend to patients with moderate as well as severe chronic obstructive pulmonary disease (COPD).
That’s according to investigators in the ETHOS (Efficacy and Safety of Triple Therapy in Obstructive Lung Disease) trial (NCT02465567).
In a subanalysis of data on patients with moderate COPD who were enrolled in the comparison trial, the single-inhaler combination of the inhaled corticosteroid (ICS) budesonide, the long-acting muscarinic antagonist (LAMA) glycopyrrolate, and the long-acting beta2 agonist (LABA) formoterol fumarate (BGF) showed benefits in terms of COPD exacerbations, lung function, symptoms, and quality-of-life compared with either of two dual therapy combinations (glycopyrrolate or budesonide with formoterol [GFF/BFF]).
“A moderate benefit:risk ratio was demonstrated in patients with moderate COPD, consistent with the results of the overall ETHOS population, indicating the results of the ETHOS study were not driven by patients with severe or very severe COPD,” wrote Gary T. Ferguson, MD, from the Pulmonary Research Institute of Southeast Michigan in Farmington Hills, and colleagues. Their poster was presented during the American Thoracic Society’s virtual international conference. (Abstract A2244).
As reported at ATS 2020, in the overall ETHOS population of 8,509 patients with moderate to very severe COPD the annual rate of moderate or severe COPD exacerbations was 1.08 and 1.07 for the triple combinations with 320-mcg and 160-mcg doses of budesonide, respectively, compared with 1.42 for glycopyrrolate-formoterol, and 1.24 for budesonide-formoterol.
, Klaus F. Rabe, MD, PhD, of LungenClinic Grosshansdorf and Christian-Albrechts University Kiel (Germany), and colleagues found.
Subanalysis details
At the 2021 iteration of ATS, ETHOS investigator Dr. Ferguson and colleagues reported results for 613 patients with moderate COPD assigned to BGF 320 mcg, 604 assigned to BGF 160 mcg, 596 assigned to GFF, and 614 randomized to BFF.
Baseline demographic and clinical characteristics were similar among the groups, including age, sex, smoking status, mean COPD Assessment Test (CAT) score, mean blood eosinophil count, ICS use at screening, exacerbations in the previous year, mean postbronchodilator forced expiratory volume in 1 second (FEV1) percentage of predicted, and mean postbronchodilator percentage reversibility.
A modified intention-to-treat (ITT) analysis showed that the rate of moderate or severe exacerbations over 52 weeks with BGF 320 mcg was 21% lower than with GFF (P = .0123), but only 4% lower than with BFF, a difference that was not statistically significant.
The BGF 160-mg dose was associated with a 30% reduction in exacerbations vs. GFF (P = .0002), and with a nonsignificant reduction of 15% compared with BFF.
There was a numerical but not statistically significant improvement from baseline at week 24 in morning pre-dose trough FEV1 between the BGF 320-mcg dose and GFF (difference 47 mL), and a significant improvement (90 mL) with BGF compared with BFF (P = .0006). The BGF 160-mcg dose was associated with a larger improvement (89 mL) compared with BFF (P = .0004) but not with GFF.
The FEV1 area under the curve (AUC) of receiver operating characteristics from 0 to 4 hours was superior with BGF at both doses compared with both GFF and BFF.
Patients who used BGF 320 mcg also used significantly less rescue medication over 24 weeks compared with patients who used GFF (P < .0001) or BFF (P = .0001). There were no significant differences in rescue medication use between the BGF 160-mg dose and either of the dual therapy combinations.
Time to clinically important deterioration – defined as a greater than 100 mL decrease in trough FEV1, or a 4 units increase in St. George’s Respiratory Questionnaire total score, or a treatment-emergent moderate/severe COPD exacerbation occurring up to week 52 – was significantly longer with the 320-mcg but not 160-mcg BGF dose compared with GFF (P = .0295) or BFF (P = .0172).
Safety
Treatment-emergent adverse events (TEAEs) occurred in about two-thirds of patients in each trial arm, although TEAEs related to study treatment were more common with the two triple-therapy combinations and with BFF than with GFF.
TEAEs leading to study discontinuation occurred in 5.5% of patients on BGF 320 mcg, 4% on BGF 160 mcg, 4.5% on GFF, and 3.2% on BFF.
Confirmed major adverse cardiovascular events occurred in 0.8% and 1.5% in the BGF 320- and 160-mcg groups, respectively, in 1.8% of patients in the GFF arm, and 1.5% in the BFF arm.
Confirmed pneumonia was seen in 2.6% of patients in each BGF arm, 2.2% in the GFF arm, and 3.6% in the BFF arm.
Selected population
In a comment, David Mannino, MD, medical director of the COPD Foundation, who was not involved in the study, noted that the enrollment criteria for ETHOS tended to skew the population toward patients with severe disease.
In the trial, all patients were receiving at least two inhaled maintenance therapies at the time of screening, and had a postbronchodilator ratio of FEV1 to forced vital capacity of less than 0.7, with a postbronchodilator FEV1 of 25%-65% of the predicted normal value. The patients all had a smoking history of at least 10 pack-years and a documented history of at least one moderate or severe COPD exacerbation in the year before screening.
“The question was whether they would see the same results in people with more moderate impairment, and the answer in this subanalysis is ‘yes.’ The findings weren’t identical between patients with severe and moderate disease, but there were similarities with what was seen in the overall ETHOS study,” he said.
The ETHOS Trial was supported by Pearl Therapeutics. Dr. Ferguson reported grants, personal fees, and nonfinancial support from AstraZeneca during the conduct of the study; and grants, fees, and nonfinancial support from Pearl and others. Dr. Mannino reports recruitment to an advisory board for AstraZeneca.
FROM ATS 2021
Sex differences in COPD symptoms predict cardiac comorbidity
Sex-specific differences in the severity of symptoms and prevalence of comorbidities in patients with chronic obstructive pulmonary disease (COPD) may point to different criteria for diagnosing cardiac comorbidities in women and men, a retrospective analysis suggests.
Among 2,046 patients in the German COSYCONET (COPD and Systemic Consequences–Comorbidities Net) cohort, most functional parameters and comorbidities and several items on the COPD Assessment Test (CAT) differed significantly between men and women.
In addition, there were sex-specific differences in the association between symptoms and cardiac disease, Franziska C. Trudzinski, MD, from the University of Heidelberg (Germany), and colleagues reported.
(Note: Although the authors used the term “gender” to distinguish male from female, this news organization has used the term “sex” in this article to refer to biological attributes of individual patients rather than personal identity.)
“[Sex]-specific differences in COPD comprised not only differences in the level of symptoms, comorbidities, and functional alterations but also differences in their mutual relationships. This was reflected in different sets of predictors for cardiac disease,” they wrote in a thematic poster presented at the American Thoracic Society’s virtual international conference.
GOLD standard
The investigators conducted an analysis of data on 795 women and 1,251 men with GOLD (Global Initiative for Chronic Obstructive Lung Disease) class 1-3 disease from the COSYCONET COPD cohort.
They looked at the patients’ clinical history, comorbidities, lung function, CAT scores, and modified Medical Research Council (mMRC) dyspnea score.
The authors used multivariate regression analysis to model potential sex-related differences in the relationship between symptoms in general and CAT items in particular, and the pattern of comorbidities and functional alterations.
They also performed logistic regression analyses to identify predictors for cardiac disease, defined as myocardial infarction, heart failure, or coronary artery disease. The analyses were controlled for age, body mass index (BMI), smoking status, mMRC, CAT items, and z scores of forced expiratory volume in 1 second/forced vital capacity ratio.
and for CAT items of cough (item 1), phlegm (item 2), and energy (item 8; P < .05 for all comparisons).
In logistic regression analysis, predictors for cardiac disease in men were energy (CAT item 8), mMRC score, smoking status, BMI, age, and spirometric lung function.
In women, however, only age was significantly predictive for cardiac disease.
