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Physician compensation continues to climb amid postpandemic change
In addition, gender-based pay disparity among primary care physicians shrank, and the number of physicians who declined to take new Medicare patients rose.
The annual report is based on a survey of more than 10,000 physicians in over 29 specialties who answered questions about their income, workload, challenges, and level of satisfaction.
Average compensation across specialties rose to $352,000 – up nearly 17% from the 2018 average of $299,000. Fallout from the COVID-19 public health emergency continued to affect both physician compensation and job satisfaction, including Medicare reimbursements and staffing shortages due to burnout or retirement.
“Many physicians reevaluated what drove them to be a physician,” says Marc Adam, a recruiter at MASC Medical, a Florida physician recruiting firm.
Adam cites telehealth as an example. “An overwhelming majority of physicians prefer telehealth because of the convenience, but some really did not want to do it long term. They miss the patient interaction.”
The report also revealed that the gender-based pay gap in primary physicians fell, with men earning 19% more – down from 25% more in recent years. Among specialists, the gender gap was 27% on average, down from 31% last year. One reason may be an increase in compensation transparency, which Mr. Adam says should be the norm.
Income increases will likely continue, owing in large part to the growing disparity between physician supply and demand.
The projected physician shortage is expected to grow to 124,000 by 2034, according to the American Association of Medical Colleges. Federal lawmakers are considering passing the Resident Physician Shortage Reduction Act of 2023, which would add 14,000 Medicare-funded residency positions to help alleviate shortages.
Patient needs, Medicare rules continue to shift
Specialties with the biggest increases in compensation include oncology, anesthesiology, gastroenterology, radiology, critical care, and urology. Many procedure-related specialties saw more volume post pandemic.
Some respondents identified Medicare cuts and low reimbursement rates as a factor in tamping down compensation hikes. The number of physicians who expect to continue to take new Medicare patients is 65%, down from 71% 5 years ago.
For example, Medicare reimbursements for telehealth are expected to scale down in May, when the COVID-19 Public Health Emergency, which expanded telehealth services for Medicare patients, winds down.
“Telehealth will still exist,” says Mr. Adam, “but certain requirements will shape it going forward.”
Medicare isn’t viewed negatively across the board, however. Florida is among the top-earning states for physicians – along with Indiana, Connecticut, and Missouri. One reason is Florida’s unique health care environment, explains Mr. Adam, whose Florida-based firm places physicians nationwide.
“Florida is very progressive in terms of health care. For one thing, we have a large aging population and a large Medicare population.” Several growing organizations that focus on quality-based care are based in Florida, including ChenMed and Cano Health. Add to that the fact that owners of Florida’s health care organizations don’t have to be physicians, he explains, and the stage is set for experimentation.
“Being able to segment tasks frees up physicians to be more focused on medicine and provide better care while other people focus on the business and innovation.”
If Florida’s high compensation ranking continues, it may help employers there fulfill a growing need. The state is among those expected to experience the largest physician shortages in 2030, along with California, Texas, Arizona, and Georgia.
Side gigs up, satisfaction (slightly) down
In general, physicians aren’t fazed by these challenges. Many reported taking side gigs, some for additional income. Even so, 73% say they would still choose medicine, and more than 90% of physicians in 10 specialties would choose their specialty again. Still, burnout and stressors have led some to stop practicing altogether.
More and more organizations are hiring “travel physicians,” Mr. Adam says, and more physicians are choosing to take contract work (“locum tenens”) and practice in many different regions. Contract physicians typically help meet patient demand or provide coverage during the hiring process as well as while staff are on vacation or maternity leave.
Says Mr. Adam, “There’s no security, but there’s higher income and more flexibility.”
According to CHG Healthcare, locum tenens staffing is rising – approximately 7% of U.S. physicians (around 50,000) filled assignments in 2022, up 88% from 2015. In 2022, 56% of locum tenens employers reported a reduction in staff burnout, up from 30% in 2020.
The report indicates that more than half of physicians are satisfied with their income, down slightly from 55% 5 years ago (prepandemic). Physicians in some of the lower-paying specialties are among those most satisfied with their income. It’s not very surprising to Mr. Adam: “Higher earners generally suffer the most from burnout.
“They’re overworked, they have the largest number of patients, and they’re performing in high-stress situations doing challenging procedures on a daily basis – and they probably have worse work-life balance.” These physicians know going in that they need to be paid more to deal with such burdens. “That’s the feedback I get when I speak to high earners,” says Mr. Adam.
“The experienced ones are very clear about their [compensation] expectations.”
A version of this article first appeared on Medscape.com.
In addition, gender-based pay disparity among primary care physicians shrank, and the number of physicians who declined to take new Medicare patients rose.
The annual report is based on a survey of more than 10,000 physicians in over 29 specialties who answered questions about their income, workload, challenges, and level of satisfaction.
Average compensation across specialties rose to $352,000 – up nearly 17% from the 2018 average of $299,000. Fallout from the COVID-19 public health emergency continued to affect both physician compensation and job satisfaction, including Medicare reimbursements and staffing shortages due to burnout or retirement.
“Many physicians reevaluated what drove them to be a physician,” says Marc Adam, a recruiter at MASC Medical, a Florida physician recruiting firm.
Adam cites telehealth as an example. “An overwhelming majority of physicians prefer telehealth because of the convenience, but some really did not want to do it long term. They miss the patient interaction.”
The report also revealed that the gender-based pay gap in primary physicians fell, with men earning 19% more – down from 25% more in recent years. Among specialists, the gender gap was 27% on average, down from 31% last year. One reason may be an increase in compensation transparency, which Mr. Adam says should be the norm.
Income increases will likely continue, owing in large part to the growing disparity between physician supply and demand.
The projected physician shortage is expected to grow to 124,000 by 2034, according to the American Association of Medical Colleges. Federal lawmakers are considering passing the Resident Physician Shortage Reduction Act of 2023, which would add 14,000 Medicare-funded residency positions to help alleviate shortages.
Patient needs, Medicare rules continue to shift
Specialties with the biggest increases in compensation include oncology, anesthesiology, gastroenterology, radiology, critical care, and urology. Many procedure-related specialties saw more volume post pandemic.
Some respondents identified Medicare cuts and low reimbursement rates as a factor in tamping down compensation hikes. The number of physicians who expect to continue to take new Medicare patients is 65%, down from 71% 5 years ago.
