Pulmonology

TOPLINE:

The risk for Guillain-Barré syndrome (GBS) is six times higher in people with COVID-19 in the 6 weeks following infection, according to a new study that also showed receipt of the Pfizer-BioNTech mRNA vaccine reduced GSB risk by 59%.

METHODOLOGY:

• The nested-case control study analyzed data from the largest healthcare provider in Israel for 3.2 million patients aged 16 years and older, with no history of GBS.
• GBS cases (n = 76) were identified based on hospital discharge data from January 2021 to June 2022.
• For every GBS case, investigators chose 10 controls at random, matched for age, gender, and follow-up duration (n = 760).
• Investigators examined the association between GBS and SARS-CoV-2 infection, established through documentation of prior positive SARS-CoV-2 test (PCR or antigen), and any COVID-19 vaccine administration.

TAKEAWAY:

• Among those diagnosed with GBS, 8 were exposed to SARS-CoV-2 infection only, 7 were exposed to COVID-19 vaccination only, and 1 patient was exposed to both SARS-CoV-2 infection and COVID-19 vaccination in the prior 6 weeks, leaving 60 GBS patients without exposure to either infection or vaccination.
• All COVID-19 vaccine doses administered in GBS cases within 6 weeks of the index date, and all but two doses administered in controls in the same timeframe, were Pfizer-BioNTech vaccines.
• Compared with people without GBS, those with the condition were more than six times as likely to have had SARS-CoV-2 infection within 6 weeks of GBS diagnosis (adjusted odds ratio, 6.30; 95% confidence interval, 2.55-15.56).
• People who received the COVID-19 vaccine were 59% less likely to develop GBS than those who did not get the vaccine (aOR, 0.41; 95% CI, 0.17-0.96).

IN PRACTICE:

“While Guillain-Barré is extremely rare, people should be aware that having a COVID infection can increase their risk of developing the disorder, and receiving an mRNA vaccine can decrease their risk,” study author Anat Arbel, MD, of Lady Davis Carmel Medical Center and the Technion-Israel Institute of Technology, Haifa, Israel, said in a press release.

SOURCE:

In addition to Dr. Arbel, the other lead author is Haya Bishara, MD, of Lady Davis Carmel Medical Center. The research was published online  in the journal Neurology.

LIMITATIONS:

There is a possibility of misclassification of SARS-CoV-2 infection, which could lead to an overestimation of the magnitude of association between infection and GBS. The diagnosis of GBS relied solely on ICD-9 coding, which has been shown in prior studies to contain errors.

DISCLOSURES:

The study was unfunded. Dr. Bishara and Dr. Arbel report no relevant financial relationships. One co-author, Eitan Auriel, MD, has received lecturer fees from Novo Nordisk, Pfizer, Boehringer Ingelheim, and Medison.

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

TOPLINE:

The risk for Guillain-Barré syndrome (GBS) is six times higher in people with COVID-19 in the 6 weeks following infection, according to a new study that also showed receipt of the Pfizer-BioNTech mRNA vaccine reduced GSB risk by 59%.

METHODOLOGY:

• The nested-case control study analyzed data from the largest healthcare provider in Israel for 3.2 million patients aged 16 years and older, with no history of GBS.
• GBS cases (n = 76) were identified based on hospital discharge data from January 2021 to June 2022.
• For every GBS case, investigators chose 10 controls at random, matched for age, gender, and follow-up duration (n = 760).
• Investigators examined the association between GBS and SARS-CoV-2 infection, established through documentation of prior positive SARS-CoV-2 test (PCR or antigen), and any COVID-19 vaccine administration.

TAKEAWAY:

• Among those diagnosed with GBS, 8 were exposed to SARS-CoV-2 infection only, 7 were exposed to COVID-19 vaccination only, and 1 patient was exposed to both SARS-CoV-2 infection and COVID-19 vaccination in the prior 6 weeks, leaving 60 GBS patients without exposure to either infection or vaccination.
• All COVID-19 vaccine doses administered in GBS cases within 6 weeks of the index date, and all but two doses administered in controls in the same timeframe, were Pfizer-BioNTech vaccines.
• Compared with people without GBS, those with the condition were more than six times as likely to have had SARS-CoV-2 infection within 6 weeks of GBS diagnosis (adjusted odds ratio, 6.30; 95% confidence interval, 2.55-15.56).
• People who received the COVID-19 vaccine were 59% less likely to develop GBS than those who did not get the vaccine (aOR, 0.41; 95% CI, 0.17-0.96).

IN PRACTICE:

“While Guillain-Barré is extremely rare, people should be aware that having a COVID infection can increase their risk of developing the disorder, and receiving an mRNA vaccine can decrease their risk,” study author Anat Arbel, MD, of Lady Davis Carmel Medical Center and the Technion-Israel Institute of Technology, Haifa, Israel, said in a press release.

SOURCE:

In addition to Dr. Arbel, the other lead author is Haya Bishara, MD, of Lady Davis Carmel Medical Center. The research was published online  in the journal Neurology.

LIMITATIONS:

There is a possibility of misclassification of SARS-CoV-2 infection, which could lead to an overestimation of the magnitude of association between infection and GBS. The diagnosis of GBS relied solely on ICD-9 coding, which has been shown in prior studies to contain errors.

DISCLOSURES:

The study was unfunded. Dr. Bishara and Dr. Arbel report no relevant financial relationships. One co-author, Eitan Auriel, MD, has received lecturer fees from Novo Nordisk, Pfizer, Boehringer Ingelheim, and Medison.

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

TOPLINE:

The risk for Guillain-Barré syndrome (GBS) is six times higher in people with COVID-19 in the 6 weeks following infection, according to a new study that also showed receipt of the Pfizer-BioNTech mRNA vaccine reduced GSB risk by 59%.

METHODOLOGY:

• The nested-case control study analyzed data from the largest healthcare provider in Israel for 3.2 million patients aged 16 years and older, with no history of GBS.
• GBS cases (n = 76) were identified based on hospital discharge data from January 2021 to June 2022.
• For every GBS case, investigators chose 10 controls at random, matched for age, gender, and follow-up duration (n = 760).
• Investigators examined the association between GBS and SARS-CoV-2 infection, established through documentation of prior positive SARS-CoV-2 test (PCR or antigen), and any COVID-19 vaccine administration.

TAKEAWAY:

• Among those diagnosed with GBS, 8 were exposed to SARS-CoV-2 infection only, 7 were exposed to COVID-19 vaccination only, and 1 patient was exposed to both SARS-CoV-2 infection and COVID-19 vaccination in the prior 6 weeks, leaving 60 GBS patients without exposure to either infection or vaccination.
• All COVID-19 vaccine doses administered in GBS cases within 6 weeks of the index date, and all but two doses administered in controls in the same timeframe, were Pfizer-BioNTech vaccines.
• Compared with people without GBS, those with the condition were more than six times as likely to have had SARS-CoV-2 infection within 6 weeks of GBS diagnosis (adjusted odds ratio, 6.30; 95% confidence interval, 2.55-15.56).
• People who received the COVID-19 vaccine were 59% less likely to develop GBS than those who did not get the vaccine (aOR, 0.41; 95% CI, 0.17-0.96).

IN PRACTICE:

“While Guillain-Barré is extremely rare, people should be aware that having a COVID infection can increase their risk of developing the disorder, and receiving an mRNA vaccine can decrease their risk,” study author Anat Arbel, MD, of Lady Davis Carmel Medical Center and the Technion-Israel Institute of Technology, Haifa, Israel, said in a press release.

SOURCE:

In addition to Dr. Arbel, the other lead author is Haya Bishara, MD, of Lady Davis Carmel Medical Center. The research was published online  in the journal Neurology.

LIMITATIONS:

There is a possibility of misclassification of SARS-CoV-2 infection, which could lead to an overestimation of the magnitude of association between infection and GBS. The diagnosis of GBS relied solely on ICD-9 coding, which has been shown in prior studies to contain errors.

DISCLOSURES:

The study was unfunded. Dr. Bishara and Dr. Arbel report no relevant financial relationships. One co-author, Eitan Auriel, MD, has received lecturer fees from Novo Nordisk, Pfizer, Boehringer Ingelheim, and Medison.

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

It’s upper respiratory infection (URI) season. The following is a clinical scenario drawn from my own practice. I’ll tell you what I plan to do, but I’m most interested in crowdsourcing a response from all of you to collectively determine best practice. So please answer the polling questions and contribute your thoughts in the comments, whether you agree or disagree with me.

The patient

The patient is a 69-year-old woman with a 3-day history of cough, nasal congestion, malaise, tactile fever, and poor appetite. She has no sick contacts. She denies dyspnea, presyncope, and chest pain. She has tried guaifenesin and ibuprofen for her symptoms, which helped a little.

She is up to date on immunizations, including four doses of COVID-19 vaccine and the influenza vaccine, which she received 2 months ago.

The patient has a history of heart failure with reduced ejection fraction, coronary artery disease, hypertension, chronic kidney disease stage 3aA2, obesity, and osteoarthritis. Current medications include atorvastatin, losartan, metoprolol, and aspirin.

Her weight is stable at 212 lb, and her vital signs today are:

• Temperature: 37.5° C
• Pulse: 60 beats/min
• Blood pressure: 150/88 mm Hg
• Respiration rate: 14 breaths/min
• SpO₂: 93% on room air

What information is most critical before deciding on management?

Your peers chose: 

• The patient’s history of viral URIs

 14%

 

• Whether her cough is productive and the color of the sputum

 38%

 

• How well this season’s flu vaccine matches circulating influenza viruses

 8%

 

• Local epidemiology of major viral pathogens (e.g., SARS-CoV-2, influenza, RSV)

 40%
 

Dr. Vega’s take

To provide the best care for our patients when they are threatened with multiple viral upper respiratory pathogens, it is imperative that clinicians have some idea regarding the epidemiology of viral infections, with as much local data as possible. This knowledge will help direct appropriate testing and treatment.

Modern viral molecular testing platforms are highly accurate, but they are not infallible. Small flaws in specificity and sensitivity of testing are magnified when community viral circulation is low. In a U.K. study conducted during a period of low COVID-19 prevalence, the positive predictive value of reverse-transcriptase polymerase chain reaction (RT-PCR) testing was just 16%. Although the negative predictive value was much higher, the false-positive rate of testing was still 0.5%. The authors of the study describe important potential consequences of false-positive results, such as being temporarily removed from an organ transplant list and unnecessary contact tracing.
 

Testing and treatment

Your county public health department maintains a website describing local activity of SARS-CoV-2 and influenza. Both viruses are in heavy circulation now.

What is the next best step in this patient’s management?

Your peers chose: 

• Treat empirically with ritonavir-boosted nirmatrelvir

 7%

 

• Treat empirically with oseltamivir or baloxavir

 14%

 

• Perform lab-based multiplex RT-PCR testing and wait to treat on the basis of results

 34%

 

• Perform rapid nucleic acid amplification testing (NAAT) and treat on the basis of results

 45%

Every practice has different resources and should use the best means available to treat patients. Ideally, this patient would undergo rapid NAAT with results available within 30 minutes. Test results will help guide not only treatment decisions but also infection-control measures.

The Infectious Diseases Society of America has provided updates for testing for URIs since the onset of the COVID-19 pandemic. Both laboratory-based and point-of-care rapid NAATs are recommended for testing. Rapid NAATs have been demonstrated to have a sensitivity of 96% and specificity of 100% in the detection of SARS-CoV-2. Obviously, they also offer a highly efficient means to make treatment and isolation decisions.

There are multiple platforms for molecular testing available. Laboratory-based platforms can test for dozens of potential pathogens, including bacteria. Rapid NAATs often have the ability to test for SARS-CoV-2, influenza, and respiratory syncytial virus (RSV). This functionality is important, because these infections generally are difficult to discriminate on the basis of clinical information alone.

The IDSA clearly recognizes the challenges of trying to manage cases of URI. For example, they state that testing of the anterior nares (AN) or oropharynx (OP) is acceptable, even though testing from the nasopharynx offers increased sensitivity. However, testing at the AN/OP allows for patient self-collection of samples, which is also recommended as an option by the IDSA. In an analysis of six cohort studies, the pooled sensitivity of patient-collected nasopharyngeal samples from the AN/OP was 88%, whereas the respective value for samples taken by health care providers was 95%.

The U.S. Centers for Disease Control and Prevention also provides recommendations for the management of patients with acute upper respiratory illness. Patients who are sick enough to be hospitalized should be tested at least for SARS-CoV-2 and influenza using molecular assays. Outpatients should be tested for SARS-CoV-2 with either molecular or antigen testing, and influenza testing should be offered if the findings will change decisions regarding treatment or isolation. Practically speaking, the recommendations for influenza testing mean that most individuals should be tested, including patients at high risk for complications of influenza and those who might have exposure to individuals at high risk.

Treatment of COVID-19 should only be provided in cases of a positive test within 5 days of symptom onset. However, clinicians may treat patients with anti-influenza medications presumptively if test results are not immediately available and the patient has worsening symptoms or is in a group at high risk for complications.

What are some of the challenges that you have faced during the COVID-19 pandemic regarding the management of patients with acute URIs? What have you found in terms of solutions, and where do gaps in quality of care persist? Please add your comments. I will review and circle back with a response. Thank you!

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

It’s upper respiratory infection (URI) season. The following is a clinical scenario drawn from my own practice. I’ll tell you what I plan to do, but I’m most interested in crowdsourcing a response from all of you to collectively determine best practice. So please answer the polling questions and contribute your thoughts in the comments, whether you agree or disagree with me.

The patient

The patient is a 69-year-old woman with a 3-day history of cough, nasal congestion, malaise, tactile fever, and poor appetite. She has no sick contacts. She denies dyspnea, presyncope, and chest pain. She has tried guaifenesin and ibuprofen for her symptoms, which helped a little.

She is up to date on immunizations, including four doses of COVID-19 vaccine and the influenza vaccine, which she received 2 months ago.

The patient has a history of heart failure with reduced ejection fraction, coronary artery disease, hypertension, chronic kidney disease stage 3aA2, obesity, and osteoarthritis. Current medications include atorvastatin, losartan, metoprolol, and aspirin.

Her weight is stable at 212 lb, and her vital signs today are:

• Temperature: 37.5° C
• Pulse: 60 beats/min
• Blood pressure: 150/88 mm Hg
• Respiration rate: 14 breaths/min
• SpO₂: 93% on room air

What information is most critical before deciding on management?

Your peers chose: 

• The patient’s history of viral URIs

 14%

 

• Whether her cough is productive and the color of the sputum

 38%

 

• How well this season’s flu vaccine matches circulating influenza viruses

 8%

 

• Local epidemiology of major viral pathogens (e.g., SARS-CoV-2, influenza, RSV)

 40%
 

Dr. Vega’s take

To provide the best care for our patients when they are threatened with multiple viral upper respiratory pathogens, it is imperative that clinicians have some idea regarding the epidemiology of viral infections, with as much local data as possible. This knowledge will help direct appropriate testing and treatment.

Modern viral molecular testing platforms are highly accurate, but they are not infallible. Small flaws in specificity and sensitivity of testing are magnified when community viral circulation is low. In a U.K. study conducted during a period of low COVID-19 prevalence, the positive predictive value of reverse-transcriptase polymerase chain reaction (RT-PCR) testing was just 16%. Although the negative predictive value was much higher, the false-positive rate of testing was still 0.5%. The authors of the study describe important potential consequences of false-positive results, such as being temporarily removed from an organ transplant list and unnecessary contact tracing.
 

Testing and treatment

Your county public health department maintains a website describing local activity of SARS-CoV-2 and influenza. Both viruses are in heavy circulation now.

What is the next best step in this patient’s management?

Your peers chose: 

• Treat empirically with ritonavir-boosted nirmatrelvir

 7%

 

• Treat empirically with oseltamivir or baloxavir

 14%

 

• Perform lab-based multiplex RT-PCR testing and wait to treat on the basis of results

 34%

 

• Perform rapid nucleic acid amplification testing (NAAT) and treat on the basis of results

 45%

Every practice has different resources and should use the best means available to treat patients. Ideally, this patient would undergo rapid NAAT with results available within 30 minutes. Test results will help guide not only treatment decisions but also infection-control measures.