“Our findings give hints how diagnostic information might be used differently in men and women,” Dr. Trudzinski and colleagues wrote.
Reassuring data
David Mannino, MD, medical director of the COPD Foundation, who was not involved in the study, said in an interview that sex differences in COPD presentation and severity are common.
“In general, men and women report symptoms differently. For example, women don’t report a whole lot of chronic bronchitis and phlegm, although they may have it,” he said, “whereas men may report less dyspnea. It varies, but in general we know that men and women, even with the same type of disease, report symptoms differently.”
Comorbidities also differ between the sexes, he noted. Women more frequently have osteoporosis, and men more frequently have heart disease, as borne out in the study. The prevalence of heart disease among patients in the study was approximately 2.5 times higher in men than women.
“It’s reassuring, because what we’re seeing is similar to what we’ve seen in other [studies] with regards to comorbidities,” he said.
The study was sponsored by Philipps University Marburg Medical Center, Germany. The authors and Dr. Mannino have reported no relevant financial relationships.
A version of the article first appeared on Medscape.com.
Sex-specific differences in the severity of symptoms and prevalence of comorbidities in patients with chronic obstructive pulmonary disease (COPD) may point to different criteria for diagnosing cardiac comorbidities in women and men, a retrospective analysis suggests.
Among 2,046 patients in the German COSYCONET (COPD and Systemic Consequences–Comorbidities Net) cohort, most functional parameters and comorbidities and several items on the COPD Assessment Test (CAT) differed significantly between men and women.
In addition, there were sex-specific differences in the association between symptoms and cardiac disease, Franziska C. Trudzinski, MD, from the University of Heidelberg (Germany), and colleagues reported.
(Note: Although the authors used the term “gender” to distinguish male from female, this news organization has used the term “sex” in this article to refer to biological attributes of individual patients rather than personal identity.)
“[Sex]-specific differences in COPD comprised not only differences in the level of symptoms, comorbidities, and functional alterations but also differences in their mutual relationships. This was reflected in different sets of predictors for cardiac disease,” they wrote in a thematic poster presented at the American Thoracic Society’s virtual international conference.
GOLD standard
The investigators conducted an analysis of data on 795 women and 1,251 men with GOLD (Global Initiative for Chronic Obstructive Lung Disease) class 1-3 disease from the COSYCONET COPD cohort.
They looked at the patients’ clinical history, comorbidities, lung function, CAT scores, and modified Medical Research Council (mMRC) dyspnea score.
The authors used multivariate regression analysis to model potential sex-related differences in the relationship between symptoms in general and CAT items in particular, and the pattern of comorbidities and functional alterations.
They also performed logistic regression analyses to identify predictors for cardiac disease, defined as myocardial infarction, heart failure, or coronary artery disease. The analyses were controlled for age, body mass index (BMI), smoking status, mMRC, CAT items, and z scores of forced expiratory volume in 1 second/forced vital capacity ratio.
and for CAT items of cough (item 1), phlegm (item 2), and energy (item 8; P < .05 for all comparisons).
In logistic regression analysis, predictors for cardiac disease in men were energy (CAT item 8), mMRC score, smoking status, BMI, age, and spirometric lung function.
In women, however, only age was significantly predictive for cardiac disease.
“Our findings give hints how diagnostic information might be used differently in men and women,” Dr. Trudzinski and colleagues wrote.
Reassuring data
David Mannino, MD, medical director of the COPD Foundation, who was not involved in the study, said in an interview that sex differences in COPD presentation and severity are common.
“In general, men and women report symptoms differently. For example, women don’t report a whole lot of chronic bronchitis and phlegm, although they may have it,” he said, “whereas men may report less dyspnea. It varies, but in general we know that men and women, even with the same type of disease, report symptoms differently.”
Comorbidities also differ between the sexes, he noted. Women more frequently have osteoporosis, and men more frequently have heart disease, as borne out in the study. The prevalence of heart disease among patients in the study was approximately 2.5 times higher in men than women.
“It’s reassuring, because what we’re seeing is similar to what we’ve seen in other [studies] with regards to comorbidities,” he said.
The study was sponsored by Philipps University Marburg Medical Center, Germany. The authors and Dr. Mannino have reported no relevant financial relationships.
A version of the article first appeared on Medscape.com.
Sex-specific differences in the severity of symptoms and prevalence of comorbidities in patients with chronic obstructive pulmonary disease (COPD) may point to different criteria for diagnosing cardiac comorbidities in women and men, a retrospective analysis suggests.
Among 2,046 patients in the German COSYCONET (COPD and Systemic Consequences–Comorbidities Net) cohort, most functional parameters and comorbidities and several items on the COPD Assessment Test (CAT) differed significantly between men and women.
In addition, there were sex-specific differences in the association between symptoms and cardiac disease, Franziska C. Trudzinski, MD, from the University of Heidelberg (Germany), and colleagues reported.
(Note: Although the authors used the term “gender” to distinguish male from female, this news organization has used the term “sex” in this article to refer to biological attributes of individual patients rather than personal identity.)
“[Sex]-specific differences in COPD comprised not only differences in the level of symptoms, comorbidities, and functional alterations but also differences in their mutual relationships. This was reflected in different sets of predictors for cardiac disease,” they wrote in a thematic poster presented at the American Thoracic Society’s virtual international conference.
GOLD standard
The investigators conducted an analysis of data on 795 women and 1,251 men with GOLD (Global Initiative for Chronic Obstructive Lung Disease) class 1-3 disease from the COSYCONET COPD cohort.
They looked at the patients’ clinical history, comorbidities, lung function, CAT scores, and modified Medical Research Council (mMRC) dyspnea score.
The authors used multivariate regression analysis to model potential sex-related differences in the relationship between symptoms in general and CAT items in particular, and the pattern of comorbidities and functional alterations.
They also performed logistic regression analyses to identify predictors for cardiac disease, defined as myocardial infarction, heart failure, or coronary artery disease. The analyses were controlled for age, body mass index (BMI), smoking status, mMRC, CAT items, and z scores of forced expiratory volume in 1 second/forced vital capacity ratio.
and for CAT items of cough (item 1), phlegm (item 2), and energy (item 8; P < .05 for all comparisons).
In logistic regression analysis, predictors for cardiac disease in men were energy (CAT item 8), mMRC score, smoking status, BMI, age, and spirometric lung function.
In women, however, only age was significantly predictive for cardiac disease.
“Our findings give hints how diagnostic information might be used differently in men and women,” Dr. Trudzinski and colleagues wrote.
Reassuring data
David Mannino, MD, medical director of the COPD Foundation, who was not involved in the study, said in an interview that sex differences in COPD presentation and severity are common.
“In general, men and women report symptoms differently. For example, women don’t report a whole lot of chronic bronchitis and phlegm, although they may have it,” he said, “whereas men may report less dyspnea. It varies, but in general we know that men and women, even with the same type of disease, report symptoms differently.”
Comorbidities also differ between the sexes, he noted. Women more frequently have osteoporosis, and men more frequently have heart disease, as borne out in the study. The prevalence of heart disease among patients in the study was approximately 2.5 times higher in men than women.
“It’s reassuring, because what we’re seeing is similar to what we’ve seen in other [studies] with regards to comorbidities,” he said.
The study was sponsored by Philipps University Marburg Medical Center, Germany. The authors and Dr. Mannino have reported no relevant financial relationships.
A version of the article first appeared on Medscape.com.
Worse outcomes for patients with COPD and COVID-19
A study of COVID-19 outcomes across the United States bolsters reports from China and Europe that indicate that patients with chronic obstructive pulmonary disease (COPD) and SARS-CoV-2 infection have worse outcomes than those of patients with COVID-19 who do not have COPD.
Investigators at the University of Texas Medical Branch at Galveston, Texas, combed through electronic health records from four geographic regions of the United States and identified a cohort of 6,056 patients with COPD among 150,775 patients whose records indicate either a diagnostic code or a positive laboratory test result for COVID-19.