For example, Medicare reimbursements for telehealth are expected to scale down in May, when the COVID-19 Public Health Emergency, which expanded telehealth services for Medicare patients, winds down.
“Telehealth will still exist,” says Mr. Adam, “but certain requirements will shape it going forward.”
Medicare isn’t viewed negatively across the board, however. Florida is among the top-earning states for physicians – along with Indiana, Connecticut, and Missouri. One reason is Florida’s unique health care environment, explains Mr. Adam, whose Florida-based firm places physicians nationwide.
“Florida is very progressive in terms of health care. For one thing, we have a large aging population and a large Medicare population.” Several growing organizations that focus on quality-based care are based in Florida, including ChenMed and Cano Health. Add to that the fact that owners of Florida’s health care organizations don’t have to be physicians, he explains, and the stage is set for experimentation.
“Being able to segment tasks frees up physicians to be more focused on medicine and provide better care while other people focus on the business and innovation.”
If Florida’s high compensation ranking continues, it may help employers there fulfill a growing need. The state is among those expected to experience the largest physician shortages in 2030, along with California, Texas, Arizona, and Georgia.
Side gigs up, satisfaction (slightly) down
In general, physicians aren’t fazed by these challenges. Many reported taking side gigs, some for additional income. Even so, 73% say they would still choose medicine, and more than 90% of physicians in 10 specialties would choose their specialty again. Still, burnout and stressors have led some to stop practicing altogether.
More and more organizations are hiring “travel physicians,” Mr. Adam says, and more physicians are choosing to take contract work (“locum tenens”) and practice in many different regions. Contract physicians typically help meet patient demand or provide coverage during the hiring process as well as while staff are on vacation or maternity leave.
Says Mr. Adam, “There’s no security, but there’s higher income and more flexibility.”
According to CHG Healthcare, locum tenens staffing is rising – approximately 7% of U.S. physicians (around 50,000) filled assignments in 2022, up 88% from 2015. In 2022, 56% of locum tenens employers reported a reduction in staff burnout, up from 30% in 2020.
The report indicates that more than half of physicians are satisfied with their income, down slightly from 55% 5 years ago (prepandemic). Physicians in some of the lower-paying specialties are among those most satisfied with their income. It’s not very surprising to Mr. Adam: “Higher earners generally suffer the most from burnout.
“They’re overworked, they have the largest number of patients, and they’re performing in high-stress situations doing challenging procedures on a daily basis – and they probably have worse work-life balance.” These physicians know going in that they need to be paid more to deal with such burdens. “That’s the feedback I get when I speak to high earners,” says Mr. Adam.
“The experienced ones are very clear about their [compensation] expectations.”
A version of this article first appeared on Medscape.com.
In addition, gender-based pay disparity among primary care physicians shrank, and the number of physicians who declined to take new Medicare patients rose.
The annual report is based on a survey of more than 10,000 physicians in over 29 specialties who answered questions about their income, workload, challenges, and level of satisfaction.
Average compensation across specialties rose to $352,000 – up nearly 17% from the 2018 average of $299,000. Fallout from the COVID-19 public health emergency continued to affect both physician compensation and job satisfaction, including Medicare reimbursements and staffing shortages due to burnout or retirement.
“Many physicians reevaluated what drove them to be a physician,” says Marc Adam, a recruiter at MASC Medical, a Florida physician recruiting firm.
Adam cites telehealth as an example. “An overwhelming majority of physicians prefer telehealth because of the convenience, but some really did not want to do it long term. They miss the patient interaction.”
The report also revealed that the gender-based pay gap in primary physicians fell, with men earning 19% more – down from 25% more in recent years. Among specialists, the gender gap was 27% on average, down from 31% last year. One reason may be an increase in compensation transparency, which Mr. Adam says should be the norm.
Income increases will likely continue, owing in large part to the growing disparity between physician supply and demand.
The projected physician shortage is expected to grow to 124,000 by 2034, according to the American Association of Medical Colleges. Federal lawmakers are considering passing the Resident Physician Shortage Reduction Act of 2023, which would add 14,000 Medicare-funded residency positions to help alleviate shortages.
Patient needs, Medicare rules continue to shift
Specialties with the biggest increases in compensation include oncology, anesthesiology, gastroenterology, radiology, critical care, and urology. Many procedure-related specialties saw more volume post pandemic.
Some respondents identified Medicare cuts and low reimbursement rates as a factor in tamping down compensation hikes. The number of physicians who expect to continue to take new Medicare patients is 65%, down from 71% 5 years ago.
For example, Medicare reimbursements for telehealth are expected to scale down in May, when the COVID-19 Public Health Emergency, which expanded telehealth services for Medicare patients, winds down.
“Telehealth will still exist,” says Mr. Adam, “but certain requirements will shape it going forward.”
Medicare isn’t viewed negatively across the board, however. Florida is among the top-earning states for physicians – along with Indiana, Connecticut, and Missouri. One reason is Florida’s unique health care environment, explains Mr. Adam, whose Florida-based firm places physicians nationwide.
“Florida is very progressive in terms of health care. For one thing, we have a large aging population and a large Medicare population.” Several growing organizations that focus on quality-based care are based in Florida, including ChenMed and Cano Health. Add to that the fact that owners of Florida’s health care organizations don’t have to be physicians, he explains, and the stage is set for experimentation.
“Being able to segment tasks frees up physicians to be more focused on medicine and provide better care while other people focus on the business and innovation.”
If Florida’s high compensation ranking continues, it may help employers there fulfill a growing need. The state is among those expected to experience the largest physician shortages in 2030, along with California, Texas, Arizona, and Georgia.
Side gigs up, satisfaction (slightly) down
In general, physicians aren’t fazed by these challenges. Many reported taking side gigs, some for additional income. Even so, 73% say they would still choose medicine, and more than 90% of physicians in 10 specialties would choose their specialty again. Still, burnout and stressors have led some to stop practicing altogether.
More and more organizations are hiring “travel physicians,” Mr. Adam says, and more physicians are choosing to take contract work (“locum tenens”) and practice in many different regions. Contract physicians typically help meet patient demand or provide coverage during the hiring process as well as while staff are on vacation or maternity leave.
Says Mr. Adam, “There’s no security, but there’s higher income and more flexibility.”