The Infectious Diseases Society of America has provided updates for testing for URIs since the onset of the COVID-19 pandemic. Both laboratory-based and point-of-care rapid NAATs are recommended for testing. Rapid NAATs have been demonstrated to have a sensitivity of 96% and specificity of 100% in the detection of SARS-CoV-2. Obviously, they also offer a highly efficient means to make treatment and isolation decisions.

There are multiple platforms for molecular testing available. Laboratory-based platforms can test for dozens of potential pathogens, including bacteria. Rapid NAATs often have the ability to test for SARS-CoV-2, influenza, and respiratory syncytial virus (RSV). This functionality is important, because these infections generally are difficult to discriminate on the basis of clinical information alone.

The IDSA clearly recognizes the challenges of trying to manage cases of URI. For example, they state that testing of the anterior nares (AN) or oropharynx (OP) is acceptable, even though testing from the nasopharynx offers increased sensitivity. However, testing at the AN/OP allows for patient self-collection of samples, which is also recommended as an option by the IDSA. In an analysis of six cohort studies, the pooled sensitivity of patient-collected nasopharyngeal samples from the AN/OP was 88%, whereas the respective value for samples taken by health care providers was 95%.

The U.S. Centers for Disease Control and Prevention also provides recommendations for the management of patients with acute upper respiratory illness. Patients who are sick enough to be hospitalized should be tested at least for SARS-CoV-2 and influenza using molecular assays. Outpatients should be tested for SARS-CoV-2 with either molecular or antigen testing, and influenza testing should be offered if the findings will change decisions regarding treatment or isolation. Practically speaking, the recommendations for influenza testing mean that most individuals should be tested, including patients at high risk for complications of influenza and those who might have exposure to individuals at high risk.

Treatment of COVID-19 should only be provided in cases of a positive test within 5 days of symptom onset. However, clinicians may treat patients with anti-influenza medications presumptively if test results are not immediately available and the patient has worsening symptoms or is in a group at high risk for complications.

What are some of the challenges that you have faced during the COVID-19 pandemic regarding the management of patients with acute URIs? What have you found in terms of solutions, and where do gaps in quality of care persist? Please add your comments. I will review and circle back with a response. Thank you!

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

It’s upper respiratory infection (URI) season. The following is a clinical scenario drawn from my own practice. I’ll tell you what I plan to do, but I’m most interested in crowdsourcing a response from all of you to collectively determine best practice. So please answer the polling questions and contribute your thoughts in the comments, whether you agree or disagree with me.

The patient

The patient is a 69-year-old woman with a 3-day history of cough, nasal congestion, malaise, tactile fever, and poor appetite. She has no sick contacts. She denies dyspnea, presyncope, and chest pain. She has tried guaifenesin and ibuprofen for her symptoms, which helped a little.

She is up to date on immunizations, including four doses of COVID-19 vaccine and the influenza vaccine, which she received 2 months ago.

The patient has a history of heart failure with reduced ejection fraction, coronary artery disease, hypertension, chronic kidney disease stage 3aA2, obesity, and osteoarthritis. Current medications include atorvastatin, losartan, metoprolol, and aspirin.

Her weight is stable at 212 lb, and her vital signs today are:

• Temperature: 37.5° C
• Pulse: 60 beats/min
• Blood pressure: 150/88 mm Hg
• Respiration rate: 14 breaths/min
• SpO₂: 93% on room air

What information is most critical before deciding on management?

Your peers chose: 

• The patient’s history of viral URIs

 14%

 

• Whether her cough is productive and the color of the sputum

 38%

 

• How well this season’s flu vaccine matches circulating influenza viruses

 8%

 

• Local epidemiology of major viral pathogens (e.g., SARS-CoV-2, influenza, RSV)

 40%
 

Dr. Vega’s take

To provide the best care for our patients when they are threatened with multiple viral upper respiratory pathogens, it is imperative that clinicians have some idea regarding the epidemiology of viral infections, with as much local data as possible. This knowledge will help direct appropriate testing and treatment.

Modern viral molecular testing platforms are highly accurate, but they are not infallible. Small flaws in specificity and sensitivity of testing are magnified when community viral circulation is low. In a U.K. study conducted during a period of low COVID-19 prevalence, the positive predictive value of reverse-transcriptase polymerase chain reaction (RT-PCR) testing was just 16%. Although the negative predictive value was much higher, the false-positive rate of testing was still 0.5%. The authors of the study describe important potential consequences of false-positive results, such as being temporarily removed from an organ transplant list and unnecessary contact tracing.
 

Testing and treatment

Your county public health department maintains a website describing local activity of SARS-CoV-2 and influenza. Both viruses are in heavy circulation now.

What is the next best step in this patient’s management?

Your peers chose: 

• Treat empirically with ritonavir-boosted nirmatrelvir

 7%

 

• Treat empirically with oseltamivir or baloxavir

 14%

 

• Perform lab-based multiplex RT-PCR testing and wait to treat on the basis of results

 34%

 

• Perform rapid nucleic acid amplification testing (NAAT) and treat on the basis of results

 45%

Every practice has different resources and should use the best means available to treat patients. Ideally, this patient would undergo rapid NAAT with results available within 30 minutes. Test results will help guide not only treatment decisions but also infection-control measures.

The Infectious Diseases Society of America has provided updates for testing for URIs since the onset of the COVID-19 pandemic. Both laboratory-based and point-of-care rapid NAATs are recommended for testing. Rapid NAATs have been demonstrated to have a sensitivity of 96% and specificity of 100% in the detection of SARS-CoV-2. Obviously, they also offer a highly efficient means to make treatment and isolation decisions.

There are multiple platforms for molecular testing available. Laboratory-based platforms can test for dozens of potential pathogens, including bacteria. Rapid NAATs often have the ability to test for SARS-CoV-2, influenza, and respiratory syncytial virus (RSV). This functionality is important, because these infections generally are difficult to discriminate on the basis of clinical information alone.

The IDSA clearly recognizes the challenges of trying to manage cases of URI. For example, they state that testing of the anterior nares (AN) or oropharynx (OP) is acceptable, even though testing from the nasopharynx offers increased sensitivity. However, testing at the AN/OP allows for patient self-collection of samples, which is also recommended as an option by the IDSA. In an analysis of six cohort studies, the pooled sensitivity of patient-collected nasopharyngeal samples from the AN/OP was 88%, whereas the respective value for samples taken by health care providers was 95%.

The U.S. Centers for Disease Control and Prevention also provides recommendations for the management of patients with acute upper respiratory illness. Patients who are sick enough to be hospitalized should be tested at least for SARS-CoV-2 and influenza using molecular assays. Outpatients should be tested for SARS-CoV-2 with either molecular or antigen testing, and influenza testing should be offered if the findings will change decisions regarding treatment or isolation. Practically speaking, the recommendations for influenza testing mean that most individuals should be tested, including patients at high risk for complications of influenza and those who might have exposure to individuals at high risk.

Treatment of COVID-19 should only be provided in cases of a positive test within 5 days of symptom onset. However, clinicians may treat patients with anti-influenza medications presumptively if test results are not immediately available and the patient has worsening symptoms or is in a group at high risk for complications.

What are some of the challenges that you have faced during the COVID-19 pandemic regarding the management of patients with acute URIs? What have you found in terms of solutions, and where do gaps in quality of care persist? Please add your comments. I will review and circle back with a response. Thank you!

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

Black Americans attempt to quit smoking more often than their White counterparts but are less likely to succeed, and they pay the health consequences.

This knowledge has driven Kevin Choi, MD, acting scientific director of the National Institute on Minority Health and Health Disparities in Bethesda, Md., to dedicate his career to studying the patterns and disparities of smoking among these patients.

Dr. Choi wants primary care clinicians to know not just that they have the potential to educate patients on the harms of smoking – most patients already know smoking is unhealthy – but that aiding them will likely necessitate more assertive follow-up.

To do so, “we need to understand the bigger backdrop of racial and sociological stress experienced by the Black population, which stems from both interpersonal and structural racism,” Dr. Choi said.

Not only are Black smokers more likely to try to quit, but they also tend to smoke fewer cigarettes per day than other racial groups. Yet they experience higher rates of smoking-related mortality.
 

The reasons behind the attempts

Multiple factors play into Black smokers’ lower rates of successful quitting attempts than Asian, Hispanic, White, and Native American individuals.

One reason: An estimated 85% of Black smokers smoke highly addictive menthol cigarettes. According to Dr. Choi and other experts, the tobacco industry engages in targeted marketing of menthols by sponsoring community events in predominantly Black neighborhoods and colleges with historically Black populations and by using Black culture in advertising.

“The built environment really drives a change in behavior, and we have seen that chronically in the African American population being overly targeted and now being overly addicted to nicotine,” said Daniel Kortsch, MD, a family medicine physician and chair of the Tobacco Cessation Workgroup at Denver Health.

Menthol cigarettes are more addictive than traditional cigarettes, in part because they provide a less harsh feeling in the respiratory system, owing to anti-tussive, anti-irritant, and cooling properties that act as a cough suppressant and mask irritation and pain.

“You do not feel like you’re smoking that much or that it’s dangerous, and that’s exactly the reason why it’s harder to quit,” said Julia Adamian, MD, section chief of general internal medicine and clinical innovation at NYU Langone Tisch Hospital.

In addition, menthol cigarettes interact with the body in complex ways that make quitting harder, according to a study published in Nicotine & Tobacco Research. Menthol increases the amount of nicotine that the body absorbs and thus increases the risk of dependence on the drug.

According to Dr. Choi, rates of cigar and cigarillo use are higher among Black Americans, compared with other races, and these products are often left out of cessation programs. Smokers, regardless of race, may have a misguided belief that cigars and cigarillos are less harmful than cigarettes.

Research published in 2021 found that Black cigar smokers who were interested in cessation had not been asked by their health care provider if they smoked cigars, and those who were asked reported a lack of support for cessation.

Primary care providers should work to remove any misconceptions a patient has regarding the safety of cigarillos and cigars, Dr. Choi said.

These smokers are also at a disadvantage regarding cessation success because of the neighborhoods they may live in, according to Dr. Choi. Black Americans are more likely to earn less and to live in neighborhoods with lower housing values than other racial groups. Areas with more low-income households tend to have a higher density of tobacco outlets.

“If you’re trying to quit smoking, but you walk by three, four, or five gas stations, convenience stores, and other tobacco outlets with signs that advertise sales, it’s not going to make quitting easy,” Dr. Choi said.
 

Tailoring treatment to Black smokers

Considering the unique challenges Black patients may face in quitting, clinicians should provide more follow-up and consistent support, according to Dr. Adamian. The higher risk of tobacco-related death among Black smokers means clinicians need to be more aggressive in recommending every treatment possible if one treatment fails.

Pharmacotherapy, nicotine replacement therapy, and counseling are evidence-based options to help patients stop smoking.

Dr. Kortsch considers pharmacotherapy to be the most effective and evidence-based treatment for nicotine addiction. However, Black Americans are less likely than White smokers to try smoking cessation medications, and they express more suspicion about efficacy and potential addiction to the tools.

“African American populations simply do not use pharmacotherapy to the extent that other populations do to help them quit smoking; this is a problem,” Dr. Kortsch said.

Dr. Kortsch recommends the use of varenicline for all patients with nicotine addiction. He recommends varenicline in combination with tobacco replacement products such as lozenges, patches, gums, or inhalers if the patient is a heavy smoker as opposed to someone who has a few cigarettes on the weekends.

If a patient has anxiety or depression, Dr. Adamian advises initiating a pharmacologic treatment such as bupropion or varenicline more quickly, because mood disorders can hinder cessation.

Cessation counseling is another option, but clinicians may need to more thoroughly explain what it entails. According to Dr. Choi, Black patients may be more reluctant to try cessation counseling because of the negative stigma associated with the term “counseling.” But this treatment is not therapy – it involves identifying and coming up with strategies to manage smoking triggers and providing encouragement. Clinicians can eliminate any confusion patients may have between psychological therapy and cessation counseling.

“ ‘Counseling’ tends to have a somewhat negative connotation among racial minority populations, like you go to counseling because you’re crazy,” Dr. Choi said. “That needs to change.”

Clinicians also must clarify how each cessation tool works. For example, some patients may not realize that the nicotine patch isn’t an instant fix for a craving and that hours may pass before the user feels its effects, according to Dr. Choi.
 

Move past the ‘advise’ stage

While recommending to patients various forms of cessation, clinicians should be mindful of the U.S. Preventive Services Task Force’s guidelines for providers who treat patients who smoke. Those guidelines include a five-step process: Ask, Advise, Assess, Assist, and Arrange.

Dr. Choi said most providers stop at the “Advise” stage. In steps one and two, providers ask patients whether they smoke, then advise them to quit. Stage three involves asking whether or not a patient is ready to quit and where they are in their journey.

Clinicians shouldn’t give up when patients say they do not currently plan to quit. Instead, they can use the conversation to create an ongoing dialogue about the patient’s readiness to quit in future visits. Follow-up phone calls or text messages should be made 2-4 weeks after a patient makes an attempt to quit and at the same interval thereafter, Dr. Adamian advised.

“It takes a concerted effort on behalf of all people to be successful, and it is really uncommon for someone to be successful with only one attempt,” Dr. Kortsch said.

In a recent study published in the Journal of the American Medical Association, researchers identified three key factors that influence a Black smoker’s ability to stop smoking in early attempts. These factors have been shown to increase the chances of long-term cessation: fewer cigarettes per day, nonuse of other tobacco products, and lower levels of cotinine (a nicotine metabolite) at baseline.

“Using these predictors of early treatment response could allow providers to anticipate which smokers may benefit from a minimal, low-cost intervention and who may benefit from more intensive treatment,” said Eleanor Leavens, PhD, assistant professor in the department of population health at the University of Kansas School of Medicine, Kansas City, who led the study.

Dr. Leavens’ research also confirmed that early abstinence predicts long-term cessation success. Smokers who were able to forgo cigarettes within 2 weeks of their quit date were almost four times more likely to remain abstinent over the long term.

A quick phone call or message from the clinician or a staff member can help patients achieve early progress, enable changes in approach to quitting, and build a relationship with the patient, Dr. Adamian said.

“Have more empathy for what Black patients are going through,” Dr. Choi said. “Continue to cheer them on and to be a supporter of their smoking cessation journey.”

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

Black Americans attempt to quit smoking more often than their White counterparts but are less likely to succeed, and they pay the health consequences.

This knowledge has driven Kevin Choi, MD, acting scientific director of the National Institute on Minority Health and Health Disparities in Bethesda, Md., to dedicate his career to studying the patterns and disparities of smoking among these patients.

Dr. Choi wants primary care clinicians to know not just that they have the potential to educate patients on the harms of smoking – most patients already know smoking is unhealthy – but that aiding them will likely necessitate more assertive follow-up.

To do so, “we need to understand the bigger backdrop of racial and sociological stress experienced by the Black population, which stems from both interpersonal and structural racism,” Dr. Choi said.

Not only are Black smokers more likely to try to quit, but they also tend to smoke fewer cigarettes per day than other racial groups. Yet they experience higher rates of smoking-related mortality.
 

The reasons behind the attempts

Multiple factors play into Black smokers’ lower rates of successful quitting attempts than Asian, Hispanic, White, and Native American individuals.

One reason: An estimated 85% of Black smokers smoke highly addictive menthol cigarettes. According to Dr. Choi and other experts, the tobacco industry engages in targeted marketing of menthols by sponsoring community events in predominantly Black neighborhoods and colleges with historically Black populations and by using Black culture in advertising.

“The built environment really drives a change in behavior, and we have seen that chronically in the African American population being overly targeted and now being overly addicted to nicotine,” said Daniel Kortsch, MD, a family medicine physician and chair of the Tobacco Cessation Workgroup at Denver Health.

Menthol cigarettes are more addictive than traditional cigarettes, in part because they provide a less harsh feeling in the respiratory system, owing to anti-tussive, anti-irritant, and cooling properties that act as a cough suppressant and mask irritation and pain.