Their findings indicate that patients with both COPD and COVID-19 “have worse outcomes compared to non-COPD COVID-19 patients, including 14-day hospitalization, length of stay, ICU admission, 30-day mortality, and use of mechanical ventilation,” Daniel Puebla Neira, MD, and colleagues from the University of Texas Medical Branch reported in a thematic poster presented during the American Thoracic Society (ATS) 2021 virtual international conference.
A critical care specialist who was not involved in the study said that the results are concerning but not surprising.
“If you already have a lung disease and you develop an additional lung disease on top of that, you don’t have as much reserve and you’re not going to tolerate the acute COVID infection,” said ATS expert Marc Moss, MD, Roger S. Mitchell Professor of Medicine in the division of pulmonary sciences and critical care medicine at the University of Colorado, Aurora.
The evidence shows that “patients with COPD should be even more cautious, because if they get sick and develop, they could do worse,” he said in an interview.
Retrospective analysis
Dr. Neira and colleagues assessed the characteristics and outcomes of patients with COPD who were treated for COVID-19 in the United States from March through August 2020.
Baseline demographics of the patients with and those without COPD were similar except that the mean age was higher among patients with COPD (68.62 vs. 47.08 years).
In addition, a significantly higher proportion of patients with COPD had comorbidities compared with those without COPD. Comorbidities included diabetes, hypertension, asthma, chronic kidney disease, end-stage renal disease, stroke, heart failure, cancer, coronary artery disease, and liver disease (P < .0001 for all comparisons).
Among patients with COPD, percentages were higher with respect to the following parameters: 14-day hospitalization for any cause (28.7% vs. 10.4%), COVID-19-related 14-day hospitalization (28.1% vs. 9.9%), ICU use (26.3% vs. 17.9%), mechanical ventilation use (26.3% vs. 16.1%), and 30-day mortality (13.6% vs. 7.2%; P < .0001 for all comparisons).
‘Mechanisms unclear’
“It is unclear what mechanisms drive the association between COPD and mortality in hospitalized patients with COVID-19,” the investigators wrote. “Several biological factors have been proposed, including chronic lung inflammation, oxidative stress, protease-antiprotease imbalance, and increased airway mediators.”
They recommend use of multivariable logistic regression to tease out the effects of covariates among patients with COPD and COVID-19 and call for research into long-term outcomes for these patients, “as survivors of critical illness are increasingly recognized to have cognitive, psychological, and physical consequences.”
Dr. Moss said that in general, the management of patients with COPD and COVID-19 is similar to that for patients with COVID-19 who do not have COPD, although there may be “subtle” differences, such as ventilator settings for patients with COPD.
No source of funding for the study has been disclosed. The investigators and Dr. Moss have disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
A study of COVID-19 outcomes across the United States bolsters reports from China and Europe that indicate that patients with chronic obstructive pulmonary disease (COPD) and SARS-CoV-2 infection have worse outcomes than those of patients with COVID-19 who do not have COPD.
Investigators at the University of Texas Medical Branch at Galveston, Texas, combed through electronic health records from four geographic regions of the United States and identified a cohort of 6,056 patients with COPD among 150,775 patients whose records indicate either a diagnostic code or a positive laboratory test result for COVID-19.
Their findings indicate that patients with both COPD and COVID-19 “have worse outcomes compared to non-COPD COVID-19 patients, including 14-day hospitalization, length of stay, ICU admission, 30-day mortality, and use of mechanical ventilation,” Daniel Puebla Neira, MD, and colleagues from the University of Texas Medical Branch reported in a thematic poster presented during the American Thoracic Society (ATS) 2021 virtual international conference.
A critical care specialist who was not involved in the study said that the results are concerning but not surprising.
“If you already have a lung disease and you develop an additional lung disease on top of that, you don’t have as much reserve and you’re not going to tolerate the acute COVID infection,” said ATS expert Marc Moss, MD, Roger S. Mitchell Professor of Medicine in the division of pulmonary sciences and critical care medicine at the University of Colorado, Aurora.
The evidence shows that “patients with COPD should be even more cautious, because if they get sick and develop, they could do worse,” he said in an interview.
Retrospective analysis
Dr. Neira and colleagues assessed the characteristics and outcomes of patients with COPD who were treated for COVID-19 in the United States from March through August 2020.
Baseline demographics of the patients with and those without COPD were similar except that the mean age was higher among patients with COPD (68.62 vs. 47.08 years).
In addition, a significantly higher proportion of patients with COPD had comorbidities compared with those without COPD. Comorbidities included diabetes, hypertension, asthma, chronic kidney disease, end-stage renal disease, stroke, heart failure, cancer, coronary artery disease, and liver disease (P < .0001 for all comparisons).
Among patients with COPD, percentages were higher with respect to the following parameters: 14-day hospitalization for any cause (28.7% vs. 10.4%), COVID-19-related 14-day hospitalization (28.1% vs. 9.9%), ICU use (26.3% vs. 17.9%), mechanical ventilation use (26.3% vs. 16.1%), and 30-day mortality (13.6% vs. 7.2%; P < .0001 for all comparisons).
‘Mechanisms unclear’
“It is unclear what mechanisms drive the association between COPD and mortality in hospitalized patients with COVID-19,” the investigators wrote. “Several biological factors have been proposed, including chronic lung inflammation, oxidative stress, protease-antiprotease imbalance, and increased airway mediators.”
They recommend use of multivariable logistic regression to tease out the effects of covariates among patients with COPD and COVID-19 and call for research into long-term outcomes for these patients, “as survivors of critical illness are increasingly recognized to have cognitive, psychological, and physical consequences.”
Dr. Moss said that in general, the management of patients with COPD and COVID-19 is similar to that for patients with COVID-19 who do not have COPD, although there may be “subtle” differences, such as ventilator settings for patients with COPD.
No source of funding for the study has been disclosed. The investigators and Dr. Moss have disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
A study of COVID-19 outcomes across the United States bolsters reports from China and Europe that indicate that patients with chronic obstructive pulmonary disease (COPD) and SARS-CoV-2 infection have worse outcomes than those of patients with COVID-19 who do not have COPD.
Investigators at the University of Texas Medical Branch at Galveston, Texas, combed through electronic health records from four geographic regions of the United States and identified a cohort of 6,056 patients with COPD among 150,775 patients whose records indicate either a diagnostic code or a positive laboratory test result for COVID-19.
Their findings indicate that patients with both COPD and COVID-19 “have worse outcomes compared to non-COPD COVID-19 patients, including 14-day hospitalization, length of stay, ICU admission, 30-day mortality, and use of mechanical ventilation,” Daniel Puebla Neira, MD, and colleagues from the University of Texas Medical Branch reported in a thematic poster presented during the American Thoracic Society (ATS) 2021 virtual international conference.
A critical care specialist who was not involved in the study said that the results are concerning but not surprising.
“If you already have a lung disease and you develop an additional lung disease on top of that, you don’t have as much reserve and you’re not going to tolerate the acute COVID infection,” said ATS expert Marc Moss, MD, Roger S. Mitchell Professor of Medicine in the division of pulmonary sciences and critical care medicine at the University of Colorado, Aurora.
The evidence shows that “patients with COPD should be even more cautious, because if they get sick and develop, they could do worse,” he said in an interview.
Retrospective analysis
Dr. Neira and colleagues assessed the characteristics and outcomes of patients with COPD who were treated for COVID-19 in the United States from March through August 2020.
Baseline demographics of the patients with and those without COPD were similar except that the mean age was higher among patients with COPD (68.62 vs. 47.08 years).
In addition, a significantly higher proportion of patients with COPD had comorbidities compared with those without COPD. Comorbidities included diabetes, hypertension, asthma, chronic kidney disease, end-stage renal disease, stroke, heart failure, cancer, coronary artery disease, and liver disease (P < .0001 for all comparisons).