According to CHG Healthcare, locum tenens staffing is rising – approximately 7% of U.S. physicians (around 50,000) filled assignments in 2022, up 88% from 2015. In 2022, 56% of locum tenens employers reported a reduction in staff burnout, up from 30% in 2020.
The report indicates that more than half of physicians are satisfied with their income, down slightly from 55% 5 years ago (prepandemic). Physicians in some of the lower-paying specialties are among those most satisfied with their income. It’s not very surprising to Mr. Adam: “Higher earners generally suffer the most from burnout.
“They’re overworked, they have the largest number of patients, and they’re performing in high-stress situations doing challenging procedures on a daily basis – and they probably have worse work-life balance.” These physicians know going in that they need to be paid more to deal with such burdens. “That’s the feedback I get when I speak to high earners,” says Mr. Adam.
“The experienced ones are very clear about their [compensation] expectations.”
A version of this article first appeared on Medscape.com.
Napping and AFib risk: The long and the short of it
Napping for more than half an hour during the day was associated with a 90% increased risk of atrial fibrillation (AFib), but shorter naps were linked to a reduced risk, based on data from more than 20,000 individuals.
“Short daytime napping is a common, healthy habit, especially in Mediterranean countries,” Jesus Diaz-Gutierrez, MD, of Juan Ramon Jimenez University Hospital, Huelva, Spain, said in a presentation at the annual congress of the European Association of Preventive Cardiology (EAPC).
Previous studies have shown a potential link between sleep patterns and AFib risk, but the association between specific duration of daytime naps and AFib risk has not been explored, he said.
Dr. Diaz-Gutierrez and colleagues used data from the University of Navarra Follow-up (SUN) Project, a prospective cohort of Spanish university graduates, to explore the possible link between naps and AFib. The study population included 20,348 individuals without AFib at baseline who were followed for a median of 13.8 years. The average age of participants at baseline was 38 years; 61% were women.
Daytime napping patterns were assessed at baseline, and participants were divided into nap groups of short nappers (defined as less than 30 minutes per day), and longer nappers (30 minutes or more per day), and those who reported no napping.
The researchers identified 131 incident cases of AFib during the follow-up period. Overall, the relative risk of incident AFib was significantly higher for the long nappers (adjusted hazard ratio 1.90) compared with short nappers in a multivariate analysis, while no significant risk appeared among non-nappers compared to short nappers (aHR 1.26).
The researchers then excluded the non-nappers in a secondary analysis to explore the impact of more specific daily nap duration on AFib risk. In a multivariate analysis, they found a 42% reduced risk of AF among those who napped for less than 15 minutes, and a 56% reduced risk for those who napped for 15-30 minutes, compared with those who napped for more than 30 minutes (aHR 0.56 and 0.42, respectively).
Potential explanations for the associations include the role of circadian rhythms, Dr. Diaz-Gutierrez said in a press release accompanying the presentation at the meeting. “Long daytime naps may disrupt the body’s internal clock (circadian rhythm), leading to shorter nighttime sleep, more nocturnal awakening, and reduced physical activity. In contrast, short daytime napping may improve circadian rhythm, lower blood pressure levels, and reduce stress.” More research is needed to validate the findings and the optimum nap duration, and whether a short nap is more advantageous than not napping in terms of AFib risk reduction, he said.
The study results suggest that naps of 15-30 minutes represent “a potential novel healthy lifestyle habit in the primary prevention of AFib,” Dr. Diaz-Gutierrez said in his presentation. However, the results also suggest that daily naps be limited to less than 30 minutes, he concluded.
Sleep habits may serve as red flag
“As we age, most if not all of us will develop sleep disturbances, such as insomnia, obstructive sleep apnea (OSA), and other sleep issues,” Lawrence S. Rosenthal, MD, of the University of Massachusetts, Worcester, said in an interview.
Therefore, “this study is near and dear to most people, and most would agree that poor sleeping habits affect our health.” In particular, OSA has been linked to AFib, although that was not measured in the current study, he added.
Dr. Rosenthal said he was not surprised by the current study findings. “It seems that a quick recharge of your ‘battery’ during the day is healthier than a long, deep sleep daytime nap,” he said. In addition, “Longer naps may be a marker of OSA,” he noted.
For clinicians, the take-home message of the current study is the need to consider underlying medical conditions in patients who regularly take long afternoon naps, and to consider these longer naps as a potential marker for AFib, said Dr. Rosenthal.
Looking ahead, a “deeper dive into the makeup of the populations studied” would be useful as a foundation for additional research, he said.
The SUN Project disclosed funding from the Spanish Government-Instituto de Salud Carlos III and the European Regional Development Fund (FEDER), the Navarra Regional Government, Plan Nacional Sobre Drogas, the University of Navarra, and the European Research Council. The researchers, and Dr. Rosenthal, had no financial conflicts to disclose.
Napping for more than half an hour during the day was associated with a 90% increased risk of atrial fibrillation (AFib), but shorter naps were linked to a reduced risk, based on data from more than 20,000 individuals.
“Short daytime napping is a common, healthy habit, especially in Mediterranean countries,” Jesus Diaz-Gutierrez, MD, of Juan Ramon Jimenez University Hospital, Huelva, Spain, said in a presentation at the annual congress of the European Association of Preventive Cardiology (EAPC).
Previous studies have shown a potential link between sleep patterns and AFib risk, but the association between specific duration of daytime naps and AFib risk has not been explored, he said.
Dr. Diaz-Gutierrez and colleagues used data from the University of Navarra Follow-up (SUN) Project, a prospective cohort of Spanish university graduates, to explore the possible link between naps and AFib. The study population included 20,348 individuals without AFib at baseline who were followed for a median of 13.8 years. The average age of participants at baseline was 38 years; 61% were women.
Daytime napping patterns were assessed at baseline, and participants were divided into nap groups of short nappers (defined as less than 30 minutes per day), and longer nappers (30 minutes or more per day), and those who reported no napping.
The researchers identified 131 incident cases of AFib during the follow-up period. Overall, the relative risk of incident AFib was significantly higher for the long nappers (adjusted hazard ratio 1.90) compared with short nappers in a multivariate analysis, while no significant risk appeared among non-nappers compared to short nappers (aHR 1.26).