“You do not feel like you’re smoking that much or that it’s dangerous, and that’s exactly the reason why it’s harder to quit,” said Julia Adamian, MD, section chief of general internal medicine and clinical innovation at NYU Langone Tisch Hospital.

In addition, menthol cigarettes interact with the body in complex ways that make quitting harder, according to a study published in Nicotine & Tobacco Research. Menthol increases the amount of nicotine that the body absorbs and thus increases the risk of dependence on the drug.

According to Dr. Choi, rates of cigar and cigarillo use are higher among Black Americans, compared with other races, and these products are often left out of cessation programs. Smokers, regardless of race, may have a misguided belief that cigars and cigarillos are less harmful than cigarettes.

Research published in 2021 found that Black cigar smokers who were interested in cessation had not been asked by their health care provider if they smoked cigars, and those who were asked reported a lack of support for cessation.

Primary care providers should work to remove any misconceptions a patient has regarding the safety of cigarillos and cigars, Dr. Choi said.

These smokers are also at a disadvantage regarding cessation success because of the neighborhoods they may live in, according to Dr. Choi. Black Americans are more likely to earn less and to live in neighborhoods with lower housing values than other racial groups. Areas with more low-income households tend to have a higher density of tobacco outlets.

“If you’re trying to quit smoking, but you walk by three, four, or five gas stations, convenience stores, and other tobacco outlets with signs that advertise sales, it’s not going to make quitting easy,” Dr. Choi said.
 

Tailoring treatment to Black smokers

Considering the unique challenges Black patients may face in quitting, clinicians should provide more follow-up and consistent support, according to Dr. Adamian. The higher risk of tobacco-related death among Black smokers means clinicians need to be more aggressive in recommending every treatment possible if one treatment fails.

Pharmacotherapy, nicotine replacement therapy, and counseling are evidence-based options to help patients stop smoking.

Dr. Kortsch considers pharmacotherapy to be the most effective and evidence-based treatment for nicotine addiction. However, Black Americans are less likely than White smokers to try smoking cessation medications, and they express more suspicion about efficacy and potential addiction to the tools.

“African American populations simply do not use pharmacotherapy to the extent that other populations do to help them quit smoking; this is a problem,” Dr. Kortsch said.

Dr. Kortsch recommends the use of varenicline for all patients with nicotine addiction. He recommends varenicline in combination with tobacco replacement products such as lozenges, patches, gums, or inhalers if the patient is a heavy smoker as opposed to someone who has a few cigarettes on the weekends.

If a patient has anxiety or depression, Dr. Adamian advises initiating a pharmacologic treatment such as bupropion or varenicline more quickly, because mood disorders can hinder cessation.

Cessation counseling is another option, but clinicians may need to more thoroughly explain what it entails. According to Dr. Choi, Black patients may be more reluctant to try cessation counseling because of the negative stigma associated with the term “counseling.” But this treatment is not therapy – it involves identifying and coming up with strategies to manage smoking triggers and providing encouragement. Clinicians can eliminate any confusion patients may have between psychological therapy and cessation counseling.

“ ‘Counseling’ tends to have a somewhat negative connotation among racial minority populations, like you go to counseling because you’re crazy,” Dr. Choi said. “That needs to change.”

Clinicians also must clarify how each cessation tool works. For example, some patients may not realize that the nicotine patch isn’t an instant fix for a craving and that hours may pass before the user feels its effects, according to Dr. Choi.
 

Move past the ‘advise’ stage

While recommending to patients various forms of cessation, clinicians should be mindful of the U.S. Preventive Services Task Force’s guidelines for providers who treat patients who smoke. Those guidelines include a five-step process: Ask, Advise, Assess, Assist, and Arrange.

Dr. Choi said most providers stop at the “Advise” stage. In steps one and two, providers ask patients whether they smoke, then advise them to quit. Stage three involves asking whether or not a patient is ready to quit and where they are in their journey.

Clinicians shouldn’t give up when patients say they do not currently plan to quit. Instead, they can use the conversation to create an ongoing dialogue about the patient’s readiness to quit in future visits. Follow-up phone calls or text messages should be made 2-4 weeks after a patient makes an attempt to quit and at the same interval thereafter, Dr. Adamian advised.

“It takes a concerted effort on behalf of all people to be successful, and it is really uncommon for someone to be successful with only one attempt,” Dr. Kortsch said.

In a recent study published in the Journal of the American Medical Association, researchers identified three key factors that influence a Black smoker’s ability to stop smoking in early attempts. These factors have been shown to increase the chances of long-term cessation: fewer cigarettes per day, nonuse of other tobacco products, and lower levels of cotinine (a nicotine metabolite) at baseline.

“Using these predictors of early treatment response could allow providers to anticipate which smokers may benefit from a minimal, low-cost intervention and who may benefit from more intensive treatment,” said Eleanor Leavens, PhD, assistant professor in the department of population health at the University of Kansas School of Medicine, Kansas City, who led the study.

Dr. Leavens’ research also confirmed that early abstinence predicts long-term cessation success. Smokers who were able to forgo cigarettes within 2 weeks of their quit date were almost four times more likely to remain abstinent over the long term.

A quick phone call or message from the clinician or a staff member can help patients achieve early progress, enable changes in approach to quitting, and build a relationship with the patient, Dr. Adamian said.

“Have more empathy for what Black patients are going through,” Dr. Choi said. “Continue to cheer them on and to be a supporter of their smoking cessation journey.”

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

Black Americans attempt to quit smoking more often than their White counterparts but are less likely to succeed, and they pay the health consequences.

This knowledge has driven Kevin Choi, MD, acting scientific director of the National Institute on Minority Health and Health Disparities in Bethesda, Md., to dedicate his career to studying the patterns and disparities of smoking among these patients.

Dr. Choi wants primary care clinicians to know not just that they have the potential to educate patients on the harms of smoking – most patients already know smoking is unhealthy – but that aiding them will likely necessitate more assertive follow-up.

To do so, “we need to understand the bigger backdrop of racial and sociological stress experienced by the Black population, which stems from both interpersonal and structural racism,” Dr. Choi said.

Not only are Black smokers more likely to try to quit, but they also tend to smoke fewer cigarettes per day than other racial groups. Yet they experience higher rates of smoking-related mortality.
 

The reasons behind the attempts

Multiple factors play into Black smokers’ lower rates of successful quitting attempts than Asian, Hispanic, White, and Native American individuals.

One reason: An estimated 85% of Black smokers smoke highly addictive menthol cigarettes. According to Dr. Choi and other experts, the tobacco industry engages in targeted marketing of menthols by sponsoring community events in predominantly Black neighborhoods and colleges with historically Black populations and by using Black culture in advertising.

“The built environment really drives a change in behavior, and we have seen that chronically in the African American population being overly targeted and now being overly addicted to nicotine,” said Daniel Kortsch, MD, a family medicine physician and chair of the Tobacco Cessation Workgroup at Denver Health.

Menthol cigarettes are more addictive than traditional cigarettes, in part because they provide a less harsh feeling in the respiratory system, owing to anti-tussive, anti-irritant, and cooling properties that act as a cough suppressant and mask irritation and pain.

“You do not feel like you’re smoking that much or that it’s dangerous, and that’s exactly the reason why it’s harder to quit,” said Julia Adamian, MD, section chief of general internal medicine and clinical innovation at NYU Langone Tisch Hospital.

In addition, menthol cigarettes interact with the body in complex ways that make quitting harder, according to a study published in Nicotine & Tobacco Research. Menthol increases the amount of nicotine that the body absorbs and thus increases the risk of dependence on the drug.

According to Dr. Choi, rates of cigar and cigarillo use are higher among Black Americans, compared with other races, and these products are often left out of cessation programs. Smokers, regardless of race, may have a misguided belief that cigars and cigarillos are less harmful than cigarettes.

Research published in 2021 found that Black cigar smokers who were interested in cessation had not been asked by their health care provider if they smoked cigars, and those who were asked reported a lack of support for cessation.

Primary care providers should work to remove any misconceptions a patient has regarding the safety of cigarillos and cigars, Dr. Choi said.

These smokers are also at a disadvantage regarding cessation success because of the neighborhoods they may live in, according to Dr. Choi. Black Americans are more likely to earn less and to live in neighborhoods with lower housing values than other racial groups. Areas with more low-income households tend to have a higher density of tobacco outlets.

“If you’re trying to quit smoking, but you walk by three, four, or five gas stations, convenience stores, and other tobacco outlets with signs that advertise sales, it’s not going to make quitting easy,” Dr. Choi said.
 

Tailoring treatment to Black smokers

Considering the unique challenges Black patients may face in quitting, clinicians should provide more follow-up and consistent support, according to Dr. Adamian. The higher risk of tobacco-related death among Black smokers means clinicians need to be more aggressive in recommending every treatment possible if one treatment fails.

Pharmacotherapy, nicotine replacement therapy, and counseling are evidence-based options to help patients stop smoking.

Dr. Kortsch considers pharmacotherapy to be the most effective and evidence-based treatment for nicotine addiction. However, Black Americans are less likely than White smokers to try smoking cessation medications, and they express more suspicion about efficacy and potential addiction to the tools.

“African American populations simply do not use pharmacotherapy to the extent that other populations do to help them quit smoking; this is a problem,” Dr. Kortsch said.

Dr. Kortsch recommends the use of varenicline for all patients with nicotine addiction. He recommends varenicline in combination with tobacco replacement products such as lozenges, patches, gums, or inhalers if the patient is a heavy smoker as opposed to someone who has a few cigarettes on the weekends.

If a patient has anxiety or depression, Dr. Adamian advises initiating a pharmacologic treatment such as bupropion or varenicline more quickly, because mood disorders can hinder cessation.

Cessation counseling is another option, but clinicians may need to more thoroughly explain what it entails. According to Dr. Choi, Black patients may be more reluctant to try cessation counseling because of the negative stigma associated with the term “counseling.” But this treatment is not therapy – it involves identifying and coming up with strategies to manage smoking triggers and providing encouragement. Clinicians can eliminate any confusion patients may have between psychological therapy and cessation counseling.

“ ‘Counseling’ tends to have a somewhat negative connotation among racial minority populations, like you go to counseling because you’re crazy,” Dr. Choi said. “That needs to change.”

Clinicians also must clarify how each cessation tool works. For example, some patients may not realize that the nicotine patch isn’t an instant fix for a craving and that hours may pass before the user feels its effects, according to Dr. Choi.
 

Move past the ‘advise’ stage

While recommending to patients various forms of cessation, clinicians should be mindful of the U.S. Preventive Services Task Force’s guidelines for providers who treat patients who smoke. Those guidelines include a five-step process: Ask, Advise, Assess, Assist, and Arrange.

Dr. Choi said most providers stop at the “Advise” stage. In steps one and two, providers ask patients whether they smoke, then advise them to quit. Stage three involves asking whether or not a patient is ready to quit and where they are in their journey.

Clinicians shouldn’t give up when patients say they do not currently plan to quit. Instead, they can use the conversation to create an ongoing dialogue about the patient’s readiness to quit in future visits. Follow-up phone calls or text messages should be made 2-4 weeks after a patient makes an attempt to quit and at the same interval thereafter, Dr. Adamian advised.

“It takes a concerted effort on behalf of all people to be successful, and it is really uncommon for someone to be successful with only one attempt,” Dr. Kortsch said.

In a recent study published in the Journal of the American Medical Association, researchers identified three key factors that influence a Black smoker’s ability to stop smoking in early attempts. These factors have been shown to increase the chances of long-term cessation: fewer cigarettes per day, nonuse of other tobacco products, and lower levels of cotinine (a nicotine metabolite) at baseline.

“Using these predictors of early treatment response could allow providers to anticipate which smokers may benefit from a minimal, low-cost intervention and who may benefit from more intensive treatment,” said Eleanor Leavens, PhD, assistant professor in the department of population health at the University of Kansas School of Medicine, Kansas City, who led the study.

Dr. Leavens’ research also confirmed that early abstinence predicts long-term cessation success. Smokers who were able to forgo cigarettes within 2 weeks of their quit date were almost four times more likely to remain abstinent over the long term.

A quick phone call or message from the clinician or a staff member can help patients achieve early progress, enable changes in approach to quitting, and build a relationship with the patient, Dr. Adamian said.

“Have more empathy for what Black patients are going through,” Dr. Choi said. “Continue to cheer them on and to be a supporter of their smoking cessation journey.”

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

Extracorporeal membrane oxygen support appears to be beneficial in patients with advanced interstitial lung disease (ILD), according to a new meta-analysis. Specifically, among patients undergoing ECMO as a bridge to transplant, mortality was lower with venoarterial (VA) ECMO than with venovenous (VV) ECMO, although the confidence in the finding was low.

ECMO has been used increasingly in ILD patients over the past 10-15 years for acute decompensation as well as a bridge to lung transplant, according to Prasanth Balasubramanian, MD, but clinical evidence for its use is limited to case series or short-term retrospective studies. “We don’t have robust evidence on whether it really helps with the outcome, and which mode is better, so that’s why we decided to do a study on this,” said Dr. Balasubramanian, who is a fellow in pulmonary critical care at Mayo Clinic (Jacksonville, Fla.). He presented the new research at the annual meeting of the American College of Chest Physicians (CHEST).

The results were encouraging, according to the study’s lead author Pramod Guru, MD. “I think what we take from this analysis is that ECMO should not be considered as a contraindication for people you are considering for lung transplant. If we have this population of people who are very sick, but we have the opportunity to solve them with VA ECMO and then give the transplantation possibly, that may be the way,” said Dr. Guru, who is a critical care specialist at Mayo Clinic, Jacksonville, Fla. He acknowledged that more work needs to be done to determine whether VA or VV is best in specific patient populations.

The meta-analysis included 18 studies with a total of 1,341 patients, who were a mean age of 55.89 years and 61.08% of whom were male. Most procedures (75.3%) were VV. The overall mortality was 52.6%, including 59.7% for VV ECMO and 34.2% for VA ECMO. The survival difference did not reach statistical significance (odds ratio, 0.48; P = .11). There was also no significant difference in survival between patients who underwent ECMO and those who did not undergo ECMO (OR, 0.48; P = .43).

The researchers also analyzed 13 studies with 1,002 patients that looked at ECMO as a bridge to transplant (mean age, 52.1; 52.2% male; 49.3% VV, 31.1% VA, 32.4% cardiopulmonary bypass). Mortality was lower in the VA group than in the VV group (odds ratio, 0.62; P = .04).

“VA ECMO is generally for sicker patients, so it’s odd that the patients who are on the more aggressive support had lower mortality. But it’s good, it says it works,” said Chris Carroll, MD, an intensivist at the University of Florida, Jacksonville, who was asked to comment on the study.

The finding may also be an artifact of bias in the retrospective data, according to Joshua Diamond, MD, who comoderated the session where the study was presented. He noted age, physical function, and illness severity, among other factors can play a role in decision-making. “I have a feeling that what you’re seeing is a very carefully selected patient population as opposed to a true mortality benefit with VA versus VV ECMO,” said Dr. Diamond, who is associate medical director of the Penn Lung Transplant Program in Philadelphia.

Another weakness of the study is that ECMO techniques and devices have changed over time, making some of the older data less relevant to current practice. Overall Dr. Diamond described the study as interesting, but “I’d like to see a bit more granularity of data to figure out who makes or doesn’t make a good candidate,” said Dr. Diamond.

Patients with ILD undergoing ECMO as a bridge to transplant had a higher 1-year posttransplant mortality than patients with other causes for transplant (OR, 1.78; P<.01). However, this finding relied on two retrospective studies using the UNOS database at different time points (2001-2012 and 2015-2020), leading to potential confounders and risk of bias.

Dr. Balasubramanian recognized the limitations of the analysis. “We do think that further prospective studies comparing various modalities would be essential, although it would be challenging,” he said.

Nevertheless, Dr. Guru said that his own center is changing its patient selection criteria for ECMO and will begin to collect prospective data: “I would say that in 12 months we’ll have our own data to support what we are doing.”