Among patients with COPD, percentages were higher with respect to the following parameters: 14-day hospitalization for any cause (28.7% vs. 10.4%), COVID-19-related 14-day hospitalization (28.1% vs. 9.9%), ICU use (26.3% vs. 17.9%), mechanical ventilation use (26.3% vs. 16.1%), and 30-day mortality (13.6% vs. 7.2%; P < .0001 for all comparisons).
‘Mechanisms unclear’
“It is unclear what mechanisms drive the association between COPD and mortality in hospitalized patients with COVID-19,” the investigators wrote. “Several biological factors have been proposed, including chronic lung inflammation, oxidative stress, protease-antiprotease imbalance, and increased airway mediators.”
They recommend use of multivariable logistic regression to tease out the effects of covariates among patients with COPD and COVID-19 and call for research into long-term outcomes for these patients, “as survivors of critical illness are increasingly recognized to have cognitive, psychological, and physical consequences.”
Dr. Moss said that in general, the management of patients with COPD and COVID-19 is similar to that for patients with COVID-19 who do not have COPD, although there may be “subtle” differences, such as ventilator settings for patients with COPD.
No source of funding for the study has been disclosed. The investigators and Dr. Moss have disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Dr. Fauci: Extraordinary challenges, scientific triumphs with COVID-19
“Vaccines have been the bright light of this extraordinary challenge that we’ve gone through,” said Anthony S. Fauci, MD, director of the National Institute of Allergy and Infectious Diseases.
In an address for the opening ceremony of the American Thoracic Society’s virtual international conference, Dr. Fauci emphasized the role of basic and clinical research and government support for science in helping turn the tide of the COVID-19 pandemic.
“A few weeks ago, I wrote an editorial in Science, because there was some misunderstanding about how and why we were able to go from a realization of a new pathogen in January of 2020, to getting doses of vaccines in the arms of individuals – a highly efficacious vaccine – 11 months later. Truly, an unprecedented accomplishment,” he said.
“But as I said in the editorial, the speed and efficiency with which these highly efficacious vaccines were developed, and their potential for saving millions of lives, are due to an extraordinary multidisciplinary effort, involving basic, preclinical, and clinical science that had been underway – out of the spotlight – for decades and decades before the unfolding of the COVID-19 pandemic, a fact that very few people really appreciate: namely, the importance of investment in biomedical research.”
The general addresses the troops
Perhaps no other audience is so well suited to receive Dr. Fauci’s speech as those who are currently attending (virtually) the ATS conference, including researchers who scrutinize the virus from every angle to describe its workings and identify its vulnerabilities, epidemiologists who study viral transmission and look for ways to thwart it, public health workers who fan out to communities across the country to push vaccine acceptance, and clinicians who specialize in critical care and pulmonary medicine, many of whom staff the respiratory floors and intensive care units where the most severely ill patients are treated.
Speaking about the lessons learned and challenges remaining from the COVID-19 pandemic, Dr. Fauci briefly reviewed the epidemiology, virology and transmission, diagnostics, and clinical course of SARS-CoV-2 infections and the therapeutics and vaccines for COVID-19.
Epidemiology
The pandemic began in December 2019 with recognition of a novel type of pneumonia in the Wuhan District of Central China, Dr. Fauci noted.
“Very quickly thereafter, in the first week of January 2020, the Chinese identified a new strain of coronavirus as [the] source of the outbreak. Fast forward to where we are right now: We have experienced and are experiencing the most devastating pandemic of a respiratory illness in the last 102 years, with already approximately 160 million individuals having been infected – and this is clearly a gross undercounting – and also 3.3 million deaths, again, very likely an undercounting,” he said.
According to the Centers for Disease Control and Prevention, as of May 9, 2021, there were approximately 32.5 million cases of COVID-19 and 578,520 deaths in the United States. Those cases and deaths occurred largely in three surges in the United States, in early spring, early summer, and late fall of 2020.
Virology and transmission
SARS-CoV-2 is a beta-coronavirus in the same subgenus as SARS-CoV-1 and some bat coronaviruses, Dr. Fauci explained. The viral genome is large, about 30,000 kilobases, and it has four structural proteins, most importantly the S or “spike” protein that allows the virus to attach to and fuse with cell membranes by binding to the ACE2 receptor on tissues in the upper and lower respiratory tract, gastrointestinal tract, cardiovascular system, and other organ systems.
The virus is transmitted mainly through exposure to respiratory droplets within 6 feet of an infected person, or sometimes through droplets or particles that remain in the air over time and various distances.
Contact with contaminated surfaces, once feared as a means of transmission, is now understood to be less common.
The virus has been detected in stool, blood, semen, and ocular secretions, although the role of transmission through these sources is still unknown.
“Some very interesting characteristics of this virus, really quite unique compared to other viruses, certainly other respiratory viruses, is [that] about a third to 40% of people who are infected never develop any symptoms,” Dr. Fauci said. “Importantly, and very problematic to what we do to contain it – particularly with regard to identification, isolation, and contract tracing – between 50% and 60% of the transmissions occur either from someone who will never develop symptoms, or someone in the presymptomatic phase of disease.”
The fundamentals of preventing acquisition and transmission are as familiar to most Americans now as the Pledge of Allegiance: universal mask wearing, physical distancing, avoiding crowds and congregate settings, preference for outdoor over indoor settings, and frequent hand washing, he noted.
Diagnostics
Tests for SARS-CoV-2 infection fall into three basic categories: molecular tests such as polymerase chain reaction (PCR) that are highly specific and highly sensitive for actual infections, antigen tests that detect the viral protein rather than the nucleic acids, and antibody tests to detect serum proteins made in response to viral infection.
Antigen testing is used largely for broader surveillance of groups of individuals to detect viral penetrance within that group, Dr. Fauci noted.
Clinical course
The clinical course of COVID-19 has some interesting characteristics but is not substantially different from a flu-like syndrome, Dr. Fauci said.
Symptoms and signs common to both types of infections include fever, cough, fatigue, anorexia, dyspnea, and myalgias, but the loss of smell and/or taste preceding the onset of respiratory symptoms is a unique feature of COVID-19.
Dr. Fauci cited data on more than 44,000 individuals with confirmed COVID-19 in China that showed that a large majority (81%) of cases were mild or moderate in nature, but 14% of patients experienced severe disease, and 5% were critically ill. The case-fatality rate in this study was 2.3%.
People at increased risk for severe disease include older adults and those of any age with certain comorbidities.
Manifestations of severe COVID-19 infections in adults can include neurological disorders, hyperinflammation, acute respiratory distress syndrome, cardiac dysfunction, hypercoagulability, and acute kidney injury.
In children, COVID-19 has been associated with a multisystem inflammatory syndrome (MIS-C) similar to Kawasaki disease.
In a substantial number of cases, the effects of COVID-19 can linger for 6 months or longer, Dr. Fauci said, pointing to a study from the University of Washington in Seattle.
Investigators there found that approximately 30% of patients enrolled at their center reported persistent symptoms for as long as 9 months after the initial illness, with fatigue as the most commonly reported symptom. One-third of outpatients with mild disease also reported persistent symptoms.
Therapeutics
Therapeutics that are either approved by the Food and Drug Administration, have emergency use authorization, or are in clinical trials for early or moderate disease include remdesivir (Veklury, Gilead Sciences), monoclonal antibodies, convalescent plasma, antiviral agents, hyperimmune globulin, anticoagulants, and immunomodulators.
Options for moderate to severe to advanced disease include dexamethasone, baricitinib (Olumiant, Eli Lilly and Company) plus remdesivir, and immunomodulators such as infliximab (Remicade, Janssen Biotech), and biosimilars.
Vaccines
Finally, Dr. Fauci reviewed the current state of vaccines, including the three with emergency use authorization from the FDA as of this writing: two nucleic acid, messenger RNA-based (mRNA) vaccines from Moderna and Pfizer/BioNTech, and an adenoviral vector-based vaccine from Johnson & Johnson.