The researchers then excluded the non-nappers in a secondary analysis to explore the impact of more specific daily nap duration on AFib risk. In a multivariate analysis, they found a 42% reduced risk of AF among those who napped for less than 15 minutes, and a 56% reduced risk for those who napped for 15-30 minutes, compared with those who napped for more than 30 minutes (aHR 0.56 and 0.42, respectively).
Potential explanations for the associations include the role of circadian rhythms, Dr. Diaz-Gutierrez said in a press release accompanying the presentation at the meeting. “Long daytime naps may disrupt the body’s internal clock (circadian rhythm), leading to shorter nighttime sleep, more nocturnal awakening, and reduced physical activity. In contrast, short daytime napping may improve circadian rhythm, lower blood pressure levels, and reduce stress.” More research is needed to validate the findings and the optimum nap duration, and whether a short nap is more advantageous than not napping in terms of AFib risk reduction, he said.
The study results suggest that naps of 15-30 minutes represent “a potential novel healthy lifestyle habit in the primary prevention of AFib,” Dr. Diaz-Gutierrez said in his presentation. However, the results also suggest that daily naps be limited to less than 30 minutes, he concluded.
Sleep habits may serve as red flag
“As we age, most if not all of us will develop sleep disturbances, such as insomnia, obstructive sleep apnea (OSA), and other sleep issues,” Lawrence S. Rosenthal, MD, of the University of Massachusetts, Worcester, said in an interview.
Therefore, “this study is near and dear to most people, and most would agree that poor sleeping habits affect our health.” In particular, OSA has been linked to AFib, although that was not measured in the current study, he added.
Dr. Rosenthal said he was not surprised by the current study findings. “It seems that a quick recharge of your ‘battery’ during the day is healthier than a long, deep sleep daytime nap,” he said. In addition, “Longer naps may be a marker of OSA,” he noted.
For clinicians, the take-home message of the current study is the need to consider underlying medical conditions in patients who regularly take long afternoon naps, and to consider these longer naps as a potential marker for AFib, said Dr. Rosenthal.
Looking ahead, a “deeper dive into the makeup of the populations studied” would be useful as a foundation for additional research, he said.
The SUN Project disclosed funding from the Spanish Government-Instituto de Salud Carlos III and the European Regional Development Fund (FEDER), the Navarra Regional Government, Plan Nacional Sobre Drogas, the University of Navarra, and the European Research Council. The researchers, and Dr. Rosenthal, had no financial conflicts to disclose.
Napping for more than half an hour during the day was associated with a 90% increased risk of atrial fibrillation (AFib), but shorter naps were linked to a reduced risk, based on data from more than 20,000 individuals.
“Short daytime napping is a common, healthy habit, especially in Mediterranean countries,” Jesus Diaz-Gutierrez, MD, of Juan Ramon Jimenez University Hospital, Huelva, Spain, said in a presentation at the annual congress of the European Association of Preventive Cardiology (EAPC).
Previous studies have shown a potential link between sleep patterns and AFib risk, but the association between specific duration of daytime naps and AFib risk has not been explored, he said.
Dr. Diaz-Gutierrez and colleagues used data from the University of Navarra Follow-up (SUN) Project, a prospective cohort of Spanish university graduates, to explore the possible link between naps and AFib. The study population included 20,348 individuals without AFib at baseline who were followed for a median of 13.8 years. The average age of participants at baseline was 38 years; 61% were women.
Daytime napping patterns were assessed at baseline, and participants were divided into nap groups of short nappers (defined as less than 30 minutes per day), and longer nappers (30 minutes or more per day), and those who reported no napping.
The researchers identified 131 incident cases of AFib during the follow-up period. Overall, the relative risk of incident AFib was significantly higher for the long nappers (adjusted hazard ratio 1.90) compared with short nappers in a multivariate analysis, while no significant risk appeared among non-nappers compared to short nappers (aHR 1.26).
The researchers then excluded the non-nappers in a secondary analysis to explore the impact of more specific daily nap duration on AFib risk. In a multivariate analysis, they found a 42% reduced risk of AF among those who napped for less than 15 minutes, and a 56% reduced risk for those who napped for 15-30 minutes, compared with those who napped for more than 30 minutes (aHR 0.56 and 0.42, respectively).
Potential explanations for the associations include the role of circadian rhythms, Dr. Diaz-Gutierrez said in a press release accompanying the presentation at the meeting. “Long daytime naps may disrupt the body’s internal clock (circadian rhythm), leading to shorter nighttime sleep, more nocturnal awakening, and reduced physical activity. In contrast, short daytime napping may improve circadian rhythm, lower blood pressure levels, and reduce stress.” More research is needed to validate the findings and the optimum nap duration, and whether a short nap is more advantageous than not napping in terms of AFib risk reduction, he said.
The study results suggest that naps of 15-30 minutes represent “a potential novel healthy lifestyle habit in the primary prevention of AFib,” Dr. Diaz-Gutierrez said in his presentation. However, the results also suggest that daily naps be limited to less than 30 minutes, he concluded.
Sleep habits may serve as red flag
“As we age, most if not all of us will develop sleep disturbances, such as insomnia, obstructive sleep apnea (OSA), and other sleep issues,” Lawrence S. Rosenthal, MD, of the University of Massachusetts, Worcester, said in an interview.
Therefore, “this study is near and dear to most people, and most would agree that poor sleeping habits affect our health.” In particular, OSA has been linked to AFib, although that was not measured in the current study, he added.
Dr. Rosenthal said he was not surprised by the current study findings. “It seems that a quick recharge of your ‘battery’ during the day is healthier than a long, deep sleep daytime nap,” he said. In addition, “Longer naps may be a marker of OSA,” he noted.
For clinicians, the take-home message of the current study is the need to consider underlying medical conditions in patients who regularly take long afternoon naps, and to consider these longer naps as a potential marker for AFib, said Dr. Rosenthal.
Looking ahead, a “deeper dive into the makeup of the populations studied” would be useful as a foundation for additional research, he said.
The SUN Project disclosed funding from the Spanish Government-Instituto de Salud Carlos III and the European Regional Development Fund (FEDER), the Navarra Regional Government, Plan Nacional Sobre Drogas, the University of Navarra, and the European Research Council. The researchers, and Dr. Rosenthal, had no financial conflicts to disclose.