The study can also inform patients and family who are trying to make a potential end-of-life decision about pursuing aggressive ECMO therapy. “This study says that if you choose to pursue that more aggressive therapy, you may still have a good outcome. A patient might say, ‘Why am I going to go through all this? Is it just prolonging my death, or is there a chance of saving my life? I think what this study shows is that it does have potential of saving their life,” said Dr. Carroll.

Dr. Balasubramanian, Dr. Guru, and Dr. Carroll have no relevant financial disclosures.

Extracorporeal membrane oxygen support appears to be beneficial in patients with advanced interstitial lung disease (ILD), according to a new meta-analysis. Specifically, among patients undergoing ECMO as a bridge to transplant, mortality was lower with venoarterial (VA) ECMO than with venovenous (VV) ECMO, although the confidence in the finding was low.

ECMO has been used increasingly in ILD patients over the past 10-15 years for acute decompensation as well as a bridge to lung transplant, according to Prasanth Balasubramanian, MD, but clinical evidence for its use is limited to case series or short-term retrospective studies. “We don’t have robust evidence on whether it really helps with the outcome, and which mode is better, so that’s why we decided to do a study on this,” said Dr. Balasubramanian, who is a fellow in pulmonary critical care at Mayo Clinic (Jacksonville, Fla.). He presented the new research at the annual meeting of the American College of Chest Physicians (CHEST).

The results were encouraging, according to the study’s lead author Pramod Guru, MD. “I think what we take from this analysis is that ECMO should not be considered as a contraindication for people you are considering for lung transplant. If we have this population of people who are very sick, but we have the opportunity to solve them with VA ECMO and then give the transplantation possibly, that may be the way,” said Dr. Guru, who is a critical care specialist at Mayo Clinic, Jacksonville, Fla. He acknowledged that more work needs to be done to determine whether VA or VV is best in specific patient populations.

The meta-analysis included 18 studies with a total of 1,341 patients, who were a mean age of 55.89 years and 61.08% of whom were male. Most procedures (75.3%) were VV. The overall mortality was 52.6%, including 59.7% for VV ECMO and 34.2% for VA ECMO. The survival difference did not reach statistical significance (odds ratio, 0.48; P = .11). There was also no significant difference in survival between patients who underwent ECMO and those who did not undergo ECMO (OR, 0.48; P = .43).

The researchers also analyzed 13 studies with 1,002 patients that looked at ECMO as a bridge to transplant (mean age, 52.1; 52.2% male; 49.3% VV, 31.1% VA, 32.4% cardiopulmonary bypass). Mortality was lower in the VA group than in the VV group (odds ratio, 0.62; P = .04).

“VA ECMO is generally for sicker patients, so it’s odd that the patients who are on the more aggressive support had lower mortality. But it’s good, it says it works,” said Chris Carroll, MD, an intensivist at the University of Florida, Jacksonville, who was asked to comment on the study.

The finding may also be an artifact of bias in the retrospective data, according to Joshua Diamond, MD, who comoderated the session where the study was presented. He noted age, physical function, and illness severity, among other factors can play a role in decision-making. “I have a feeling that what you’re seeing is a very carefully selected patient population as opposed to a true mortality benefit with VA versus VV ECMO,” said Dr. Diamond, who is associate medical director of the Penn Lung Transplant Program in Philadelphia.

Another weakness of the study is that ECMO techniques and devices have changed over time, making some of the older data less relevant to current practice. Overall Dr. Diamond described the study as interesting, but “I’d like to see a bit more granularity of data to figure out who makes or doesn’t make a good candidate,” said Dr. Diamond.

Patients with ILD undergoing ECMO as a bridge to transplant had a higher 1-year posttransplant mortality than patients with other causes for transplant (OR, 1.78; P<.01). However, this finding relied on two retrospective studies using the UNOS database at different time points (2001-2012 and 2015-2020), leading to potential confounders and risk of bias.

Dr. Balasubramanian recognized the limitations of the analysis. “We do think that further prospective studies comparing various modalities would be essential, although it would be challenging,” he said.

Nevertheless, Dr. Guru said that his own center is changing its patient selection criteria for ECMO and will begin to collect prospective data: “I would say that in 12 months we’ll have our own data to support what we are doing.”

The study can also inform patients and family who are trying to make a potential end-of-life decision about pursuing aggressive ECMO therapy. “This study says that if you choose to pursue that more aggressive therapy, you may still have a good outcome. A patient might say, ‘Why am I going to go through all this? Is it just prolonging my death, or is there a chance of saving my life? I think what this study shows is that it does have potential of saving their life,” said Dr. Carroll.

Dr. Balasubramanian, Dr. Guru, and Dr. Carroll have no relevant financial disclosures.

Extracorporeal membrane oxygen support appears to be beneficial in patients with advanced interstitial lung disease (ILD), according to a new meta-analysis. Specifically, among patients undergoing ECMO as a bridge to transplant, mortality was lower with venoarterial (VA) ECMO than with venovenous (VV) ECMO, although the confidence in the finding was low.

ECMO has been used increasingly in ILD patients over the past 10-15 years for acute decompensation as well as a bridge to lung transplant, according to Prasanth Balasubramanian, MD, but clinical evidence for its use is limited to case series or short-term retrospective studies. “We don’t have robust evidence on whether it really helps with the outcome, and which mode is better, so that’s why we decided to do a study on this,” said Dr. Balasubramanian, who is a fellow in pulmonary critical care at Mayo Clinic (Jacksonville, Fla.). He presented the new research at the annual meeting of the American College of Chest Physicians (CHEST).

The results were encouraging, according to the study’s lead author Pramod Guru, MD. “I think what we take from this analysis is that ECMO should not be considered as a contraindication for people you are considering for lung transplant. If we have this population of people who are very sick, but we have the opportunity to solve them with VA ECMO and then give the transplantation possibly, that may be the way,” said Dr. Guru, who is a critical care specialist at Mayo Clinic, Jacksonville, Fla. He acknowledged that more work needs to be done to determine whether VA or VV is best in specific patient populations.

The meta-analysis included 18 studies with a total of 1,341 patients, who were a mean age of 55.89 years and 61.08% of whom were male. Most procedures (75.3%) were VV. The overall mortality was 52.6%, including 59.7% for VV ECMO and 34.2% for VA ECMO. The survival difference did not reach statistical significance (odds ratio, 0.48; P = .11). There was also no significant difference in survival between patients who underwent ECMO and those who did not undergo ECMO (OR, 0.48; P = .43).

The researchers also analyzed 13 studies with 1,002 patients that looked at ECMO as a bridge to transplant (mean age, 52.1; 52.2% male; 49.3% VV, 31.1% VA, 32.4% cardiopulmonary bypass). Mortality was lower in the VA group than in the VV group (odds ratio, 0.62; P = .04).

“VA ECMO is generally for sicker patients, so it’s odd that the patients who are on the more aggressive support had lower mortality. But it’s good, it says it works,” said Chris Carroll, MD, an intensivist at the University of Florida, Jacksonville, who was asked to comment on the study.

The finding may also be an artifact of bias in the retrospective data, according to Joshua Diamond, MD, who comoderated the session where the study was presented. He noted age, physical function, and illness severity, among other factors can play a role in decision-making. “I have a feeling that what you’re seeing is a very carefully selected patient population as opposed to a true mortality benefit with VA versus VV ECMO,” said Dr. Diamond, who is associate medical director of the Penn Lung Transplant Program in Philadelphia.

Another weakness of the study is that ECMO techniques and devices have changed over time, making some of the older data less relevant to current practice. Overall Dr. Diamond described the study as interesting, but “I’d like to see a bit more granularity of data to figure out who makes or doesn’t make a good candidate,” said Dr. Diamond.

Patients with ILD undergoing ECMO as a bridge to transplant had a higher 1-year posttransplant mortality than patients with other causes for transplant (OR, 1.78; P<.01). However, this finding relied on two retrospective studies using the UNOS database at different time points (2001-2012 and 2015-2020), leading to potential confounders and risk of bias.

Dr. Balasubramanian recognized the limitations of the analysis. “We do think that further prospective studies comparing various modalities would be essential, although it would be challenging,” he said.

Nevertheless, Dr. Guru said that his own center is changing its patient selection criteria for ECMO and will begin to collect prospective data: “I would say that in 12 months we’ll have our own data to support what we are doing.”

The study can also inform patients and family who are trying to make a potential end-of-life decision about pursuing aggressive ECMO therapy. “This study says that if you choose to pursue that more aggressive therapy, you may still have a good outcome. A patient might say, ‘Why am I going to go through all this? Is it just prolonging my death, or is there a chance of saving my life? I think what this study shows is that it does have potential of saving their life,” said Dr. Carroll.

Dr. Balasubramanian, Dr. Guru, and Dr. Carroll have no relevant financial disclosures.

Hospitalized patients with both asthma and eosinophilic esophagitis (EoE) were a younger average age than those hospitalized with asthma alone, according to a new analysis of data from HCA Healthcare.

Not much work has been done on the overlap between the two conditions, both of which are believed to be driven by the action of both eosinophils and helper T cells, according to Linda Pham, DO, who presented the research at the annual meeting of the American College of Chest Physicians (CHEST).

“I have a colleague who is interested in GI and he’s really interested in EOE. We thought it would be nice to look at those populations of patients to see if there’s a correlation between them aside from just the atopic disease,” said Dr. Pham, who is an internal medicine resident at Riverside (Calif.) Community Hospital.

The findings underscore the need for assessing individual patient risk. “Having another concomitant disease like EoE, or maybe like atopic dermatitis, might cause you to have more severe [asthma] exacerbations causing you to go into the hospital more. I think if patients have more of these diseases, doctors can be more cognizant that they need to really be on top of treatment and make sure that [their patients] are aware of themselves so that if their symptoms exacerbate, they can go to the hospital and seek care,” said Dr. Pham.

The study was a retrospective analysis of 3,678,812 patients with asthma and 5,823 patients with both EoE and asthma. The data was drawn from 185 HCA hospitals, with records between 2016 and 2021.

The incidence of both asthma and asthma with EoE remained stable between 2016 and 2021. Dr. Pham pointed out that there are good methods to diagnose both conditions, which suggests that existing treatments are effective enough to be limiting the need for emergency treatment, according to Dr. Pham.

Among patients hospitalized with asthma alone, 72.55% were female, while 27.45% were male (P < .001). The numbers were much more evenly split among those with asthma and EoE, at 51.78% and 48.22%, respectively. The differing gender statistics aren’t easy to explain. “It’s not quite clear whether it’s because they just have more severe symptoms, or if it is other factors causing women to seek care more than their male counterparts. It could be personal biases, or it could be the asthma itself that is more severe in women,” said Dr. Pham.

When they broke down the analysis by sex, the researchers found that male EoE patients without asthma were a mean value of 5.517 years older than male EoE patients with asthma, and the mean difference was 5.480 years in female patients (P < .001 for both).

Although the direct cause of earlier hospitalization among patients with concomitant EoE and asthma is unclear, Dr. Pham speculated that the combination of atopic diseases may be leading to a stronger inflammatory response.

It remains to be seen if a similar relationship occurs with other atopic diseases, and future research could examine other factors. “I think it’d be good to look at not just age and gender, but BMI and occupation, things like that,” said Dr. Pham.

The study was of particular interest to Michelle Robertson, MD, who was in the audience. She is the director for clinical services at the Airborne Hazards and Burn Pits Center of Excellence at the New Jersey War-Related Illness and Injury Study Center. “We see a significant number of [veterans] who have been diagnosed with both asthma and eosinophilic esophagitis, and our thinking is that that is likely related to some of the military exposures: In particular, [what the] deployed veterans encountered in the Gulf War, [such as] the smoke from burn pits, sand and dust storms, and smoke from oil well fires. Our thinking is that the particulate matter, the PM 2.5, the very, very tiny particles, may be either sensitizing the lung area and/or esophagus and predisposing them to having those symptoms when they return home,” said Dr. Robertson, in an interview.

Particles in this size range may be able to bypass the protected areas of the nose and the lungs to reach the alveoli, where they could potentially interfere with the transfer of air between the lungs and the rest of the body, which could in turn lead to a variety of inflammatory conditions, according to Dr. Robertson.

She noted that particle exposure varies with a soldier’s wartime occupation, with higher exposures among mechanics and burn pit managers, for example. However, the highest levels of exposure do not predict later illness, which is a natural prompt for future research. “The second part of this whole pathophysiology is susceptibility. Is there something about those people that do get sick that makes them more susceptible than folks that don’t, even though they both have the same jobs?”

Dr. Pham and Dr. Robertson have no relevant financial disclosures.
 

Hospitalized patients with both asthma and eosinophilic esophagitis (EoE) were a younger average age than those hospitalized with asthma alone, according to a new analysis of data from HCA Healthcare.

Not much work has been done on the overlap between the two conditions, both of which are believed to be driven by the action of both eosinophils and helper T cells, according to Linda Pham, DO, who presented the research at the annual meeting of the American College of Chest Physicians (CHEST).

“I have a colleague who is interested in GI and he’s really interested in EOE. We thought it would be nice to look at those populations of patients to see if there’s a correlation between them aside from just the atopic disease,” said Dr. Pham, who is an internal medicine resident at Riverside (Calif.) Community Hospital.

The findings underscore the need for assessing individual patient risk. “Having another concomitant disease like EoE, or maybe like atopic dermatitis, might cause you to have more severe [asthma] exacerbations causing you to go into the hospital more. I think if patients have more of these diseases, doctors can be more cognizant that they need to really be on top of treatment and make sure that [their patients] are aware of themselves so that if their symptoms exacerbate, they can go to the hospital and seek care,” said Dr. Pham.

The study was a retrospective analysis of 3,678,812 patients with asthma and 5,823 patients with both EoE and asthma. The data was drawn from 185 HCA hospitals, with records between 2016 and 2021.

The incidence of both asthma and asthma with EoE remained stable between 2016 and 2021. Dr. Pham pointed out that there are good methods to diagnose both conditions, which suggests that existing treatments are effective enough to be limiting the need for emergency treatment, according to Dr. Pham.

Among patients hospitalized with asthma alone, 72.55% were female, while 27.45% were male (P < .001). The numbers were much more evenly split among those with asthma and EoE, at 51.78% and 48.22%, respectively. The differing gender statistics aren’t easy to explain. “It’s not quite clear whether it’s because they just have more severe symptoms, or if it is other factors causing women to seek care more than their male counterparts. It could be personal biases, or it could be the asthma itself that is more severe in women,” said Dr. Pham.

When they broke down the analysis by sex, the researchers found that male EoE patients without asthma were a mean value of 5.517 years older than male EoE patients with asthma, and the mean difference was 5.480 years in female patients (P < .001 for both).

Although the direct cause of earlier hospitalization among patients with concomitant EoE and asthma is unclear, Dr. Pham speculated that the combination of atopic diseases may be leading to a stronger inflammatory response.

It remains to be seen if a similar relationship occurs with other atopic diseases, and future research could examine other factors. “I think it’d be good to look at not just age and gender, but BMI and occupation, things like that,” said Dr. Pham.

The study was of particular interest to Michelle Robertson, MD, who was in the audience. She is the director for clinical services at the Airborne Hazards and Burn Pits Center of Excellence at the New Jersey War-Related Illness and Injury Study Center. “We see a significant number of [veterans] who have been diagnosed with both asthma and eosinophilic esophagitis, and our thinking is that that is likely related to some of the military exposures: In particular, [what the] deployed veterans encountered in the Gulf War, [such as] the smoke from burn pits, sand and dust storms, and smoke from oil well fires. Our thinking is that the particulate matter, the PM 2.5, the very, very tiny particles, may be either sensitizing the lung area and/or esophagus and predisposing them to having those symptoms when they return home,” said Dr. Robertson, in an interview.

Particles in this size range may be able to bypass the protected areas of the nose and the lungs to reach the alveoli, where they could potentially interfere with the transfer of air between the lungs and the rest of the body, which could in turn lead to a variety of inflammatory conditions, according to Dr. Robertson.