Other vaccines in development or in use elsewhere in the world include recombinant protein and adjuvant approaches by GlaxoSmithKline and Sanofi (in a phase 2 clinical trial launched in February 2021) and by Novavax.
The three vaccines in use in the United States were highly efficacious in both clinical trials, with efficacy of about 95% for the mRNA vaccines and 67% for the Johnson & Johnson vaccine.
The real-world performance of these vaccines has been even more impressive, however.
For example, the Johnson & Johnson vaccine had 72% efficacy at preventing moderate to severe COVID 19 in the United States, 68% in Brazil, and 64% in South Africa, and 85% efficacy against severe disease across all regions studied, Dr. Fauci said.
He cited a study of 22,234 employees of the University of Texas Southwestern Medical Center in Dallas who were vaccinated under a program started on Dec. 15, 2020. The COVID-19 infection rate among these vaccinated employees was 0.05%.
Dr. Fauci recounted the experience in Israel, where the highly transmissible B.1.1.7 strain of SARS-CoV-2 is predominant. A chart of the progress shows clearly that as the vaccine doses delivered steadily increased, the number of COVID-19 cases began a precipitous decline.
Horse race
Fittingly for a speech presented on the day that the Preakness Stakes – the second leg in thoroughbred racing’s Triple Crown – was run, Dr. Fauci closed with a cartoon showing two racehorses, labeled “SARS-CoV-2” and “Vaccines,” nearly neck-and-neck, but with vaccines having a slight lead.
“We are in a race against the virus. The vaccines, and the virus: If we vaccinate the overwhelming proportion of our population, we will without a doubt be able to crush the outbreak in the same way as we have done with other viral-borne diseases like measles, smallpox, and polio.
“So, the message is: Get vaccinated,” he concluded.
“Vaccines have been the bright light of this extraordinary challenge that we’ve gone through,” said Anthony S. Fauci, MD, director of the National Institute of Allergy and Infectious Diseases.
In an address for the opening ceremony of the American Thoracic Society’s virtual international conference, Dr. Fauci emphasized the role of basic and clinical research and government support for science in helping turn the tide of the COVID-19 pandemic.
“A few weeks ago, I wrote an editorial in Science, because there was some misunderstanding about how and why we were able to go from a realization of a new pathogen in January of 2020, to getting doses of vaccines in the arms of individuals – a highly efficacious vaccine – 11 months later. Truly, an unprecedented accomplishment,” he said.
“But as I said in the editorial, the speed and efficiency with which these highly efficacious vaccines were developed, and their potential for saving millions of lives, are due to an extraordinary multidisciplinary effort, involving basic, preclinical, and clinical science that had been underway – out of the spotlight – for decades and decades before the unfolding of the COVID-19 pandemic, a fact that very few people really appreciate: namely, the importance of investment in biomedical research.”
The general addresses the troops
Perhaps no other audience is so well suited to receive Dr. Fauci’s speech as those who are currently attending (virtually) the ATS conference, including researchers who scrutinize the virus from every angle to describe its workings and identify its vulnerabilities, epidemiologists who study viral transmission and look for ways to thwart it, public health workers who fan out to communities across the country to push vaccine acceptance, and clinicians who specialize in critical care and pulmonary medicine, many of whom staff the respiratory floors and intensive care units where the most severely ill patients are treated.
Speaking about the lessons learned and challenges remaining from the COVID-19 pandemic, Dr. Fauci briefly reviewed the epidemiology, virology and transmission, diagnostics, and clinical course of SARS-CoV-2 infections and the therapeutics and vaccines for COVID-19.
Epidemiology
The pandemic began in December 2019 with recognition of a novel type of pneumonia in the Wuhan District of Central China, Dr. Fauci noted.
“Very quickly thereafter, in the first week of January 2020, the Chinese identified a new strain of coronavirus as [the] source of the outbreak. Fast forward to where we are right now: We have experienced and are experiencing the most devastating pandemic of a respiratory illness in the last 102 years, with already approximately 160 million individuals having been infected – and this is clearly a gross undercounting – and also 3.3 million deaths, again, very likely an undercounting,” he said.
According to the Centers for Disease Control and Prevention, as of May 9, 2021, there were approximately 32.5 million cases of COVID-19 and 578,520 deaths in the United States. Those cases and deaths occurred largely in three surges in the United States, in early spring, early summer, and late fall of 2020.
Virology and transmission
SARS-CoV-2 is a beta-coronavirus in the same subgenus as SARS-CoV-1 and some bat coronaviruses, Dr. Fauci explained. The viral genome is large, about 30,000 kilobases, and it has four structural proteins, most importantly the S or “spike” protein that allows the virus to attach to and fuse with cell membranes by binding to the ACE2 receptor on tissues in the upper and lower respiratory tract, gastrointestinal tract, cardiovascular system, and other organ systems.
The virus is transmitted mainly through exposure to respiratory droplets within 6 feet of an infected person, or sometimes through droplets or particles that remain in the air over time and various distances.
Contact with contaminated surfaces, once feared as a means of transmission, is now understood to be less common.
The virus has been detected in stool, blood, semen, and ocular secretions, although the role of transmission through these sources is still unknown.
“Some very interesting characteristics of this virus, really quite unique compared to other viruses, certainly other respiratory viruses, is [that] about a third to 40% of people who are infected never develop any symptoms,” Dr. Fauci said. “Importantly, and very problematic to what we do to contain it – particularly with regard to identification, isolation, and contract tracing – between 50% and 60% of the transmissions occur either from someone who will never develop symptoms, or someone in the presymptomatic phase of disease.”
The fundamentals of preventing acquisition and transmission are as familiar to most Americans now as the Pledge of Allegiance: universal mask wearing, physical distancing, avoiding crowds and congregate settings, preference for outdoor over indoor settings, and frequent hand washing, he noted.
Diagnostics
Tests for SARS-CoV-2 infection fall into three basic categories: molecular tests such as polymerase chain reaction (PCR) that are highly specific and highly sensitive for actual infections, antigen tests that detect the viral protein rather than the nucleic acids, and antibody tests to detect serum proteins made in response to viral infection.
Antigen testing is used largely for broader surveillance of groups of individuals to detect viral penetrance within that group, Dr. Fauci noted.
Clinical course
The clinical course of COVID-19 has some interesting characteristics but is not substantially different from a flu-like syndrome, Dr. Fauci said.
Symptoms and signs common to both types of infections include fever, cough, fatigue, anorexia, dyspnea, and myalgias, but the loss of smell and/or taste preceding the onset of respiratory symptoms is a unique feature of COVID-19.
Dr. Fauci cited data on more than 44,000 individuals with confirmed COVID-19 in China that showed that a large majority (81%) of cases were mild or moderate in nature, but 14% of patients experienced severe disease, and 5% were critically ill. The case-fatality rate in this study was 2.3%.
People at increased risk for severe disease include older adults and those of any age with certain comorbidities.
Manifestations of severe COVID-19 infections in adults can include neurological disorders, hyperinflammation, acute respiratory distress syndrome, cardiac dysfunction, hypercoagulability, and acute kidney injury.
In children, COVID-19 has been associated with a multisystem inflammatory syndrome (MIS-C) similar to Kawasaki disease.
In a substantial number of cases, the effects of COVID-19 can linger for 6 months or longer, Dr. Fauci said, pointing to a study from the University of Washington in Seattle.
Investigators there found that approximately 30% of patients enrolled at their center reported persistent symptoms for as long as 9 months after the initial illness, with fatigue as the most commonly reported symptom. One-third of outpatients with mild disease also reported persistent symptoms.
Therapeutics
Therapeutics that are either approved by the Food and Drug Administration, have emergency use authorization, or are in clinical trials for early or moderate disease include remdesivir (Veklury, Gilead Sciences), monoclonal antibodies, convalescent plasma, antiviral agents, hyperimmune globulin, anticoagulants, and immunomodulators.