FROM ESC PREVENTIVE CARDIOLOGY 2023
Get action! – Teddy Roosevelt
“Papa! Where donut?” asks my 2½ year-old sitting with her legs dangling and hands folded in a bustling Starbucks. We’ve been waiting for 8 minutes and we’ve reached her limit of tolerance. She’s unimpressed by the queued customers who compliment her curly blonde hair, many of whom have come and gone since we’ve been waiting. I agree – how long does it take to pour a kiddie milk and grab a donut? We can both see it in the case right there!
No one likes to wait. Truly, one of the great benefits of the modern world is that wait times are now incredibly short. Many Starbucks customers, unlike my daughter, ordered their drink ahead and waited exactly 0 minutes to get their drink. What about Amazon? I ordered a bird feeder this morning and it’s already hanging in the yard. It’s still daylight. Feel like Himalayan Momo Dumplings tonight? Your food could arrive in 37 minutes. The modern wait standard has been set impossibly high for us.
Yes, for some. We created a whole room just for waiting. Airlines call theirs “The Platinum Executive Lounge.” Ours is “The waiting room.”
Excess waiting is a significant reason why health care gets beat up in reviews. We’re unable to keep up with the new expectations. Waiting is also a significant cause of distress. Many patients report the most difficult part of their cancer diagnosis was the waiting for results, not the treatment. It’s because when under stress, we are hardwired to take action. Binding patients into inaction while they wait is very uncomfortable.
Fortunately, the psychology of waiting is well understood and there are best practices that can help. First, anxiety makes waiting much worse. Conveying confidence and reassuring patients they are in the right place and that everything will be OK makes the wait time feel shorter for them. Uncertainty also compounds their apprehension. If you believe the diagnosis will be melanoma, tell them that at the time of the biopsy and tell them what you expect next. This is better than saying, “Well, that could be cancer. We’ll see.”
Knowing a wait time is also much better than not. Have your staff advise patients on how much longer they can expect before seeing you (telling them they’re next isn’t as effective). Advise that test results should be back by the end of next week. Of course, under promise and over deliver. When the results are back on Tuesday, you’ve got a pleased patient.
Explaining that you had to add in an urgent patient helps. Even if it’s not your fault, it’s still better to apologize. For example, the 78 highway, the left anterior descending artery to our office, has been closed because of a sinkhole this month (not kidding). I’ve been apologizing to a lot of patients saying that all our patients are arriving late, which is putting us behind. As they can envision the linear parking lot that used to be a highway, it helps.
Lastly, as any child can tell you, waiting has to not only be, but to also appear, fair. The only thing worse than waiting for an appointment, or donut, is seeing someone who came in after you get their donut before you do. If you’re pulling both Mohs and cosmetics patients from the same waiting area, then your surgery patients will see a lot of patients come and go while they are sitting. Demarcating one sitting area for Mohs and one for clinics might help. So does ordering ahead. I’d show my daughter how to use the app so we don’t have to wait so long next week, but she’s 2 and I’m quite sure she already knows.
Dr. Benabio is director of Healthcare Transformation and chief of dermatology at Kaiser Permanente San Diego. The opinions expressed in this column are his own and do not represent those of Kaiser Permanente. Dr. Benabio is @Dermdoc on Twitter. Write to him at [email protected].
“Papa! Where donut?” asks my 2½ year-old sitting with her legs dangling and hands folded in a bustling Starbucks. We’ve been waiting for 8 minutes and we’ve reached her limit of tolerance. She’s unimpressed by the queued customers who compliment her curly blonde hair, many of whom have come and gone since we’ve been waiting. I agree – how long does it take to pour a kiddie milk and grab a donut? We can both see it in the case right there!
No one likes to wait. Truly, one of the great benefits of the modern world is that wait times are now incredibly short. Many Starbucks customers, unlike my daughter, ordered their drink ahead and waited exactly 0 minutes to get their drink. What about Amazon? I ordered a bird feeder this morning and it’s already hanging in the yard. It’s still daylight. Feel like Himalayan Momo Dumplings tonight? Your food could arrive in 37 minutes. The modern wait standard has been set impossibly high for us.
Yes, for some. We created a whole room just for waiting. Airlines call theirs “The Platinum Executive Lounge.” Ours is “The waiting room.”
Excess waiting is a significant reason why health care gets beat up in reviews. We’re unable to keep up with the new expectations. Waiting is also a significant cause of distress. Many patients report the most difficult part of their cancer diagnosis was the waiting for results, not the treatment. It’s because when under stress, we are hardwired to take action. Binding patients into inaction while they wait is very uncomfortable.
Fortunately, the psychology of waiting is well understood and there are best practices that can help. First, anxiety makes waiting much worse. Conveying confidence and reassuring patients they are in the right place and that everything will be OK makes the wait time feel shorter for them. Uncertainty also compounds their apprehension. If you believe the diagnosis will be melanoma, tell them that at the time of the biopsy and tell them what you expect next. This is better than saying, “Well, that could be cancer. We’ll see.”
Knowing a wait time is also much better than not. Have your staff advise patients on how much longer they can expect before seeing you (telling them they’re next isn’t as effective). Advise that test results should be back by the end of next week. Of course, under promise and over deliver. When the results are back on Tuesday, you’ve got a pleased patient.
Explaining that you had to add in an urgent patient helps. Even if it’s not your fault, it’s still better to apologize. For example, the 78 highway, the left anterior descending artery to our office, has been closed because of a sinkhole this month (not kidding). I’ve been apologizing to a lot of patients saying that all our patients are arriving late, which is putting us behind. As they can envision the linear parking lot that used to be a highway, it helps.
Lastly, as any child can tell you, waiting has to not only be, but to also appear, fair. The only thing worse than waiting for an appointment, or donut, is seeing someone who came in after you get their donut before you do. If you’re pulling both Mohs and cosmetics patients from the same waiting area, then your surgery patients will see a lot of patients come and go while they are sitting. Demarcating one sitting area for Mohs and one for clinics might help. So does ordering ahead. I’d show my daughter how to use the app so we don’t have to wait so long next week, but she’s 2 and I’m quite sure she already knows.
Dr. Benabio is director of Healthcare Transformation and chief of dermatology at Kaiser Permanente San Diego. The opinions expressed in this column are his own and do not represent those of Kaiser Permanente. Dr. Benabio is @Dermdoc on Twitter. Write to him at [email protected].