She noted that particle exposure varies with a soldier’s wartime occupation, with higher exposures among mechanics and burn pit managers, for example. However, the highest levels of exposure do not predict later illness, which is a natural prompt for future research. “The second part of this whole pathophysiology is susceptibility. Is there something about those people that do get sick that makes them more susceptible than folks that don’t, even though they both have the same jobs?”

Dr. Pham and Dr. Robertson have no relevant financial disclosures.
 

Hospitalized patients with both asthma and eosinophilic esophagitis (EoE) were a younger average age than those hospitalized with asthma alone, according to a new analysis of data from HCA Healthcare.

Not much work has been done on the overlap between the two conditions, both of which are believed to be driven by the action of both eosinophils and helper T cells, according to Linda Pham, DO, who presented the research at the annual meeting of the American College of Chest Physicians (CHEST).

“I have a colleague who is interested in GI and he’s really interested in EOE. We thought it would be nice to look at those populations of patients to see if there’s a correlation between them aside from just the atopic disease,” said Dr. Pham, who is an internal medicine resident at Riverside (Calif.) Community Hospital.

The findings underscore the need for assessing individual patient risk. “Having another concomitant disease like EoE, or maybe like atopic dermatitis, might cause you to have more severe [asthma] exacerbations causing you to go into the hospital more. I think if patients have more of these diseases, doctors can be more cognizant that they need to really be on top of treatment and make sure that [their patients] are aware of themselves so that if their symptoms exacerbate, they can go to the hospital and seek care,” said Dr. Pham.

The study was a retrospective analysis of 3,678,812 patients with asthma and 5,823 patients with both EoE and asthma. The data was drawn from 185 HCA hospitals, with records between 2016 and 2021.

The incidence of both asthma and asthma with EoE remained stable between 2016 and 2021. Dr. Pham pointed out that there are good methods to diagnose both conditions, which suggests that existing treatments are effective enough to be limiting the need for emergency treatment, according to Dr. Pham.

Among patients hospitalized with asthma alone, 72.55% were female, while 27.45% were male (P < .001). The numbers were much more evenly split among those with asthma and EoE, at 51.78% and 48.22%, respectively. The differing gender statistics aren’t easy to explain. “It’s not quite clear whether it’s because they just have more severe symptoms, or if it is other factors causing women to seek care more than their male counterparts. It could be personal biases, or it could be the asthma itself that is more severe in women,” said Dr. Pham.

When they broke down the analysis by sex, the researchers found that male EoE patients without asthma were a mean value of 5.517 years older than male EoE patients with asthma, and the mean difference was 5.480 years in female patients (P < .001 for both).

Although the direct cause of earlier hospitalization among patients with concomitant EoE and asthma is unclear, Dr. Pham speculated that the combination of atopic diseases may be leading to a stronger inflammatory response.

It remains to be seen if a similar relationship occurs with other atopic diseases, and future research could examine other factors. “I think it’d be good to look at not just age and gender, but BMI and occupation, things like that,” said Dr. Pham.

The study was of particular interest to Michelle Robertson, MD, who was in the audience. She is the director for clinical services at the Airborne Hazards and Burn Pits Center of Excellence at the New Jersey War-Related Illness and Injury Study Center. “We see a significant number of [veterans] who have been diagnosed with both asthma and eosinophilic esophagitis, and our thinking is that that is likely related to some of the military exposures: In particular, [what the] deployed veterans encountered in the Gulf War, [such as] the smoke from burn pits, sand and dust storms, and smoke from oil well fires. Our thinking is that the particulate matter, the PM 2.5, the very, very tiny particles, may be either sensitizing the lung area and/or esophagus and predisposing them to having those symptoms when they return home,” said Dr. Robertson, in an interview.

Particles in this size range may be able to bypass the protected areas of the nose and the lungs to reach the alveoli, where they could potentially interfere with the transfer of air between the lungs and the rest of the body, which could in turn lead to a variety of inflammatory conditions, according to Dr. Robertson.

She noted that particle exposure varies with a soldier’s wartime occupation, with higher exposures among mechanics and burn pit managers, for example. However, the highest levels of exposure do not predict later illness, which is a natural prompt for future research. “The second part of this whole pathophysiology is susceptibility. Is there something about those people that do get sick that makes them more susceptible than folks that don’t, even though they both have the same jobs?”

Dr. Pham and Dr. Robertson have no relevant financial disclosures.
 

HONOLULU – The diversity of species in the sputum of patients undergoing therapy for nontuberculosis mycobacterial pulmonary disease (NTM-PD) could be a marker for treatment efficacy, authors of a small prospective study suggest.

Neil Osterweil/MDedge

Among 14 patients treated for NTM-PD, 7 of whom had treatment-refractory disease and 7 of whom had microbiological cures after antibiotic therapy, the diversity of the microbiome in sputum was greater for those patients who were cured, indicating that the variety of species found in sputum during treatment could help clinicians evaluate the efficacy of therapy and guide patient management, said Noeul Kang, MD, PhD, from Samsung Medical Center in Seoul, South Korea.

“What we found was that in NTM-PD patients, the sputum of the patients who remained in long-time stabilization without recurrence exhibited higher microbiome diversity than that of treatment-refractory patients, and several genera were identified in the samples of the cured group. We hope to do more research on this, and we are planning to compare the patients who have never been treated with those who respond to treatment,” she said at the annual meeting of the American College of Chest Physicians (CHEST).
 

NTM-PD on the rise

The incidence and prevalence of NTM-PD in both South Korea and the United States have been rising steadily since 2007, with the highest incidence occurring among those 65 and older.

“NTM-PD is becoming a global burden,” Dr. Kang said.

Across the world the most commonly occurring organisms in NTM-PD patients are Mycobacterium avium complex (MAC), with other mycobacteria species varying in frequency by region.

Outcomes of treatment differ according to the etiologic organism, with M. avium complex infections being successfully treated in about 60% of patients, compared with 70% of patients’ infections with the M. abscessus massiliense, and 30%-40% of infections yielding to antibiotics in patients with M. abscessus abscessus, Dr. Kang said.

To compare the characteristics of the sputum microbiota of NTM-PD patients based on their treatment outcomes, Dr. Kang and colleagues looked at sputum from all patients with NTM-PD who agreed to provide samples at their center from 2018 through 2022.

After excluding those who did not receive antibiotics, those who were on treatment but did not have refractory disease, and those who were lost to follow-up or whose samples did not pass quality control, they identified seven patients who had microbiological cures, and seven whose disease remained refractory to treatment.

They defined culture conversion at three or more consecutive negative sputum cultures after treatment, collected at least 4 weeks apart, and microbiological cures at maintenance of multiple consecutive negative cultures without any positive cultures of the causative species from respiratory samples.

Infections were deemed to be refractory if there were sustained positive cultures from respiratory samples of causative NTM species after at least 1 year of antibiotic therapy.
 

Diversity analysis

Samples from 8 of the 14 participants had M. abscessus-PD, with the proportion higher among those who had a sustained microbiological cure (71.4% vs. 42.9%).

At baseline, patients with refractory disease were found to have significantly lower alpha diversity, a measure of microbial diversity within a single sample, compared with those whose infections were cured (P = .025).

In addition, samples at 6-month follow-up from those with baseline ­refractory infections ­had differences in the species level of beta-diversity (that is, differences among samples), compared with both baseline and follow-up samples from the cured group (P = .022 and .024, respectively).

The investigators also used linear discriminant analysis to look at taxonomic biomarkers, and observed that several species were more abundant in samples from the microbiological cure group than from the refractory disease group (P < .05) These species included organisms in the Streptococcus pneumoniae group, Prevotella melaninogenica, and Haemophilus parahaemolyticus group.
 

Promising start

A pulmonologist who was not involved in the study commented in an interview that, although the findings need further study, the microbiome of sputum samples has the potential for predictive value.

“I think this will be clinically useful, actually, if we’re able to identify and diagnose patients with MAC disease and then we identify their sputum microbiome, it might give us an idea whether these patients are more sensitive or refractory to treatment,” said Muhammad U. Khawar, MD, from the University of Cincinnati.

Dr. Khawar moderated the session where Dr. Kang reported her data.

The investigators did not report a funding source. Dr. Kang and Dr. Khawar reported that they had no relevant disclosures.
 

HONOLULU – The diversity of species in the sputum of patients undergoing therapy for nontuberculosis mycobacterial pulmonary disease (NTM-PD) could be a marker for treatment efficacy, authors of a small prospective study suggest.

Neil Osterweil/MDedge

Among 14 patients treated for NTM-PD, 7 of whom had treatment-refractory disease and 7 of whom had microbiological cures after antibiotic therapy, the diversity of the microbiome in sputum was greater for those patients who were cured, indicating that the variety of species found in sputum during treatment could help clinicians evaluate the efficacy of therapy and guide patient management, said Noeul Kang, MD, PhD, from Samsung Medical Center in Seoul, South Korea.

“What we found was that in NTM-PD patients, the sputum of the patients who remained in long-time stabilization without recurrence exhibited higher microbiome diversity than that of treatment-refractory patients, and several genera were identified in the samples of the cured group. We hope to do more research on this, and we are planning to compare the patients who have never been treated with those who respond to treatment,” she said at the annual meeting of the American College of Chest Physicians (CHEST).
 

NTM-PD on the rise

The incidence and prevalence of NTM-PD in both South Korea and the United States have been rising steadily since 2007, with the highest incidence occurring among those 65 and older.

“NTM-PD is becoming a global burden,” Dr. Kang said.

Across the world the most commonly occurring organisms in NTM-PD patients are Mycobacterium avium complex (MAC), with other mycobacteria species varying in frequency by region.

Outcomes of treatment differ according to the etiologic organism, with M. avium complex infections being successfully treated in about 60% of patients, compared with 70% of patients’ infections with the M. abscessus massiliense, and 30%-40% of infections yielding to antibiotics in patients with M. abscessus abscessus, Dr. Kang said.

To compare the characteristics of the sputum microbiota of NTM-PD patients based on their treatment outcomes, Dr. Kang and colleagues looked at sputum from all patients with NTM-PD who agreed to provide samples at their center from 2018 through 2022.

After excluding those who did not receive antibiotics, those who were on treatment but did not have refractory disease, and those who were lost to follow-up or whose samples did not pass quality control, they identified seven patients who had microbiological cures, and seven whose disease remained refractory to treatment.

They defined culture conversion at three or more consecutive negative sputum cultures after treatment, collected at least 4 weeks apart, and microbiological cures at maintenance of multiple consecutive negative cultures without any positive cultures of the causative species from respiratory samples.

Infections were deemed to be refractory if there were sustained positive cultures from respiratory samples of causative NTM species after at least 1 year of antibiotic therapy.
 

Diversity analysis

Samples from 8 of the 14 participants had M. abscessus-PD, with the proportion higher among those who had a sustained microbiological cure (71.4% vs. 42.9%).

At baseline, patients with refractory disease were found to have significantly lower alpha diversity, a measure of microbial diversity within a single sample, compared with those whose infections were cured (P = .025).

In addition, samples at 6-month follow-up from those with baseline ­refractory infections ­had differences in the species level of beta-diversity (that is, differences among samples), compared with both baseline and follow-up samples from the cured group (P = .022 and .024, respectively).

The investigators also used linear discriminant analysis to look at taxonomic biomarkers, and observed that several species were more abundant in samples from the microbiological cure group than from the refractory disease group (P < .05) These species included organisms in the Streptococcus pneumoniae group, Prevotella melaninogenica, and Haemophilus parahaemolyticus group.
 

Promising start

A pulmonologist who was not involved in the study commented in an interview that, although the findings need further study, the microbiome of sputum samples has the potential for predictive value.

“I think this will be clinically useful, actually, if we’re able to identify and diagnose patients with MAC disease and then we identify their sputum microbiome, it might give us an idea whether these patients are more sensitive or refractory to treatment,” said Muhammad U. Khawar, MD, from the University of Cincinnati.

Dr. Khawar moderated the session where Dr. Kang reported her data.

The investigators did not report a funding source. Dr. Kang and Dr. Khawar reported that they had no relevant disclosures.
 

HONOLULU – The diversity of species in the sputum of patients undergoing therapy for nontuberculosis mycobacterial pulmonary disease (NTM-PD) could be a marker for treatment efficacy, authors of a small prospective study suggest.

Neil Osterweil/MDedge

Among 14 patients treated for NTM-PD, 7 of whom had treatment-refractory disease and 7 of whom had microbiological cures after antibiotic therapy, the diversity of the microbiome in sputum was greater for those patients who were cured, indicating that the variety of species found in sputum during treatment could help clinicians evaluate the efficacy of therapy and guide patient management, said Noeul Kang, MD, PhD, from Samsung Medical Center in Seoul, South Korea.

“What we found was that in NTM-PD patients, the sputum of the patients who remained in long-time stabilization without recurrence exhibited higher microbiome diversity than that of treatment-refractory patients, and several genera were identified in the samples of the cured group. We hope to do more research on this, and we are planning to compare the patients who have never been treated with those who respond to treatment,” she said at the annual meeting of the American College of Chest Physicians (CHEST).
 

NTM-PD on the rise

The incidence and prevalence of NTM-PD in both South Korea and the United States have been rising steadily since 2007, with the highest incidence occurring among those 65 and older.

“NTM-PD is becoming a global burden,” Dr. Kang said.

Across the world the most commonly occurring organisms in NTM-PD patients are Mycobacterium avium complex (MAC), with other mycobacteria species varying in frequency by region.

Outcomes of treatment differ according to the etiologic organism, with M. avium complex infections being successfully treated in about 60% of patients, compared with 70% of patients’ infections with the M. abscessus massiliense, and 30%-40% of infections yielding to antibiotics in patients with M. abscessus abscessus, Dr. Kang said.

To compare the characteristics of the sputum microbiota of NTM-PD patients based on their treatment outcomes, Dr. Kang and colleagues looked at sputum from all patients with NTM-PD who agreed to provide samples at their center from 2018 through 2022.

After excluding those who did not receive antibiotics, those who were on treatment but did not have refractory disease, and those who were lost to follow-up or whose samples did not pass quality control, they identified seven patients who had microbiological cures, and seven whose disease remained refractory to treatment.

They defined culture conversion at three or more consecutive negative sputum cultures after treatment, collected at least 4 weeks apart, and microbiological cures at maintenance of multiple consecutive negative cultures without any positive cultures of the causative species from respiratory samples.

Infections were deemed to be refractory if there were sustained positive cultures from respiratory samples of causative NTM species after at least 1 year of antibiotic therapy.
 

Diversity analysis

Samples from 8 of the 14 participants had M. abscessus-PD, with the proportion higher among those who had a sustained microbiological cure (71.4% vs. 42.9%).

At baseline, patients with refractory disease were found to have significantly lower alpha diversity, a measure of microbial diversity within a single sample, compared with those whose infections were cured (P = .025).

In addition, samples at 6-month follow-up from those with baseline ­refractory infections ­had differences in the species level of beta-diversity (that is, differences among samples), compared with both baseline and follow-up samples from the cured group (P = .022 and .024, respectively).

The investigators also used linear discriminant analysis to look at taxonomic biomarkers, and observed that several species were more abundant in samples from the microbiological cure group than from the refractory disease group (P < .05) These species included organisms in the Streptococcus pneumoniae group, Prevotella melaninogenica, and Haemophilus parahaemolyticus group.
 

Promising start

A pulmonologist who was not involved in the study commented in an interview that, although the findings need further study, the microbiome of sputum samples has the potential for predictive value.

“I think this will be clinically useful, actually, if we’re able to identify and diagnose patients with MAC disease and then we identify their sputum microbiome, it might give us an idea whether these patients are more sensitive or refractory to treatment,” said Muhammad U. Khawar, MD, from the University of Cincinnati.

Dr. Khawar moderated the session where Dr. Kang reported her data.

The investigators did not report a funding source. Dr. Kang and Dr. Khawar reported that they had no relevant disclosures.
 

HONOLULU – Patients with acute respiratory distress syndrome (ARDS) and coexisting pulmonary hypertension (PH) are significantly more likely to have longer and more costly hospital stays and to die in-hospital than patients with ARDS without PH, results of a retrospective study suggest.