Options for moderate to severe to advanced disease include dexamethasone, baricitinib (Olumiant, Eli Lilly and Company) plus remdesivir, and immunomodulators such as infliximab (Remicade, Janssen Biotech), and biosimilars.
Vaccines
Finally, Dr. Fauci reviewed the current state of vaccines, including the three with emergency use authorization from the FDA as of this writing: two nucleic acid, messenger RNA-based (mRNA) vaccines from Moderna and Pfizer/BioNTech, and an adenoviral vector-based vaccine from Johnson & Johnson.
Other vaccines in development or in use elsewhere in the world include recombinant protein and adjuvant approaches by GlaxoSmithKline and Sanofi (in a phase 2 clinical trial launched in February 2021) and by Novavax.
The three vaccines in use in the United States were highly efficacious in both clinical trials, with efficacy of about 95% for the mRNA vaccines and 67% for the Johnson & Johnson vaccine.
The real-world performance of these vaccines has been even more impressive, however.
For example, the Johnson & Johnson vaccine had 72% efficacy at preventing moderate to severe COVID 19 in the United States, 68% in Brazil, and 64% in South Africa, and 85% efficacy against severe disease across all regions studied, Dr. Fauci said.
He cited a study of 22,234 employees of the University of Texas Southwestern Medical Center in Dallas who were vaccinated under a program started on Dec. 15, 2020. The COVID-19 infection rate among these vaccinated employees was 0.05%.
Dr. Fauci recounted the experience in Israel, where the highly transmissible B.1.1.7 strain of SARS-CoV-2 is predominant. A chart of the progress shows clearly that as the vaccine doses delivered steadily increased, the number of COVID-19 cases began a precipitous decline.
Horse race
Fittingly for a speech presented on the day that the Preakness Stakes – the second leg in thoroughbred racing’s Triple Crown – was run, Dr. Fauci closed with a cartoon showing two racehorses, labeled “SARS-CoV-2” and “Vaccines,” nearly neck-and-neck, but with vaccines having a slight lead.
“We are in a race against the virus. The vaccines, and the virus: If we vaccinate the overwhelming proportion of our population, we will without a doubt be able to crush the outbreak in the same way as we have done with other viral-borne diseases like measles, smallpox, and polio.
“So, the message is: Get vaccinated,” he concluded.
“Vaccines have been the bright light of this extraordinary challenge that we’ve gone through,” said Anthony S. Fauci, MD, director of the National Institute of Allergy and Infectious Diseases.
In an address for the opening ceremony of the American Thoracic Society’s virtual international conference, Dr. Fauci emphasized the role of basic and clinical research and government support for science in helping turn the tide of the COVID-19 pandemic.
“A few weeks ago, I wrote an editorial in Science, because there was some misunderstanding about how and why we were able to go from a realization of a new pathogen in January of 2020, to getting doses of vaccines in the arms of individuals – a highly efficacious vaccine – 11 months later. Truly, an unprecedented accomplishment,” he said.
“But as I said in the editorial, the speed and efficiency with which these highly efficacious vaccines were developed, and their potential for saving millions of lives, are due to an extraordinary multidisciplinary effort, involving basic, preclinical, and clinical science that had been underway – out of the spotlight – for decades and decades before the unfolding of the COVID-19 pandemic, a fact that very few people really appreciate: namely, the importance of investment in biomedical research.”
The general addresses the troops
Perhaps no other audience is so well suited to receive Dr. Fauci’s speech as those who are currently attending (virtually) the ATS conference, including researchers who scrutinize the virus from every angle to describe its workings and identify its vulnerabilities, epidemiologists who study viral transmission and look for ways to thwart it, public health workers who fan out to communities across the country to push vaccine acceptance, and clinicians who specialize in critical care and pulmonary medicine, many of whom staff the respiratory floors and intensive care units where the most severely ill patients are treated.
Speaking about the lessons learned and challenges remaining from the COVID-19 pandemic, Dr. Fauci briefly reviewed the epidemiology, virology and transmission, diagnostics, and clinical course of SARS-CoV-2 infections and the therapeutics and vaccines for COVID-19.
Epidemiology
The pandemic began in December 2019 with recognition of a novel type of pneumonia in the Wuhan District of Central China, Dr. Fauci noted.
“Very quickly thereafter, in the first week of January 2020, the Chinese identified a new strain of coronavirus as [the] source of the outbreak. Fast forward to where we are right now: We have experienced and are experiencing the most devastating pandemic of a respiratory illness in the last 102 years, with already approximately 160 million individuals having been infected – and this is clearly a gross undercounting – and also 3.3 million deaths, again, very likely an undercounting,” he said.
According to the Centers for Disease Control and Prevention, as of May 9, 2021, there were approximately 32.5 million cases of COVID-19 and 578,520 deaths in the United States. Those cases and deaths occurred largely in three surges in the United States, in early spring, early summer, and late fall of 2020.
Virology and transmission
SARS-CoV-2 is a beta-coronavirus in the same subgenus as SARS-CoV-1 and some bat coronaviruses, Dr. Fauci explained. The viral genome is large, about 30,000 kilobases, and it has four structural proteins, most importantly the S or “spike” protein that allows the virus to attach to and fuse with cell membranes by binding to the ACE2 receptor on tissues in the upper and lower respiratory tract, gastrointestinal tract, cardiovascular system, and other organ systems.
The virus is transmitted mainly through exposure to respiratory droplets within 6 feet of an infected person, or sometimes through droplets or particles that remain in the air over time and various distances.
Contact with contaminated surfaces, once feared as a means of transmission, is now understood to be less common.
The virus has been detected in stool, blood, semen, and ocular secretions, although the role of transmission through these sources is still unknown.
“Some very interesting characteristics of this virus, really quite unique compared to other viruses, certainly other respiratory viruses, is [that] about a third to 40% of people who are infected never develop any symptoms,” Dr. Fauci said. “Importantly, and very problematic to what we do to contain it – particularly with regard to identification, isolation, and contract tracing – between 50% and 60% of the transmissions occur either from someone who will never develop symptoms, or someone in the presymptomatic phase of disease.”
The fundamentals of preventing acquisition and transmission are as familiar to most Americans now as the Pledge of Allegiance: universal mask wearing, physical distancing, avoiding crowds and congregate settings, preference for outdoor over indoor settings, and frequent hand washing, he noted.
Diagnostics
Tests for SARS-CoV-2 infection fall into three basic categories: molecular tests such as polymerase chain reaction (PCR) that are highly specific and highly sensitive for actual infections, antigen tests that detect the viral protein rather than the nucleic acids, and antibody tests to detect serum proteins made in response to viral infection.
Antigen testing is used largely for broader surveillance of groups of individuals to detect viral penetrance within that group, Dr. Fauci noted.
Clinical course
The clinical course of COVID-19 has some interesting characteristics but is not substantially different from a flu-like syndrome, Dr. Fauci said.
Symptoms and signs common to both types of infections include fever, cough, fatigue, anorexia, dyspnea, and myalgias, but the loss of smell and/or taste preceding the onset of respiratory symptoms is a unique feature of COVID-19.
Dr. Fauci cited data on more than 44,000 individuals with confirmed COVID-19 in China that showed that a large majority (81%) of cases were mild or moderate in nature, but 14% of patients experienced severe disease, and 5% were critically ill. The case-fatality rate in this study was 2.3%.
People at increased risk for severe disease include older adults and those of any age with certain comorbidities.
Manifestations of severe COVID-19 infections in adults can include neurological disorders, hyperinflammation, acute respiratory distress syndrome, cardiac dysfunction, hypercoagulability, and acute kidney injury.
In children, COVID-19 has been associated with a multisystem inflammatory syndrome (MIS-C) similar to Kawasaki disease.
In a substantial number of cases, the effects of COVID-19 can linger for 6 months or longer, Dr. Fauci said, pointing to a study from the University of Washington in Seattle.
Investigators there found that approximately 30% of patients enrolled at their center reported persistent symptoms for as long as 9 months after the initial illness, with fatigue as the most commonly reported symptom. One-third of outpatients with mild disease also reported persistent symptoms.