“Papa! Where donut?” asks my 2½ year-old sitting with her legs dangling and hands folded in a bustling Starbucks. We’ve been waiting for 8 minutes and we’ve reached her limit of tolerance. She’s unimpressed by the queued customers who compliment her curly blonde hair, many of whom have come and gone since we’ve been waiting. I agree – how long does it take to pour a kiddie milk and grab a donut? We can both see it in the case right there!
No one likes to wait. Truly, one of the great benefits of the modern world is that wait times are now incredibly short. Many Starbucks customers, unlike my daughter, ordered their drink ahead and waited exactly 0 minutes to get their drink. What about Amazon? I ordered a bird feeder this morning and it’s already hanging in the yard. It’s still daylight. Feel like Himalayan Momo Dumplings tonight? Your food could arrive in 37 minutes. The modern wait standard has been set impossibly high for us.
Yes, for some. We created a whole room just for waiting. Airlines call theirs “The Platinum Executive Lounge.” Ours is “The waiting room.”
Excess waiting is a significant reason why health care gets beat up in reviews. We’re unable to keep up with the new expectations. Waiting is also a significant cause of distress. Many patients report the most difficult part of their cancer diagnosis was the waiting for results, not the treatment. It’s because when under stress, we are hardwired to take action. Binding patients into inaction while they wait is very uncomfortable.
Fortunately, the psychology of waiting is well understood and there are best practices that can help. First, anxiety makes waiting much worse. Conveying confidence and reassuring patients they are in the right place and that everything will be OK makes the wait time feel shorter for them. Uncertainty also compounds their apprehension. If you believe the diagnosis will be melanoma, tell them that at the time of the biopsy and tell them what you expect next. This is better than saying, “Well, that could be cancer. We’ll see.”
Knowing a wait time is also much better than not. Have your staff advise patients on how much longer they can expect before seeing you (telling them they’re next isn’t as effective). Advise that test results should be back by the end of next week. Of course, under promise and over deliver. When the results are back on Tuesday, you’ve got a pleased patient.
Explaining that you had to add in an urgent patient helps. Even if it’s not your fault, it’s still better to apologize. For example, the 78 highway, the left anterior descending artery to our office, has been closed because of a sinkhole this month (not kidding). I’ve been apologizing to a lot of patients saying that all our patients are arriving late, which is putting us behind. As they can envision the linear parking lot that used to be a highway, it helps.
Lastly, as any child can tell you, waiting has to not only be, but to also appear, fair. The only thing worse than waiting for an appointment, or donut, is seeing someone who came in after you get their donut before you do. If you’re pulling both Mohs and cosmetics patients from the same waiting area, then your surgery patients will see a lot of patients come and go while they are sitting. Demarcating one sitting area for Mohs and one for clinics might help. So does ordering ahead. I’d show my daughter how to use the app so we don’t have to wait so long next week, but she’s 2 and I’m quite sure she already knows.
Dr. Benabio is director of Healthcare Transformation and chief of dermatology at Kaiser Permanente San Diego. The opinions expressed in this column are his own and do not represent those of Kaiser Permanente. Dr. Benabio is @Dermdoc on Twitter. Write to him at [email protected].
Medicare expands CGM coverage to more with type 2 diabetes
Medicare is now covering continuous glucose monitoring (CGM) for all beneficiaries with diabetes who use insulin, as well as those with a “history of problematic hypoglycemia.”
The new policy decision, announced earlier this year by the Centers for Medicare and Medicaid Services, means that coverage is expanded to those who take even just a single dose of basal insulin daily or who don’t take insulin but who for other reasons experience “problematic” hypoglycemia, defined as a history of more than one level 2 event (glucose < 54 mg/dL) or at least one level 3 event (< 54 mg/dL requiring assistance).
Previously, coverage was limited to those taking frequent daily insulin doses.
The additional number of people covered, most with type 2 diabetes, is estimated to be at least 1.5 million. That number could more than double if private insurers follow suit, reported an industry analyst.
Chuck Henderson, chief executive officer of the American Diabetes Association, said in a statement: “We applaud CMS’ decision allowing for all insulin-dependent people as well as others who have a history of problematic hypoglycemia to have access to a continuous glucose monitor, a potentially life-saving tool for diabetes management.”
According to Dexcom, which manufacturers the G6 and the recently approved G7 CGMs, the decision was based in part on their MOBILE study. The trial demonstrated the benefit of CGM in people with type 2 diabetes who use only basal insulin or have a history of problematic hypoglycemic events.
On April 14, Abbott, which manufactures the Freestyle Libre 2 and the recently approved Libre 3, received clearance from the U.S. Food and Drug Administration for the Libre 3’s stand-alone reader device. Previously, the Libre 3 had been approved for use only with a smartphone app. The small handheld reader is considered durable medical equipment, making it eligible for Medicare coverage. Abbott is “working on having the FreeStyle Libre 3 system available to Medicare beneficiaries,” the company said in a statement.
A version of this article first appeared on Medscape.com.
Medicare is now covering continuous glucose monitoring (CGM) for all beneficiaries with diabetes who use insulin, as well as those with a “history of problematic hypoglycemia.”
The new policy decision, announced earlier this year by the Centers for Medicare and Medicaid Services, means that coverage is expanded to those who take even just a single dose of basal insulin daily or who don’t take insulin but who for other reasons experience “problematic” hypoglycemia, defined as a history of more than one level 2 event (glucose < 54 mg/dL) or at least one level 3 event (< 54 mg/dL requiring assistance).
Previously, coverage was limited to those taking frequent daily insulin doses.
The additional number of people covered, most with type 2 diabetes, is estimated to be at least 1.5 million. That number could more than double if private insurers follow suit, reported an industry analyst.
Chuck Henderson, chief executive officer of the American Diabetes Association, said in a statement: “We applaud CMS’ decision allowing for all insulin-dependent people as well as others who have a history of problematic hypoglycemia to have access to a continuous glucose monitor, a potentially life-saving tool for diabetes management.”
According to Dexcom, which manufacturers the G6 and the recently approved G7 CGMs, the decision was based in part on their MOBILE study. The trial demonstrated the benefit of CGM in people with type 2 diabetes who use only basal insulin or have a history of problematic hypoglycemic events.