Among more than 156,000 hospitalized patients with ARDS, 16.8% of whom also had a diagnosis of PH, the presence of PH was associated with about a 50% higher risk for in-hospital mortality and a 37% higher risk for longer hospital stays. In addition, the presence of PH was associated with nearly $20,000 of higher hospital expenditures, reported Kaushik Kumar, MBBS, at the annual meeting of the American College of Chest Physicians (CHEST).

“Clinicians should be vigilant in identifying and managing pulmonary hypertension in ARDS patients,” Dr. Kumar, a resident in internal medicine at Medstar Health, Baltimore, said in an oral abstract presentation.

He added that PH has the potential to serve as an indicator of disease severity for patients with ARDS.
 

National database

PH is a frequent complication of ARDS, likely related to a combination of pulmonary vasoconstriction, thromboembolism, and interstitial edema, he said.

To test their hypothesis that the presence of PH in patients with ARDS is associated with worse outcomes, Dr. Kumar and colleagues drew on the National Inpatient Sample database for information on adults aged 18 years and older who had been diagnosed with ARDS with or without PH.

They identified a total of 156,687 patients of whom 26,324 (16.8%) also had been diagnosed with PH. Among the cohort with PH, there were higher proportions of older patients, women, and patients with multiple comorbidities.

The in-hospital mortality rate was 36.8% among patients with PH, compared with 24.6% among those without. The mean length of stay was also longer among patients with PH, at 12 days versus 10 days.

In an unadjusted analysis, mean total hospital charges for patients with ARDS and PH were $210,165, versus $160,683 for patients with ARDS who did not have PH.

In an analysis in which the investigators controlled for age, sex, index admission length of stay, insurance status, and comorbidities, in-hospital mortality for patients with PH remained significantly higher, with an odds ratio of 1.52 (P < .001). PH was also significantly associated with longer length of stay (odds ratio, 1.37; P < .001) and higher total hospital costs, with a mean difference of $19,406.

Dr. Kumar said that the findings underscore the importance of a tailored approach to managing patients with ARDS, especially in the presence of PH.

The investigators plan further studies to assess the role of PH-targeted therapies, to examine the role of sepsis and right ventricular failure and to explore the long-term impact of PH among ARDS survivors, including effects with respect to pulmonary function, quality of life, and long-term morbidity.
 

Potential to inform practice

A pulmonologist who was not involved in the study said in an interview that the findings of the trial suggest that PH may have a greater influence on mortality than is currently understood and that further investigations into this association could change practice in the future.

“I think it would be very important for us to understand if that is going to change our outlook on how ARDS is managed. It’s possible that some of the interventions that we give people who don’t have pulmonary hypertension, for example, increasing the airway pressure in order to minimize oxygenation, may have a detrimental effect on the pulmonary vasculature,” said Timothy Morris, MD, medical director of the pulmonary and exercise lab and professor of medicine at the University of California, San Diego.

“I think it’s a little bit premature to say that this should guide management now, but it’s certainly an interesting question that may end up changing practice in the future,” said Dr. Morris, who was moderator of the session in which Dr. Kumar presented the data.

The study was supported by the Agency for Healthcare Research and Quality and Medstar Health Research Institute. Dr. Kumar and Dr. Morris have disclosed no relevant financial relationships.

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

HONOLULU – Patients with acute respiratory distress syndrome (ARDS) and coexisting pulmonary hypertension (PH) are significantly more likely to have longer and more costly hospital stays and to die in-hospital than patients with ARDS without PH, results of a retrospective study suggest.

Among more than 156,000 hospitalized patients with ARDS, 16.8% of whom also had a diagnosis of PH, the presence of PH was associated with about a 50% higher risk for in-hospital mortality and a 37% higher risk for longer hospital stays. In addition, the presence of PH was associated with nearly $20,000 of higher hospital expenditures, reported Kaushik Kumar, MBBS, at the annual meeting of the American College of Chest Physicians (CHEST).

“Clinicians should be vigilant in identifying and managing pulmonary hypertension in ARDS patients,” Dr. Kumar, a resident in internal medicine at Medstar Health, Baltimore, said in an oral abstract presentation.

He added that PH has the potential to serve as an indicator of disease severity for patients with ARDS.
 

National database

PH is a frequent complication of ARDS, likely related to a combination of pulmonary vasoconstriction, thromboembolism, and interstitial edema, he said.

To test their hypothesis that the presence of PH in patients with ARDS is associated with worse outcomes, Dr. Kumar and colleagues drew on the National Inpatient Sample database for information on adults aged 18 years and older who had been diagnosed with ARDS with or without PH.

They identified a total of 156,687 patients of whom 26,324 (16.8%) also had been diagnosed with PH. Among the cohort with PH, there were higher proportions of older patients, women, and patients with multiple comorbidities.

The in-hospital mortality rate was 36.8% among patients with PH, compared with 24.6% among those without. The mean length of stay was also longer among patients with PH, at 12 days versus 10 days.

In an unadjusted analysis, mean total hospital charges for patients with ARDS and PH were $210,165, versus $160,683 for patients with ARDS who did not have PH.

In an analysis in which the investigators controlled for age, sex, index admission length of stay, insurance status, and comorbidities, in-hospital mortality for patients with PH remained significantly higher, with an odds ratio of 1.52 (P < .001). PH was also significantly associated with longer length of stay (odds ratio, 1.37; P < .001) and higher total hospital costs, with a mean difference of $19,406.

Dr. Kumar said that the findings underscore the importance of a tailored approach to managing patients with ARDS, especially in the presence of PH.

The investigators plan further studies to assess the role of PH-targeted therapies, to examine the role of sepsis and right ventricular failure and to explore the long-term impact of PH among ARDS survivors, including effects with respect to pulmonary function, quality of life, and long-term morbidity.
 

Potential to inform practice

A pulmonologist who was not involved in the study said in an interview that the findings of the trial suggest that PH may have a greater influence on mortality than is currently understood and that further investigations into this association could change practice in the future.

“I think it would be very important for us to understand if that is going to change our outlook on how ARDS is managed. It’s possible that some of the interventions that we give people who don’t have pulmonary hypertension, for example, increasing the airway pressure in order to minimize oxygenation, may have a detrimental effect on the pulmonary vasculature,” said Timothy Morris, MD, medical director of the pulmonary and exercise lab and professor of medicine at the University of California, San Diego.

“I think it’s a little bit premature to say that this should guide management now, but it’s certainly an interesting question that may end up changing practice in the future,” said Dr. Morris, who was moderator of the session in which Dr. Kumar presented the data.

The study was supported by the Agency for Healthcare Research and Quality and Medstar Health Research Institute. Dr. Kumar and Dr. Morris have disclosed no relevant financial relationships.

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

HONOLULU – Patients with acute respiratory distress syndrome (ARDS) and coexisting pulmonary hypertension (PH) are significantly more likely to have longer and more costly hospital stays and to die in-hospital than patients with ARDS without PH, results of a retrospective study suggest.

Among more than 156,000 hospitalized patients with ARDS, 16.8% of whom also had a diagnosis of PH, the presence of PH was associated with about a 50% higher risk for in-hospital mortality and a 37% higher risk for longer hospital stays. In addition, the presence of PH was associated with nearly $20,000 of higher hospital expenditures, reported Kaushik Kumar, MBBS, at the annual meeting of the American College of Chest Physicians (CHEST).

“Clinicians should be vigilant in identifying and managing pulmonary hypertension in ARDS patients,” Dr. Kumar, a resident in internal medicine at Medstar Health, Baltimore, said in an oral abstract presentation.

He added that PH has the potential to serve as an indicator of disease severity for patients with ARDS.
 

National database

PH is a frequent complication of ARDS, likely related to a combination of pulmonary vasoconstriction, thromboembolism, and interstitial edema, he said.

To test their hypothesis that the presence of PH in patients with ARDS is associated with worse outcomes, Dr. Kumar and colleagues drew on the National Inpatient Sample database for information on adults aged 18 years and older who had been diagnosed with ARDS with or without PH.

They identified a total of 156,687 patients of whom 26,324 (16.8%) also had been diagnosed with PH. Among the cohort with PH, there were higher proportions of older patients, women, and patients with multiple comorbidities.

The in-hospital mortality rate was 36.8% among patients with PH, compared with 24.6% among those without. The mean length of stay was also longer among patients with PH, at 12 days versus 10 days.

In an unadjusted analysis, mean total hospital charges for patients with ARDS and PH were $210,165, versus $160,683 for patients with ARDS who did not have PH.

In an analysis in which the investigators controlled for age, sex, index admission length of stay, insurance status, and comorbidities, in-hospital mortality for patients with PH remained significantly higher, with an odds ratio of 1.52 (P < .001). PH was also significantly associated with longer length of stay (odds ratio, 1.37; P < .001) and higher total hospital costs, with a mean difference of $19,406.

Dr. Kumar said that the findings underscore the importance of a tailored approach to managing patients with ARDS, especially in the presence of PH.

The investigators plan further studies to assess the role of PH-targeted therapies, to examine the role of sepsis and right ventricular failure and to explore the long-term impact of PH among ARDS survivors, including effects with respect to pulmonary function, quality of life, and long-term morbidity.
 

Potential to inform practice

A pulmonologist who was not involved in the study said in an interview that the findings of the trial suggest that PH may have a greater influence on mortality than is currently understood and that further investigations into this association could change practice in the future.

“I think it would be very important for us to understand if that is going to change our outlook on how ARDS is managed. It’s possible that some of the interventions that we give people who don’t have pulmonary hypertension, for example, increasing the airway pressure in order to minimize oxygenation, may have a detrimental effect on the pulmonary vasculature,” said Timothy Morris, MD, medical director of the pulmonary and exercise lab and professor of medicine at the University of California, San Diego.

“I think it’s a little bit premature to say that this should guide management now, but it’s certainly an interesting question that may end up changing practice in the future,” said Dr. Morris, who was moderator of the session in which Dr. Kumar presented the data.

The study was supported by the Agency for Healthcare Research and Quality and Medstar Health Research Institute. Dr. Kumar and Dr. Morris have disclosed no relevant financial relationships.

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

Diffuse Lung & Transplant Network

Pulmonary Physiology & Rehabilitation Section

Pulmonary arterial hypertension (PH) and more recently interstitial lung disease (ILD) trials use the 6-minute walk test (6MWT) as a primary outcome due to its ability to conveniently capture a patient’s functional capacity and quality of life. However, interpreting the 6MWT in complex and diverse diseases, such as ILD, presents significant challenges.

A recent article (Harari, et al. Eur Respir Rev. 2022 Aug 23;31(165):220087. doi: 10.1183/16000617.0087-2022) advocates for further research to determine the optimal use of the 6MWT as a clinical endpoint in ILD trials. A decline in 6MWT can represent progression of ILD; ILD-related PH; or musculoskeletal, hematologic, or cardiac etiologies related to the underlying cause of ILD.

To enhance sensitivity, the authors endorse the inclusion of additional parameters in the analysis, possibly as a composite outcome. This would involve integrating the oxygen desaturation profile, dyspnea scores, and heart rate recovery with changes in the 6MWT-distance. They propose this composite measure could serve as a primary endpoint when the study intervention’s impact on clinical performance – either improvement or stabilization of ILD or ILD-related PH – is clearly defined. The prognostic significance of these additional parameters in patients with ILD, however, requires further investigation.

Inter-test reliability requires a standardized 6MWT, as previously proposed for this population (Lancaster, et al. Contemporary Clin Trials. 2021;Nov 25,2020). The standardized test protocol that includes continuous pulse oximetry and heart rate measurement, oxygen titration, and end of test guidelines, will reduce variability and boost reproducibility.

In light of recent advancements in the affordability, convenience, and portability of oxygen consumption (VO2) gas analyzers, we believe that incorporating Vo2 measurements into the 6MWT is a needed incremental improvement. This integration will help define the disease process, its impact on patient performance, and clinical prognosis. Future work should focus on understanding how to effectively estimate Vo2 in combination with a standardized 6MWT to make this test a reliable clinical outcome in trials.

Ruchicka Sangani, MD, Section Fellow-in-Training

Saqib Baig, MD, Section Member-at-Large
 

Diffuse Lung & Transplant Network

Pulmonary Physiology & Rehabilitation Section

Pulmonary arterial hypertension (PH) and more recently interstitial lung disease (ILD) trials use the 6-minute walk test (6MWT) as a primary outcome due to its ability to conveniently capture a patient’s functional capacity and quality of life. However, interpreting the 6MWT in complex and diverse diseases, such as ILD, presents significant challenges.

A recent article (Harari, et al. Eur Respir Rev. 2022 Aug 23;31(165):220087. doi: 10.1183/16000617.0087-2022) advocates for further research to determine the optimal use of the 6MWT as a clinical endpoint in ILD trials. A decline in 6MWT can represent progression of ILD; ILD-related PH; or musculoskeletal, hematologic, or cardiac etiologies related to the underlying cause of ILD.

To enhance sensitivity, the authors endorse the inclusion of additional parameters in the analysis, possibly as a composite outcome. This would involve integrating the oxygen desaturation profile, dyspnea scores, and heart rate recovery with changes in the 6MWT-distance. They propose this composite measure could serve as a primary endpoint when the study intervention’s impact on clinical performance – either improvement or stabilization of ILD or ILD-related PH – is clearly defined. The prognostic significance of these additional parameters in patients with ILD, however, requires further investigation.

Inter-test reliability requires a standardized 6MWT, as previously proposed for this population (Lancaster, et al. Contemporary Clin Trials. 2021;Nov 25,2020). The standardized test protocol that includes continuous pulse oximetry and heart rate measurement, oxygen titration, and end of test guidelines, will reduce variability and boost reproducibility.

In light of recent advancements in the affordability, convenience, and portability of oxygen consumption (VO2) gas analyzers, we believe that incorporating Vo2 measurements into the 6MWT is a needed incremental improvement. This integration will help define the disease process, its impact on patient performance, and clinical prognosis. Future work should focus on understanding how to effectively estimate Vo2 in combination with a standardized 6MWT to make this test a reliable clinical outcome in trials.

Ruchicka Sangani, MD, Section Fellow-in-Training

Saqib Baig, MD, Section Member-at-Large
 

Diffuse Lung & Transplant Network

Pulmonary Physiology & Rehabilitation Section

Pulmonary arterial hypertension (PH) and more recently interstitial lung disease (ILD) trials use the 6-minute walk test (6MWT) as a primary outcome due to its ability to conveniently capture a patient’s functional capacity and quality of life. However, interpreting the 6MWT in complex and diverse diseases, such as ILD, presents significant challenges.

A recent article (Harari, et al. Eur Respir Rev. 2022 Aug 23;31(165):220087. doi: 10.1183/16000617.0087-2022) advocates for further research to determine the optimal use of the 6MWT as a clinical endpoint in ILD trials. A decline in 6MWT can represent progression of ILD; ILD-related PH; or musculoskeletal, hematologic, or cardiac etiologies related to the underlying cause of ILD.

To enhance sensitivity, the authors endorse the inclusion of additional parameters in the analysis, possibly as a composite outcome. This would involve integrating the oxygen desaturation profile, dyspnea scores, and heart rate recovery with changes in the 6MWT-distance. They propose this composite measure could serve as a primary endpoint when the study intervention’s impact on clinical performance – either improvement or stabilization of ILD or ILD-related PH – is clearly defined. The prognostic significance of these additional parameters in patients with ILD, however, requires further investigation.

Inter-test reliability requires a standardized 6MWT, as previously proposed for this population (Lancaster, et al. Contemporary Clin Trials. 2021;Nov 25,2020). The standardized test protocol that includes continuous pulse oximetry and heart rate measurement, oxygen titration, and end of test guidelines, will reduce variability and boost reproducibility.

In light of recent advancements in the affordability, convenience, and portability of oxygen consumption (VO2) gas analyzers, we believe that incorporating Vo2 measurements into the 6MWT is a needed incremental improvement. This integration will help define the disease process, its impact on patient performance, and clinical prognosis. Future work should focus on understanding how to effectively estimate Vo2 in combination with a standardized 6MWT to make this test a reliable clinical outcome in trials.