Therapeutics
Therapeutics that are either approved by the Food and Drug Administration, have emergency use authorization, or are in clinical trials for early or moderate disease include remdesivir (Veklury, Gilead Sciences), monoclonal antibodies, convalescent plasma, antiviral agents, hyperimmune globulin, anticoagulants, and immunomodulators.
Options for moderate to severe to advanced disease include dexamethasone, baricitinib (Olumiant, Eli Lilly and Company) plus remdesivir, and immunomodulators such as infliximab (Remicade, Janssen Biotech), and biosimilars.
Vaccines
Finally, Dr. Fauci reviewed the current state of vaccines, including the three with emergency use authorization from the FDA as of this writing: two nucleic acid, messenger RNA-based (mRNA) vaccines from Moderna and Pfizer/BioNTech, and an adenoviral vector-based vaccine from Johnson & Johnson.
Other vaccines in development or in use elsewhere in the world include recombinant protein and adjuvant approaches by GlaxoSmithKline and Sanofi (in a phase 2 clinical trial launched in February 2021) and by Novavax.
The three vaccines in use in the United States were highly efficacious in both clinical trials, with efficacy of about 95% for the mRNA vaccines and 67% for the Johnson & Johnson vaccine.
The real-world performance of these vaccines has been even more impressive, however.
For example, the Johnson & Johnson vaccine had 72% efficacy at preventing moderate to severe COVID 19 in the United States, 68% in Brazil, and 64% in South Africa, and 85% efficacy against severe disease across all regions studied, Dr. Fauci said.
He cited a study of 22,234 employees of the University of Texas Southwestern Medical Center in Dallas who were vaccinated under a program started on Dec. 15, 2020. The COVID-19 infection rate among these vaccinated employees was 0.05%.
Dr. Fauci recounted the experience in Israel, where the highly transmissible B.1.1.7 strain of SARS-CoV-2 is predominant. A chart of the progress shows clearly that as the vaccine doses delivered steadily increased, the number of COVID-19 cases began a precipitous decline.
Horse race
Fittingly for a speech presented on the day that the Preakness Stakes – the second leg in thoroughbred racing’s Triple Crown – was run, Dr. Fauci closed with a cartoon showing two racehorses, labeled “SARS-CoV-2” and “Vaccines,” nearly neck-and-neck, but with vaccines having a slight lead.
“We are in a race against the virus. The vaccines, and the virus: If we vaccinate the overwhelming proportion of our population, we will without a doubt be able to crush the outbreak in the same way as we have done with other viral-borne diseases like measles, smallpox, and polio.
“So, the message is: Get vaccinated,” he concluded.
E-cigarettes linked to wheeze, shortness of breath
The use of e-cigarettes is linked to a higher frequency of self-reported wheezing and shortness of breath in adolescents and young adults, according to an online survey. The association was present even after controlling for cigarette and cannabis use.
Previous studies of adolescents and young adults have shown associations between e-cigarette use and wheeze, shortness of breath, and asthma. The Youth Risk Behavior Surveillance (YRBS) survey by the Centers for Disease Control and Prevention and other health agencies, conducted from 2015 to 2017, found that 63.5% of youth who used e-cigarettes also used some combination of cigarettes and cannabis. Combined use was associated with a 55%-65% increased odds of self-reported asthma.
The Population Assessment of Tobacco and Health (PATH) study, which was published in October 2020, had similar findings, though it did not find an association between e-cigarette use alone and wheezing.
“The findings from the current study highlight that we need to keep asking young people about respiratory symptoms, couse of other tobacco products, as well as cannabis use. As more products, including cannabis and various e-cigarette devices, enter the market, assessing respiratory health will be important both where adolescents and young adults receive their health care and in research,” Alayna Tackett, PhD, said in an interview. Dr. Tackett presented the study at the American Thoracic Society’s virtual international conference. She is an assistant professor of preventive medicine at the University of Southern California, Los Angeles.
“I found [the study] very interesting because it seems to be identifying a physiologic response to these e-cigarettes,” said Christopher Pascoe, MD, who was asked to comment. “And they were so young [age 14-21 years]. The fact that these symptoms of wheezing and shortness of breath are coming from people who are this young suggests that there may be chronic problems showing up later with continued use of these devices.”
Dr. Pascoe is an assistant professor of physiology and pathophysiology at the University of Manitoba, Winnipeg, where he also works with the Children’s Hospital Research Institute of Manitoba. His own research examines lung tissue harvested from pneumothorax surgeries in smokers and e-cigarette users to identify markers of inflammation.
He called the research a “good start” at unraveling the impacts of e-cigarettes and smoking, since some people use both products. “The fact that there was still a twofold increase in odds for wheezing, shortness of breath among people who use these e-cigarettes, but weren’t using cannabis and weren’t using cigarettes. I think it’s novel, and it suggests that there is an effect [of e-cigarettes alone].”
The study is based on a self-reported data, which is a significant limitation, especially considering that asthma is often overreported. “Self-report can be fraught with things, but I think it’s an interesting starting point for trying to recruit people who are just e-cigarette users and following them up further,” said Dr. Pascoe.
The researchers surveyed 2,931 individuals aged 14-21 years between Aug. 6 and Aug.30, 2020, with an average age of 18.9 years. Of the respondents, 80% were women and girls, and 75% were White. The high percentage of women and girls was unusual. Dr. Tackett provided no explanation for the atypical demographic but noted that the current study used convenience sampling.
The survey asked about use of e-cigarettes, cigarettes, and cannabis in the past 30 days, as well as asthma diagnosis and respiratory symptoms over the same period. The methodology employed survey management company Lucid, which recruited, collected data from, and provided compensation to participants.
A total of 24% of participants reported asthma, 13% reported wheeze, and 20% reported shortness of breath. Among 1,414 respondents who reported e-cigarette use in the past 30 days, 15% also said they had used cigarettes, and 37% said they had used cannabis.
After controlling for age, birth sex, and race/ethnicity, compared with self-reported never e-cigarette users, there was an association between past 30-day e-cigarette use and self-reported asthma (odds ratio, 1.4; 95% CI, 1.1-1.7), wheeze (OR, 3.1; 95% CI, 2.3-4.2), and shortness of breath (OR, 2.9; 95% CI, 2.3-3.6). After the researchers controlled for past 30-day cigarette cannabis use, the association with asthma was no longer statistically significant (OR, 1.11; 95% CI, 0.87-1.41), but the association with wheeze (OR, 2.3; 95% CI, 1.6-3.0) and shortness of breath (OR, 2.1; 95% CI, 1.6-2.8) remained.
Dr. Tackett noted that wheeze and shortness of breath are only two indicators of respiratory health, and more research needs to be done. Her team is conducting follow-up studies using objective measurement tools such as home-based spirometry in adolescents and young adults who exclusively use e-cigarettes and who have never used e-cigarettes.
“We need to better understand the complex relationships between use of these products and whether multiple product use is associated with worse respiratory outcomes,” said Dr. Tackett.
Dr. Pascoe and Dr. Tackett disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
The use of e-cigarettes is linked to a higher frequency of self-reported wheezing and shortness of breath in adolescents and young adults, according to an online survey. The association was present even after controlling for cigarette and cannabis use.
Previous studies of adolescents and young adults have shown associations between e-cigarette use and wheeze, shortness of breath, and asthma. The Youth Risk Behavior Surveillance (YRBS) survey by the Centers for Disease Control and Prevention and other health agencies, conducted from 2015 to 2017, found that 63.5% of youth who used e-cigarettes also used some combination of cigarettes and cannabis. Combined use was associated with a 55%-65% increased odds of self-reported asthma.
The Population Assessment of Tobacco and Health (PATH) study, which was published in October 2020, had similar findings, though it did not find an association between e-cigarette use alone and wheezing.