On April 14, Abbott, which manufactures the Freestyle Libre 2 and the recently approved Libre 3, received clearance from the U.S. Food and Drug Administration for the Libre 3’s stand-alone reader device. Previously, the Libre 3 had been approved for use only with a smartphone app. The small handheld reader is considered durable medical equipment, making it eligible for Medicare coverage. Abbott is “working on having the FreeStyle Libre 3 system available to Medicare beneficiaries,” the company said in a statement.
A version of this article first appeared on Medscape.com.
Medicare is now covering continuous glucose monitoring (CGM) for all beneficiaries with diabetes who use insulin, as well as those with a “history of problematic hypoglycemia.”
The new policy decision, announced earlier this year by the Centers for Medicare and Medicaid Services, means that coverage is expanded to those who take even just a single dose of basal insulin daily or who don’t take insulin but who for other reasons experience “problematic” hypoglycemia, defined as a history of more than one level 2 event (glucose < 54 mg/dL) or at least one level 3 event (< 54 mg/dL requiring assistance).
Previously, coverage was limited to those taking frequent daily insulin doses.
The additional number of people covered, most with type 2 diabetes, is estimated to be at least 1.5 million. That number could more than double if private insurers follow suit, reported an industry analyst.
Chuck Henderson, chief executive officer of the American Diabetes Association, said in a statement: “We applaud CMS’ decision allowing for all insulin-dependent people as well as others who have a history of problematic hypoglycemia to have access to a continuous glucose monitor, a potentially life-saving tool for diabetes management.”
According to Dexcom, which manufacturers the G6 and the recently approved G7 CGMs, the decision was based in part on their MOBILE study. The trial demonstrated the benefit of CGM in people with type 2 diabetes who use only basal insulin or have a history of problematic hypoglycemic events.
On April 14, Abbott, which manufactures the Freestyle Libre 2 and the recently approved Libre 3, received clearance from the U.S. Food and Drug Administration for the Libre 3’s stand-alone reader device. Previously, the Libre 3 had been approved for use only with a smartphone app. The small handheld reader is considered durable medical equipment, making it eligible for Medicare coverage. Abbott is “working on having the FreeStyle Libre 3 system available to Medicare beneficiaries,” the company said in a statement.
A version of this article first appeared on Medscape.com.
Intermittent fasting plus early eating may prevent type 2 diabetes
, indicate the results of a randomized controlled trial.
The study involved more than 200 individuals randomized to one of three groups: eat only in the morning (from 8:00 a.m. to noon) followed by 20 hours of fasting 3 days per week and eat as desired on the other days; daily calorie restriction to 70% of requirements; or standard weight loss advice.
The IF plus early time-restricted eating intervention was associated with a significant improvement in a key measure of glucose control versus calorie restriction at 6 months, while both interventions were linked to benefits in terms of cardiovascular risk markers and body composition, compared with the standard weight loss advice.
However, the research, published in Nature Medicine, showed that the additional benefit of IF plus early time-restricted eating did not persist, and less than half of participants were still following the plan at 18 months, compared with almost 80% of those in the calorie-restriction group.
“Following a time-restricted, IF diet could help lower the chances of developing type 2 diabetes,” senior author Leonie K. Heilbronn, PhD, University of Adelaide, South Australia, said in a press release.
This is “the largest study in the world to date, and the first powered to assess how the body processes and uses glucose after eating a meal,” with the latter being a better indicator of diabetes risk than a fasting glucose test, added first author Xiao Tong Teong, a PhD student, also at the University of Adelaide.
“The results of this study add to the growing body of evidence to indicate that meal timing and fasting advice extends the health benefits of a restricted-calorie diet, independently from weight loss, and this may be influential in clinical practice,” Ms. Teong added.
Adherence difficult to IF plus early time-restricted eating
Asked to comment, Krista Varady, PhD, said that the study design “would have been stronger if the time-restricted eating and IF interventions were separated” and compared.
“Time-restricted eating has been shown to naturally reduce calorie intake by 300-500 kcal/day,” she said in an interview, “so I’m not sure why the investigators chose to combine [it] with IF. It ... defeats the point of time-restricted eating.”
Dr. Varady, who recently coauthored a review of the clinical application of IF for weight loss, also doubted whether individuals would adhere to combined early time-restricted eating and IF. “In all honesty, I don’t think anyone would follow this diet for very long,” she said.
She added that the feasibility of this particular approach is “very questionable. In general, people don’t like diets that require them to skip dinner with family/friends on multiple days of the week,” explained Dr. Varady, professor of nutrition at the University of Illinois, Chicago. “These regimens make social eating very difficult, which results in high attrition.
“Indeed, evidence from a recent large-scale observational study of nearly 800,000 adults shows that Americans who engage in time-restricted eating placed their eating window in the afternoon or evening,” she noted.
Dr. Varady therefore suggested that future trials should test “more feasible time-restricted eating approaches,” such as those with later eating windows and without “vigilant calorie monitoring.”
“These types of diets are much easier to follow and are more likely to produce lasting weight and glycemic control in people with obesity and prediabetes,” she observed.
A novel way to cut calories?
The Australian authors say there is growing interest in extending the established health benefits of calorie restriction through new approaches such as timing of meals and prolonged fasting, with IF – defined as fasting interspersed with days of ad libitum eating – gaining in popularity as an alternative to simple calorie restriction.
Time-restricted eating, which emphasizes shorter daily eating windows in alignment with circadian rhythms, has also become popular in recent years, although the authors acknowledge that current evidence suggests any benefits over calorie restriction alone in terms of body composition, blood lipids, or glucose parameters are small.
To examine the combination of IF plus early time-restricted eating, in the DIRECT trial, the team recruited individuals aged 35-75 years who had a score of at least 12 on the Australian Type 2 Diabetes Risk Assessment Tool but did not have a diagnosis of diabetes and had stable weight for more than 6 months prior to study entry.
The participants were randomized to one of three groups:
- IF plus early time-restricted eating, which allowed consumption of 30% of calculated baseline energy requirements between 8:00 a.m. and midday, followed by a 20-hour fast from midday on 3 nonconsecutive days per week. They consumed their regular diet on nonfasting days.
- Calorie restriction, where they consumed 70% of daily calculated baseline energy requirements each day and were given rotating menu plans, but no specific mealtimes.
- Standard care, where they were given a booklet on current guidelines, with no counseling or meal replacement.