Ruchicka Sangani, MD, Section Fellow-in-Training

Saqib Baig, MD, Section Member-at-Large
 

An investigation into associations between serum phosphate levels and in-hospital mortality risk among patients with acute exacerbations of chronic obstructive pulmonary disease (AECOPD) found significantly higher in-hospital mortality among AECOPD patients with high serum phosphate levels. The finding, according to Siqi Li et al. in a preproof HELIYON article, suggests that hyperphosphatemia may be a high-risk factor for AECOPD-related in-hospital mortality.

Phosphorus is key to several physiological processes, among them energy metabolism, bone mineralization, membrane transport, and intracellular signaling. Li et al. pointed out that in patients with multiple diseases, hyperphosphatemia is associated with increased mortality. In the development of COPD specifically, acute exacerbations have been shown in several recent studies to be an important adverse event conferring heightened mortality risk. Despite many efforts, AECOPD mortality rates remain high, making identification of potential factors, Li et al. stated, crucial for improving outcomes in high-risk patients.

The electronic Intensive Care Unit Collaborative Research Database (eICU-CRD) holds data associated with over 200,000 patient stays, providing a large sample size for research studies. To determine the relationship between serum phosphate and in-hospital mortality in AECOPD patients, investigators analyzed data from a total of 1,199 AECOPD patients (mean age, 68 years; ~55% female) enrolled in eICU-CRD and divided them into three groups according to serum phosphate level tertiles: lowest tertile (serum phosphate ≤ 3.0 mg/dL, n = 445), median tertile (serum phosphate > 3.0 mg/dL and ≤ 4.0 mg/dL, n = 378), and highest tertile (serum phosphate > 4.0 mg/dL, n = 376). The Li et al. study’s primary outcome was all-cause in-hospital mortality, defined as survival to hospital discharge. Secondary outcomes included length of stay (LOS) in the intensive care unit (ICU), LOS in the hospital, and all-cause ICU mortality.

The Li et al. analysis of patient characteristics showed that patients in the highest tertile of serum phosphate had significantly higher body mass index (BMI) (P < .001), lower temperature (P < .001), lower heart rate (P < .001), lower mean arterial blood pressure (P = .011), higher creatinine (P < .001), higher potassium (P < .001), higher sequential organ failure assessment (SOFA) (P < .001), higher acute physiology and chronic health evaluation (APACHE IV) (P < .001), and higher ICU mortality (P < .001). Also, patients with higher serum phosphate levels were more likely to receive renal replacement therapy (RRT) (P < .001) and vasoactive drugs (P = .003) than those in the lower serum phosphate group. Such differences were also observed for age (P = .021), calcium level (P = .023), sodium level (P = .039), hypertension (P = .014), coronary artery disease (P = .004), diabetes (P = .017), and chronic kidney disease (P < .001). No significant differences were observed for gender, respiration rate, SpO₂, white blood cell count, hemoglobin, platelets, cirrhosis, stroke, ventilation, LOS in ICU, and LOS in hospital (P > .05).

A univariate logistic regression analysis performed to determine the relationship between serum phosphate level and risk of in-hospital mortality revealed that higher serum phosphate level correlated with increased in-hospital mortality (odds ratio, 1.30; 95% confidence interval, 1.16-1.46; P < .001).

Li et al. posited that several mechanisms may explain increased mortality at higher serum phosphate levels in AECOPD patients: increased serum phosphate induces vascular calcification and endothelial dysfunction, leading to organ dysfunction; hyperphosphatemia causes oxidative stress, cell apoptosis, and inflammation, all of which are involved in the pathogenesis of AECOPD, and a higher phosphate diet exacerbates aging and lung emphysema phenotypes; restriction of phosphate intake and absorption relieves these phenotypes and alveolar destruction, which might contribute to the development of AECOPD.

Li et al. concluded: “Reducing serum phosphate levels may be a therapeutic strategy to improve prognosis of AECOPD patients.”

“This large retrospective analysis on eICU database in the U.S. revealed elevated serum phosphate levels with increased in-hospital mortality among patients experiencing acute exacerbation of COPD,” commented Dharani Narendra, MD, assistant professor in medicine, at Baylor College of Medicine, Houston. “This association, previously observed in various chronic conditions including COPD, particularly in men, is now noted to apply to both genders, irrespective of chronic kidney disease. The study also hints at potential mechanisms for elevated phosphate levels, such as inflammation, oxidative stress, and cell apoptosis in AECOPD, as well as a high-phosphate diet.”

She told this news organization also, “It remains imperative to ascertain whether treating hyperphosphatemia or implementing dietary phosphate restrictions can reduce mortality or prevent AECOPD episodes. These demand additional clinical trials to establish a definitive cause-and-effect relationship and to guide potential treatment and prevention strategies.”

Noting study limitations, Li et al. stated that many variables, such as smoking, exacerbation frequency, severity, PH, PaO₂, PaCO₂, and lactate, were not included in this study owing to more than 20% missing values.

This work was supported by the National Natural Science Foundation of China, Scientific Research Fund of Hunan Provincial Education Department, Hunan Provincial Natural Science Foundation, and Special fund for rehabilitation medicine of the National Clinical Research Center for Geriatric Disorders Clinical Research Fund. The authors declare no competing interests.
 

An investigation into associations between serum phosphate levels and in-hospital mortality risk among patients with acute exacerbations of chronic obstructive pulmonary disease (AECOPD) found significantly higher in-hospital mortality among AECOPD patients with high serum phosphate levels. The finding, according to Siqi Li et al. in a preproof HELIYON article, suggests that hyperphosphatemia may be a high-risk factor for AECOPD-related in-hospital mortality.

Phosphorus is key to several physiological processes, among them energy metabolism, bone mineralization, membrane transport, and intracellular signaling. Li et al. pointed out that in patients with multiple diseases, hyperphosphatemia is associated with increased mortality. In the development of COPD specifically, acute exacerbations have been shown in several recent studies to be an important adverse event conferring heightened mortality risk. Despite many efforts, AECOPD mortality rates remain high, making identification of potential factors, Li et al. stated, crucial for improving outcomes in high-risk patients.

The electronic Intensive Care Unit Collaborative Research Database (eICU-CRD) holds data associated with over 200,000 patient stays, providing a large sample size for research studies. To determine the relationship between serum phosphate and in-hospital mortality in AECOPD patients, investigators analyzed data from a total of 1,199 AECOPD patients (mean age, 68 years; ~55% female) enrolled in eICU-CRD and divided them into three groups according to serum phosphate level tertiles: lowest tertile (serum phosphate ≤ 3.0 mg/dL, n = 445), median tertile (serum phosphate > 3.0 mg/dL and ≤ 4.0 mg/dL, n = 378), and highest tertile (serum phosphate > 4.0 mg/dL, n = 376). The Li et al. study’s primary outcome was all-cause in-hospital mortality, defined as survival to hospital discharge. Secondary outcomes included length of stay (LOS) in the intensive care unit (ICU), LOS in the hospital, and all-cause ICU mortality.

The Li et al. analysis of patient characteristics showed that patients in the highest tertile of serum phosphate had significantly higher body mass index (BMI) (P < .001), lower temperature (P < .001), lower heart rate (P < .001), lower mean arterial blood pressure (P = .011), higher creatinine (P < .001), higher potassium (P < .001), higher sequential organ failure assessment (SOFA) (P < .001), higher acute physiology and chronic health evaluation (APACHE IV) (P < .001), and higher ICU mortality (P < .001). Also, patients with higher serum phosphate levels were more likely to receive renal replacement therapy (RRT) (P < .001) and vasoactive drugs (P = .003) than those in the lower serum phosphate group. Such differences were also observed for age (P = .021), calcium level (P = .023), sodium level (P = .039), hypertension (P = .014), coronary artery disease (P = .004), diabetes (P = .017), and chronic kidney disease (P < .001). No significant differences were observed for gender, respiration rate, SpO₂, white blood cell count, hemoglobin, platelets, cirrhosis, stroke, ventilation, LOS in ICU, and LOS in hospital (P > .05).

A univariate logistic regression analysis performed to determine the relationship between serum phosphate level and risk of in-hospital mortality revealed that higher serum phosphate level correlated with increased in-hospital mortality (odds ratio, 1.30; 95% confidence interval, 1.16-1.46; P < .001).

Li et al. posited that several mechanisms may explain increased mortality at higher serum phosphate levels in AECOPD patients: increased serum phosphate induces vascular calcification and endothelial dysfunction, leading to organ dysfunction; hyperphosphatemia causes oxidative stress, cell apoptosis, and inflammation, all of which are involved in the pathogenesis of AECOPD, and a higher phosphate diet exacerbates aging and lung emphysema phenotypes; restriction of phosphate intake and absorption relieves these phenotypes and alveolar destruction, which might contribute to the development of AECOPD.

Li et al. concluded: “Reducing serum phosphate levels may be a therapeutic strategy to improve prognosis of AECOPD patients.”

“This large retrospective analysis on eICU database in the U.S. revealed elevated serum phosphate levels with increased in-hospital mortality among patients experiencing acute exacerbation of COPD,” commented Dharani Narendra, MD, assistant professor in medicine, at Baylor College of Medicine, Houston. “This association, previously observed in various chronic conditions including COPD, particularly in men, is now noted to apply to both genders, irrespective of chronic kidney disease. The study also hints at potential mechanisms for elevated phosphate levels, such as inflammation, oxidative stress, and cell apoptosis in AECOPD, as well as a high-phosphate diet.”

She told this news organization also, “It remains imperative to ascertain whether treating hyperphosphatemia or implementing dietary phosphate restrictions can reduce mortality or prevent AECOPD episodes. These demand additional clinical trials to establish a definitive cause-and-effect relationship and to guide potential treatment and prevention strategies.”

Noting study limitations, Li et al. stated that many variables, such as smoking, exacerbation frequency, severity, PH, PaO₂, PaCO₂, and lactate, were not included in this study owing to more than 20% missing values.

This work was supported by the National Natural Science Foundation of China, Scientific Research Fund of Hunan Provincial Education Department, Hunan Provincial Natural Science Foundation, and Special fund for rehabilitation medicine of the National Clinical Research Center for Geriatric Disorders Clinical Research Fund. The authors declare no competing interests.
 

An investigation into associations between serum phosphate levels and in-hospital mortality risk among patients with acute exacerbations of chronic obstructive pulmonary disease (AECOPD) found significantly higher in-hospital mortality among AECOPD patients with high serum phosphate levels. The finding, according to Siqi Li et al. in a preproof HELIYON article, suggests that hyperphosphatemia may be a high-risk factor for AECOPD-related in-hospital mortality.

Phosphorus is key to several physiological processes, among them energy metabolism, bone mineralization, membrane transport, and intracellular signaling. Li et al. pointed out that in patients with multiple diseases, hyperphosphatemia is associated with increased mortality. In the development of COPD specifically, acute exacerbations have been shown in several recent studies to be an important adverse event conferring heightened mortality risk. Despite many efforts, AECOPD mortality rates remain high, making identification of potential factors, Li et al. stated, crucial for improving outcomes in high-risk patients.

The electronic Intensive Care Unit Collaborative Research Database (eICU-CRD) holds data associated with over 200,000 patient stays, providing a large sample size for research studies. To determine the relationship between serum phosphate and in-hospital mortality in AECOPD patients, investigators analyzed data from a total of 1,199 AECOPD patients (mean age, 68 years; ~55% female) enrolled in eICU-CRD and divided them into three groups according to serum phosphate level tertiles: lowest tertile (serum phosphate ≤ 3.0 mg/dL, n = 445), median tertile (serum phosphate > 3.0 mg/dL and ≤ 4.0 mg/dL, n = 378), and highest tertile (serum phosphate > 4.0 mg/dL, n = 376). The Li et al. study’s primary outcome was all-cause in-hospital mortality, defined as survival to hospital discharge. Secondary outcomes included length of stay (LOS) in the intensive care unit (ICU), LOS in the hospital, and all-cause ICU mortality.

The Li et al. analysis of patient characteristics showed that patients in the highest tertile of serum phosphate had significantly higher body mass index (BMI) (P < .001), lower temperature (P < .001), lower heart rate (P < .001), lower mean arterial blood pressure (P = .011), higher creatinine (P < .001), higher potassium (P < .001), higher sequential organ failure assessment (SOFA) (P < .001), higher acute physiology and chronic health evaluation (APACHE IV) (P < .001), and higher ICU mortality (P < .001). Also, patients with higher serum phosphate levels were more likely to receive renal replacement therapy (RRT) (P < .001) and vasoactive drugs (P = .003) than those in the lower serum phosphate group. Such differences were also observed for age (P = .021), calcium level (P = .023), sodium level (P = .039), hypertension (P = .014), coronary artery disease (P = .004), diabetes (P = .017), and chronic kidney disease (P < .001). No significant differences were observed for gender, respiration rate, SpO₂, white blood cell count, hemoglobin, platelets, cirrhosis, stroke, ventilation, LOS in ICU, and LOS in hospital (P > .05).

A univariate logistic regression analysis performed to determine the relationship between serum phosphate level and risk of in-hospital mortality revealed that higher serum phosphate level correlated with increased in-hospital mortality (odds ratio, 1.30; 95% confidence interval, 1.16-1.46; P < .001).

Li et al. posited that several mechanisms may explain increased mortality at higher serum phosphate levels in AECOPD patients: increased serum phosphate induces vascular calcification and endothelial dysfunction, leading to organ dysfunction; hyperphosphatemia causes oxidative stress, cell apoptosis, and inflammation, all of which are involved in the pathogenesis of AECOPD, and a higher phosphate diet exacerbates aging and lung emphysema phenotypes; restriction of phosphate intake and absorption relieves these phenotypes and alveolar destruction, which might contribute to the development of AECOPD.

Li et al. concluded: “Reducing serum phosphate levels may be a therapeutic strategy to improve prognosis of AECOPD patients.”

“This large retrospective analysis on eICU database in the U.S. revealed elevated serum phosphate levels with increased in-hospital mortality among patients experiencing acute exacerbation of COPD,” commented Dharani Narendra, MD, assistant professor in medicine, at Baylor College of Medicine, Houston. “This association, previously observed in various chronic conditions including COPD, particularly in men, is now noted to apply to both genders, irrespective of chronic kidney disease. The study also hints at potential mechanisms for elevated phosphate levels, such as inflammation, oxidative stress, and cell apoptosis in AECOPD, as well as a high-phosphate diet.”

She told this news organization also, “It remains imperative to ascertain whether treating hyperphosphatemia or implementing dietary phosphate restrictions can reduce mortality or prevent AECOPD episodes. These demand additional clinical trials to establish a definitive cause-and-effect relationship and to guide potential treatment and prevention strategies.”

Noting study limitations, Li et al. stated that many variables, such as smoking, exacerbation frequency, severity, PH, PaO₂, PaCO₂, and lactate, were not included in this study owing to more than 20% missing values.

This work was supported by the National Natural Science Foundation of China, Scientific Research Fund of Hunan Provincial Education Department, Hunan Provincial Natural Science Foundation, and Special fund for rehabilitation medicine of the National Clinical Research Center for Geriatric Disorders Clinical Research Fund. The authors declare no competing interests.
 

Inhalers, nebulizers, antibiotics, and steroids – these are some of the most common tools in our pulmonary arsenal that we deploy on a daily basis. But, there is no treatment more fundamental to a pulmonary practitioner than oxygen. So how is it that something that naturally occurs and comprises 21% of ambient air has become so medicalized?

It is difficult (perhaps impossible) to find a pulmonologist or a hospitalist who has not included the phrase “obtain ambulatory saturation to qualify the patient for home oxygen” in at least one of their progress notes on a daily basis. Chronic obstructive pulmonary disease (COPD) is the most common reason for the prescription of long-term oxygen therapy (LTOT), a large industry tightly regulated by the Centers for Medicare & Medicaid Services (CMS).