“The findings from the current study highlight that we need to keep asking young people about respiratory symptoms, couse of other tobacco products, as well as cannabis use. As more products, including cannabis and various e-cigarette devices, enter the market, assessing respiratory health will be important both where adolescents and young adults receive their health care and in research,” Alayna Tackett, PhD, said in an interview. Dr. Tackett presented the study at the American Thoracic Society’s virtual international conference. She is an assistant professor of preventive medicine at the University of Southern California, Los Angeles.
“I found [the study] very interesting because it seems to be identifying a physiologic response to these e-cigarettes,” said Christopher Pascoe, MD, who was asked to comment. “And they were so young [age 14-21 years]. The fact that these symptoms of wheezing and shortness of breath are coming from people who are this young suggests that there may be chronic problems showing up later with continued use of these devices.”
Dr. Pascoe is an assistant professor of physiology and pathophysiology at the University of Manitoba, Winnipeg, where he also works with the Children’s Hospital Research Institute of Manitoba. His own research examines lung tissue harvested from pneumothorax surgeries in smokers and e-cigarette users to identify markers of inflammation.
He called the research a “good start” at unraveling the impacts of e-cigarettes and smoking, since some people use both products. “The fact that there was still a twofold increase in odds for wheezing, shortness of breath among people who use these e-cigarettes, but weren’t using cannabis and weren’t using cigarettes. I think it’s novel, and it suggests that there is an effect [of e-cigarettes alone].”
The study is based on a self-reported data, which is a significant limitation, especially considering that asthma is often overreported. “Self-report can be fraught with things, but I think it’s an interesting starting point for trying to recruit people who are just e-cigarette users and following them up further,” said Dr. Pascoe.
The researchers surveyed 2,931 individuals aged 14-21 years between Aug. 6 and Aug.30, 2020, with an average age of 18.9 years. Of the respondents, 80% were women and girls, and 75% were White. The high percentage of women and girls was unusual. Dr. Tackett provided no explanation for the atypical demographic but noted that the current study used convenience sampling.
The survey asked about use of e-cigarettes, cigarettes, and cannabis in the past 30 days, as well as asthma diagnosis and respiratory symptoms over the same period. The methodology employed survey management company Lucid, which recruited, collected data from, and provided compensation to participants.
A total of 24% of participants reported asthma, 13% reported wheeze, and 20% reported shortness of breath. Among 1,414 respondents who reported e-cigarette use in the past 30 days, 15% also said they had used cigarettes, and 37% said they had used cannabis.
After controlling for age, birth sex, and race/ethnicity, compared with self-reported never e-cigarette users, there was an association between past 30-day e-cigarette use and self-reported asthma (odds ratio, 1.4; 95% CI, 1.1-1.7), wheeze (OR, 3.1; 95% CI, 2.3-4.2), and shortness of breath (OR, 2.9; 95% CI, 2.3-3.6). After the researchers controlled for past 30-day cigarette cannabis use, the association with asthma was no longer statistically significant (OR, 1.11; 95% CI, 0.87-1.41), but the association with wheeze (OR, 2.3; 95% CI, 1.6-3.0) and shortness of breath (OR, 2.1; 95% CI, 1.6-2.8) remained.
Dr. Tackett noted that wheeze and shortness of breath are only two indicators of respiratory health, and more research needs to be done. Her team is conducting follow-up studies using objective measurement tools such as home-based spirometry in adolescents and young adults who exclusively use e-cigarettes and who have never used e-cigarettes.
“We need to better understand the complex relationships between use of these products and whether multiple product use is associated with worse respiratory outcomes,” said Dr. Tackett.
Dr. Pascoe and Dr. Tackett disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
The use of e-cigarettes is linked to a higher frequency of self-reported wheezing and shortness of breath in adolescents and young adults, according to an online survey. The association was present even after controlling for cigarette and cannabis use.
Previous studies of adolescents and young adults have shown associations between e-cigarette use and wheeze, shortness of breath, and asthma. The Youth Risk Behavior Surveillance (YRBS) survey by the Centers for Disease Control and Prevention and other health agencies, conducted from 2015 to 2017, found that 63.5% of youth who used e-cigarettes also used some combination of cigarettes and cannabis. Combined use was associated with a 55%-65% increased odds of self-reported asthma.
The Population Assessment of Tobacco and Health (PATH) study, which was published in October 2020, had similar findings, though it did not find an association between e-cigarette use alone and wheezing.
“The findings from the current study highlight that we need to keep asking young people about respiratory symptoms, couse of other tobacco products, as well as cannabis use. As more products, including cannabis and various e-cigarette devices, enter the market, assessing respiratory health will be important both where adolescents and young adults receive their health care and in research,” Alayna Tackett, PhD, said in an interview. Dr. Tackett presented the study at the American Thoracic Society’s virtual international conference. She is an assistant professor of preventive medicine at the University of Southern California, Los Angeles.
“I found [the study] very interesting because it seems to be identifying a physiologic response to these e-cigarettes,” said Christopher Pascoe, MD, who was asked to comment. “And they were so young [age 14-21 years]. The fact that these symptoms of wheezing and shortness of breath are coming from people who are this young suggests that there may be chronic problems showing up later with continued use of these devices.”
Dr. Pascoe is an assistant professor of physiology and pathophysiology at the University of Manitoba, Winnipeg, where he also works with the Children’s Hospital Research Institute of Manitoba. His own research examines lung tissue harvested from pneumothorax surgeries in smokers and e-cigarette users to identify markers of inflammation.
He called the research a “good start” at unraveling the impacts of e-cigarettes and smoking, since some people use both products. “The fact that there was still a twofold increase in odds for wheezing, shortness of breath among people who use these e-cigarettes, but weren’t using cannabis and weren’t using cigarettes. I think it’s novel, and it suggests that there is an effect [of e-cigarettes alone].”
The study is based on a self-reported data, which is a significant limitation, especially considering that asthma is often overreported. “Self-report can be fraught with things, but I think it’s an interesting starting point for trying to recruit people who are just e-cigarette users and following them up further,” said Dr. Pascoe.
The researchers surveyed 2,931 individuals aged 14-21 years between Aug. 6 and Aug.30, 2020, with an average age of 18.9 years. Of the respondents, 80% were women and girls, and 75% were White. The high percentage of women and girls was unusual. Dr. Tackett provided no explanation for the atypical demographic but noted that the current study used convenience sampling.
The survey asked about use of e-cigarettes, cigarettes, and cannabis in the past 30 days, as well as asthma diagnosis and respiratory symptoms over the same period. The methodology employed survey management company Lucid, which recruited, collected data from, and provided compensation to participants.
A total of 24% of participants reported asthma, 13% reported wheeze, and 20% reported shortness of breath. Among 1,414 respondents who reported e-cigarette use in the past 30 days, 15% also said they had used cigarettes, and 37% said they had used cannabis.
After controlling for age, birth sex, and race/ethnicity, compared with self-reported never e-cigarette users, there was an association between past 30-day e-cigarette use and self-reported asthma (odds ratio, 1.4; 95% CI, 1.1-1.7), wheeze (OR, 3.1; 95% CI, 2.3-4.2), and shortness of breath (OR, 2.9; 95% CI, 2.3-3.6). After the researchers controlled for past 30-day cigarette cannabis use, the association with asthma was no longer statistically significant (OR, 1.11; 95% CI, 0.87-1.41), but the association with wheeze (OR, 2.3; 95% CI, 1.6-3.0) and shortness of breath (OR, 2.1; 95% CI, 1.6-2.8) remained.
Dr. Tackett noted that wheeze and shortness of breath are only two indicators of respiratory health, and more research needs to be done. Her team is conducting follow-up studies using objective measurement tools such as home-based spirometry in adolescents and young adults who exclusively use e-cigarettes and who have never used e-cigarettes.
“We need to better understand the complex relationships between use of these products and whether multiple product use is associated with worse respiratory outcomes,” said Dr. Tackett.
Dr. Pascoe and Dr. Tackett disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.