The evidence for the use of LTOT in patients with COPD dates back to two seminal papers published in 1980 and 1981. The British Medical Research Council Working Party conducted the BMRC trial, in which 87 patients with a Pao2 of 40 mm Hg to 60 mm Hg, CO2 retention, and a history of congestive heart failure were randomized to treatment with 15 hours per day of home oxygen therapy, starting at 2 L and titrating to Pao2 of 60 mm Hg vs. standard therapy without oxygen (Lancet. 1981;1[8222]:681-6). There was an impressive 22% mortality benefit at 3 years.

Another study published around the same time, the Continuous or nocturnal oxygen therapy in hypoxemic chronic obstructive lung disease (NOTT) trial (Ann Intern Med. 1980;93[3]:391-8) directly compared continuous 24-hour to nocturnal home oxygen therapy in patients with COPD and severe hypoxemia with a Pao2 less than 55 mm Hg. Again, there was an impressive mortality benefit in favor of continuous home oxygen with a 9% and 18% mortality difference at 1 and 2 years of enrollment, respectively.

Afterward, it became universally accepted dogma that patients with COPD and severe hypoxemia stood to substantially benefit from LTOT. For years, it was the only therapy associated with a mortality reduction. The LOTT study (Albert RK, et al. N Engl J Med. 2016;375[17]:1617-27) included 768 patients with stable COPD and a resting or nocturnal Spo2 of 89% to93%, as well as patients with moderate exercise-induced desaturation (Spo2 of greater than or equal to 80% and less than 90% for greater than or equal to 10 seconds during the 6-minute walk test). Half of these patients received oxygen for 24 hours per day, during sleep, or during exercise (depending on when desaturation would occur) and half received no oxygen. There was no difference in time to death or first hospitalization or in rates of hospitalization or exacerbation. There was also no difference between groups in quality of life, lung function, or distance walked in 6 minutes.

The INOX (Lacasse Y, et al. N Engl J Med. 2020;383[12]:1129-38) trial, in which 243 patients with oxygen saturation less than 90% for at least 30% of the night were assigned to receive nocturnal vs sham oxygen, found similar results. There was no difference in the composite outcome of all-cause mortality and progression to 24-7 oxygen requirement (according to the criteria originally defined by NOTT). A 2022 systematic review and meta-analysis including six studies designed to assess the role of LTOT in patients with COPD and moderate desaturation, including LOTT and INOX, found no benefit to providing LTOT (Lacasse Y, et al. Lancet Respir Med. 2022;10[11]:1029-37).

Based on these studies, a resting Spo2 of 88% seems to be the threshold below which LTOT improves outcomes. CMS lists four classes of patients eligible for LTOT: (1) Patients with Pao2 < 55 mm Hg or pulse oximetry less than or equal to 88% at rest or (2) during sleep or (3) during exercise, and (4) patients with Pao2 > 55 mm Hg but less than or equal to 59 mm Hg or pulse oximetry of 89% who have lower extremity edema, evidence of pulmonary hypertension, or erythrocythemia (Centers for Medicare & Medicaid Services. Medicare Coverage Database. 2021;100-103:240.2. These criteria reflect the inclusion criteria of the BMRC trial and NOTT.

COPD management has changed significantly in the 40 years since NOTT was published. In the early 1980s, standard of care included an inhaled beta-agonist and oral theophylline. We now prescribe a regimen of modern-day inhaler combinations, which can lead to a mortality benefit in the correct population. Additionally, rates of smoking are markedly lower now than they were in 1980. In the Minnesota Heart Survey, the prevalence of being an ever-smoking man or woman in 1980 compared with 2009 dropped from 71.6% and 54.7% to 44.2% and 39.6%, respectively (Filion KB, et al. Am J Public Health. 2012;102[4]:705-13). Treatment of common comorbid conditions has also dramatically improved.

A report containing all fee-for-service data published in 2021 by CMS reported oxygen therapy accounted for 9.8% of all DME costs covered by CMS and totaled approximately $800,000,000 (Centers for Medicare & Medicaid Services. FFS Data. 2021. This represents a significant financial burden to our health system and government.

Two of the eligible groups per CMS (those with isolated ambulatory or nocturnal hypoxemia) do not benefit from LTOT in RCTs. The other two groups are eligible based on trial data from a small number of patients who were studied more than 40 years ago. These facts raise serious questions about the cost-efficacy of LTOT.

So where does this leave us?

There are significant barriers to repeating large randomized oxygen trials. Due to broad inclusion criteria for LTOT by CMS, there are undoubtedly many people prescribed LTOT for whom there is minimal to no benefit. Patients often feel restricted in their mobility and may feel isolated being tethered to medical equipment. It is good practice to think about LTOT the same way we do any other therapy we provide - as a medicine with associated risks, benefits, and costs.

Despite its ubiquity, oxygen remains an important therapeutic tool. Still, choosing wisely means recognizing that not all patients who qualify for LTOT by CMS criteria will benefit.

Drs. Kreisel and Sonti are with the Division of Pulmonary, Critical Care, and Sleep Medicine, MedStar Georgetown University Hospital, Washington, DC.

Inhalers, nebulizers, antibiotics, and steroids – these are some of the most common tools in our pulmonary arsenal that we deploy on a daily basis. But, there is no treatment more fundamental to a pulmonary practitioner than oxygen. So how is it that something that naturally occurs and comprises 21% of ambient air has become so medicalized?

It is difficult (perhaps impossible) to find a pulmonologist or a hospitalist who has not included the phrase “obtain ambulatory saturation to qualify the patient for home oxygen” in at least one of their progress notes on a daily basis. Chronic obstructive pulmonary disease (COPD) is the most common reason for the prescription of long-term oxygen therapy (LTOT), a large industry tightly regulated by the Centers for Medicare & Medicaid Services (CMS).

The evidence for the use of LTOT in patients with COPD dates back to two seminal papers published in 1980 and 1981. The British Medical Research Council Working Party conducted the BMRC trial, in which 87 patients with a Pao2 of 40 mm Hg to 60 mm Hg, CO2 retention, and a history of congestive heart failure were randomized to treatment with 15 hours per day of home oxygen therapy, starting at 2 L and titrating to Pao2 of 60 mm Hg vs. standard therapy without oxygen (Lancet. 1981;1[8222]:681-6). There was an impressive 22% mortality benefit at 3 years.

Another study published around the same time, the Continuous or nocturnal oxygen therapy in hypoxemic chronic obstructive lung disease (NOTT) trial (Ann Intern Med. 1980;93[3]:391-8) directly compared continuous 24-hour to nocturnal home oxygen therapy in patients with COPD and severe hypoxemia with a Pao2 less than 55 mm Hg. Again, there was an impressive mortality benefit in favor of continuous home oxygen with a 9% and 18% mortality difference at 1 and 2 years of enrollment, respectively.

Afterward, it became universally accepted dogma that patients with COPD and severe hypoxemia stood to substantially benefit from LTOT. For years, it was the only therapy associated with a mortality reduction. The LOTT study (Albert RK, et al. N Engl J Med. 2016;375[17]:1617-27) included 768 patients with stable COPD and a resting or nocturnal Spo2 of 89% to93%, as well as patients with moderate exercise-induced desaturation (Spo2 of greater than or equal to 80% and less than 90% for greater than or equal to 10 seconds during the 6-minute walk test). Half of these patients received oxygen for 24 hours per day, during sleep, or during exercise (depending on when desaturation would occur) and half received no oxygen. There was no difference in time to death or first hospitalization or in rates of hospitalization or exacerbation. There was also no difference between groups in quality of life, lung function, or distance walked in 6 minutes.

The INOX (Lacasse Y, et al. N Engl J Med. 2020;383[12]:1129-38) trial, in which 243 patients with oxygen saturation less than 90% for at least 30% of the night were assigned to receive nocturnal vs sham oxygen, found similar results. There was no difference in the composite outcome of all-cause mortality and progression to 24-7 oxygen requirement (according to the criteria originally defined by NOTT). A 2022 systematic review and meta-analysis including six studies designed to assess the role of LTOT in patients with COPD and moderate desaturation, including LOTT and INOX, found no benefit to providing LTOT (Lacasse Y, et al. Lancet Respir Med. 2022;10[11]:1029-37).

Based on these studies, a resting Spo2 of 88% seems to be the threshold below which LTOT improves outcomes. CMS lists four classes of patients eligible for LTOT: (1) Patients with Pao2 < 55 mm Hg or pulse oximetry less than or equal to 88% at rest or (2) during sleep or (3) during exercise, and (4) patients with Pao2 > 55 mm Hg but less than or equal to 59 mm Hg or pulse oximetry of 89% who have lower extremity edema, evidence of pulmonary hypertension, or erythrocythemia (Centers for Medicare & Medicaid Services. Medicare Coverage Database. 2021;100-103:240.2. These criteria reflect the inclusion criteria of the BMRC trial and NOTT.

COPD management has changed significantly in the 40 years since NOTT was published. In the early 1980s, standard of care included an inhaled beta-agonist and oral theophylline. We now prescribe a regimen of modern-day inhaler combinations, which can lead to a mortality benefit in the correct population. Additionally, rates of smoking are markedly lower now than they were in 1980. In the Minnesota Heart Survey, the prevalence of being an ever-smoking man or woman in 1980 compared with 2009 dropped from 71.6% and 54.7% to 44.2% and 39.6%, respectively (Filion KB, et al. Am J Public Health. 2012;102[4]:705-13). Treatment of common comorbid conditions has also dramatically improved.

A report containing all fee-for-service data published in 2021 by CMS reported oxygen therapy accounted for 9.8% of all DME costs covered by CMS and totaled approximately $800,000,000 (Centers for Medicare & Medicaid Services. FFS Data. 2021. This represents a significant financial burden to our health system and government.

Two of the eligible groups per CMS (those with isolated ambulatory or nocturnal hypoxemia) do not benefit from LTOT in RCTs. The other two groups are eligible based on trial data from a small number of patients who were studied more than 40 years ago. These facts raise serious questions about the cost-efficacy of LTOT.

So where does this leave us?

There are significant barriers to repeating large randomized oxygen trials. Due to broad inclusion criteria for LTOT by CMS, there are undoubtedly many people prescribed LTOT for whom there is minimal to no benefit. Patients often feel restricted in their mobility and may feel isolated being tethered to medical equipment. It is good practice to think about LTOT the same way we do any other therapy we provide - as a medicine with associated risks, benefits, and costs.

Despite its ubiquity, oxygen remains an important therapeutic tool. Still, choosing wisely means recognizing that not all patients who qualify for LTOT by CMS criteria will benefit.

Drs. Kreisel and Sonti are with the Division of Pulmonary, Critical Care, and Sleep Medicine, MedStar Georgetown University Hospital, Washington, DC.

Inhalers, nebulizers, antibiotics, and steroids – these are some of the most common tools in our pulmonary arsenal that we deploy on a daily basis. But, there is no treatment more fundamental to a pulmonary practitioner than oxygen. So how is it that something that naturally occurs and comprises 21% of ambient air has become so medicalized?

It is difficult (perhaps impossible) to find a pulmonologist or a hospitalist who has not included the phrase “obtain ambulatory saturation to qualify the patient for home oxygen” in at least one of their progress notes on a daily basis. Chronic obstructive pulmonary disease (COPD) is the most common reason for the prescription of long-term oxygen therapy (LTOT), a large industry tightly regulated by the Centers for Medicare & Medicaid Services (CMS).

The evidence for the use of LTOT in patients with COPD dates back to two seminal papers published in 1980 and 1981. The British Medical Research Council Working Party conducted the BMRC trial, in which 87 patients with a Pao2 of 40 mm Hg to 60 mm Hg, CO2 retention, and a history of congestive heart failure were randomized to treatment with 15 hours per day of home oxygen therapy, starting at 2 L and titrating to Pao2 of 60 mm Hg vs. standard therapy without oxygen (Lancet. 1981;1[8222]:681-6). There was an impressive 22% mortality benefit at 3 years.

Another study published around the same time, the Continuous or nocturnal oxygen therapy in hypoxemic chronic obstructive lung disease (NOTT) trial (Ann Intern Med. 1980;93[3]:391-8) directly compared continuous 24-hour to nocturnal home oxygen therapy in patients with COPD and severe hypoxemia with a Pao2 less than 55 mm Hg. Again, there was an impressive mortality benefit in favor of continuous home oxygen with a 9% and 18% mortality difference at 1 and 2 years of enrollment, respectively.

Afterward, it became universally accepted dogma that patients with COPD and severe hypoxemia stood to substantially benefit from LTOT. For years, it was the only therapy associated with a mortality reduction. The LOTT study (Albert RK, et al. N Engl J Med. 2016;375[17]:1617-27) included 768 patients with stable COPD and a resting or nocturnal Spo2 of 89% to93%, as well as patients with moderate exercise-induced desaturation (Spo2 of greater than or equal to 80% and less than 90% for greater than or equal to 10 seconds during the 6-minute walk test). Half of these patients received oxygen for 24 hours per day, during sleep, or during exercise (depending on when desaturation would occur) and half received no oxygen. There was no difference in time to death or first hospitalization or in rates of hospitalization or exacerbation. There was also no difference between groups in quality of life, lung function, or distance walked in 6 minutes.

The INOX (Lacasse Y, et al. N Engl J Med. 2020;383[12]:1129-38) trial, in which 243 patients with oxygen saturation less than 90% for at least 30% of the night were assigned to receive nocturnal vs sham oxygen, found similar results. There was no difference in the composite outcome of all-cause mortality and progression to 24-7 oxygen requirement (according to the criteria originally defined by NOTT). A 2022 systematic review and meta-analysis including six studies designed to assess the role of LTOT in patients with COPD and moderate desaturation, including LOTT and INOX, found no benefit to providing LTOT (Lacasse Y, et al. Lancet Respir Med. 2022;10[11]:1029-37).

Based on these studies, a resting Spo2 of 88% seems to be the threshold below which LTOT improves outcomes. CMS lists four classes of patients eligible for LTOT: (1) Patients with Pao2 < 55 mm Hg or pulse oximetry less than or equal to 88% at rest or (2) during sleep or (3) during exercise, and (4) patients with Pao2 > 55 mm Hg but less than or equal to 59 mm Hg or pulse oximetry of 89% who have lower extremity edema, evidence of pulmonary hypertension, or erythrocythemia (Centers for Medicare & Medicaid Services. Medicare Coverage Database. 2021;100-103:240.2. These criteria reflect the inclusion criteria of the BMRC trial and NOTT.

COPD management has changed significantly in the 40 years since NOTT was published. In the early 1980s, standard of care included an inhaled beta-agonist and oral theophylline. We now prescribe a regimen of modern-day inhaler combinations, which can lead to a mortality benefit in the correct population. Additionally, rates of smoking are markedly lower now than they were in 1980. In the Minnesota Heart Survey, the prevalence of being an ever-smoking man or woman in 1980 compared with 2009 dropped from 71.6% and 54.7% to 44.2% and 39.6%, respectively (Filion KB, et al. Am J Public Health. 2012;102[4]:705-13). Treatment of common comorbid conditions has also dramatically improved.

A report containing all fee-for-service data published in 2021 by CMS reported oxygen therapy accounted for 9.8% of all DME costs covered by CMS and totaled approximately $800,000,000 (Centers for Medicare & Medicaid Services. FFS Data. 2021. This represents a significant financial burden to our health system and government.

Two of the eligible groups per CMS (those with isolated ambulatory or nocturnal hypoxemia) do not benefit from LTOT in RCTs. The other two groups are eligible based on trial data from a small number of patients who were studied more than 40 years ago. These facts raise serious questions about the cost-efficacy of LTOT.

So where does this leave us?

There are significant barriers to repeating large randomized oxygen trials. Due to broad inclusion criteria for LTOT by CMS, there are undoubtedly many people prescribed LTOT for whom there is minimal to no benefit. Patients often feel restricted in their mobility and may feel isolated being tethered to medical equipment. It is good practice to think about LTOT the same way we do any other therapy we provide - as a medicine with associated risks, benefits, and costs.

Despite its ubiquity, oxygen remains an important therapeutic tool. Still, choosing wisely means recognizing that not all patients who qualify for LTOT by CMS criteria will benefit.

Drs. Kreisel and Sonti are with the Division of Pulmonary, Critical Care, and Sleep Medicine, MedStar Georgetown University Hospital, Washington, DC.