There were clinic visits every 2 weeks for the first 6 months of follow-up, and then monthly visits for 12 months. The two intervention groups had one-on-one diet counseling for the first 6 months. All groups were instructed to maintain their usual physical activity levels.
A total of 209 individuals were enrolled between Sept. 26, 2018, and May 4, 2020. Their mean age was 58 years, and 57% were women. Mean body mass index was 34.8 kg/m2.
In all, 40.7% of participants were allocated to IF plus early time-restricted eating, 39.7% to calorie restriction, and the remaining 19.6% to standard care.
The results showed that IF plus early time-restricted eating was associated with a significantly greater improvement in the primary outcome of postprandial glucose area under the curve (AUC) at month 6 compared with calorie restriction, at –10.1 mg/dL/min versus –3.6 mg/dL/min (P = .03).
“To our knowledge, no [prior] studies have been powered for postprandial assessments of glycemia, which are better indicators of diabetes risk than fasting assessment,” the authors underlined.
IF plus early time-restricted eating was also associated with greater reductions in postprandial insulin AUC versus calorie restriction at 6 months (P = .04). However, the differences between the IF plus early time-restricted eating and calorie restriction groups for postmeal insulin did not remain significant at 18 months of follow-up.
Both IF plus early time-restricted eating and calorie restriction were associated with greater reductions in A1c levels at 6 months versus standard care, but there was no significant difference between the two active interventions (P = .46).
Both interventions were also associated with improvements in markers of cardiovascular risk versus standard care, such as systolic blood pressure at 2 months, diastolic blood pressure at 6 months, and fasting triglycerides at both time points, with no significant differences between the two intervention groups.
IF plus early time-restricted eating and calorie restriction were also both associated with greater reductions in BMI and fat mass in the first 6 months, as well as in waist circumference.
Calorie restriction easier to stick to, less likely to cause fatigue
When offered the chance to modify their diet plan at 6 months, 46% of participants in the IF plus early time-restricted eating group said they would maintain 3 days of restrictions per week, while 51% chose to reduce the restrictions to 2 days per week.
In contrast, 97% of those who completed the calorie-restriction plan indicated they would continue with their current diet plan.
At 18 months, 42% of participants in the IF plus early time-restricted eating group said they still undertook 2-3 days of restrictions per week, while 78% of those assigned to calorie restriction reported that they followed a calorie-restricted diet.
Fatigue was more common with IF plus early time-restricted eating, reported by 56% of participants versus 37% of those following calorie restriction, and 35% of those in the standard care group at 6 months. Headaches and constipation were more common in the intervention groups than with standard care.
The study was supported by a National Health and Medical Research Council Project Grant, an Australian Government Research Training Program Scholarship from the University of Adelaide, and a Diabetes Australia Research Program Grant.
No relevant financial relationships were declared.
A version of this article originally appeared on Medscape.com.
, indicate the results of a randomized controlled trial.
The study involved more than 200 individuals randomized to one of three groups: eat only in the morning (from 8:00 a.m. to noon) followed by 20 hours of fasting 3 days per week and eat as desired on the other days; daily calorie restriction to 70% of requirements; or standard weight loss advice.
The IF plus early time-restricted eating intervention was associated with a significant improvement in a key measure of glucose control versus calorie restriction at 6 months, while both interventions were linked to benefits in terms of cardiovascular risk markers and body composition, compared with the standard weight loss advice.
However, the research, published in Nature Medicine, showed that the additional benefit of IF plus early time-restricted eating did not persist, and less than half of participants were still following the plan at 18 months, compared with almost 80% of those in the calorie-restriction group.
“Following a time-restricted, IF diet could help lower the chances of developing type 2 diabetes,” senior author Leonie K. Heilbronn, PhD, University of Adelaide, South Australia, said in a press release.
This is “the largest study in the world to date, and the first powered to assess how the body processes and uses glucose after eating a meal,” with the latter being a better indicator of diabetes risk than a fasting glucose test, added first author Xiao Tong Teong, a PhD student, also at the University of Adelaide.
“The results of this study add to the growing body of evidence to indicate that meal timing and fasting advice extends the health benefits of a restricted-calorie diet, independently from weight loss, and this may be influential in clinical practice,” Ms. Teong added.
Adherence difficult to IF plus early time-restricted eating
Asked to comment, Krista Varady, PhD, said that the study design “would have been stronger if the time-restricted eating and IF interventions were separated” and compared.
“Time-restricted eating has been shown to naturally reduce calorie intake by 300-500 kcal/day,” she said in an interview, “so I’m not sure why the investigators chose to combine [it] with IF. It ... defeats the point of time-restricted eating.”
Dr. Varady, who recently coauthored a review of the clinical application of IF for weight loss, also doubted whether individuals would adhere to combined early time-restricted eating and IF. “In all honesty, I don’t think anyone would follow this diet for very long,” she said.
She added that the feasibility of this particular approach is “very questionable. In general, people don’t like diets that require them to skip dinner with family/friends on multiple days of the week,” explained Dr. Varady, professor of nutrition at the University of Illinois, Chicago. “These regimens make social eating very difficult, which results in high attrition.
“Indeed, evidence from a recent large-scale observational study of nearly 800,000 adults shows that Americans who engage in time-restricted eating placed their eating window in the afternoon or evening,” she noted.
Dr. Varady therefore suggested that future trials should test “more feasible time-restricted eating approaches,” such as those with later eating windows and without “vigilant calorie monitoring.”
“These types of diets are much easier to follow and are more likely to produce lasting weight and glycemic control in people with obesity and prediabetes,” she observed.
A novel way to cut calories?
The Australian authors say there is growing interest in extending the established health benefits of calorie restriction through new approaches such as timing of meals and prolonged fasting, with IF – defined as fasting interspersed with days of ad libitum eating – gaining in popularity as an alternative to simple calorie restriction.
Time-restricted eating, which emphasizes shorter daily eating windows in alignment with circadian rhythms, has also become popular in recent years, although the authors acknowledge that current evidence suggests any benefits over calorie restriction alone in terms of body composition, blood lipids, or glucose parameters are small.
To examine the combination of IF plus early time-restricted eating, in the DIRECT trial, the team recruited individuals aged 35-75 years who had a score of at least 12 on the Australian Type 2 Diabetes Risk Assessment Tool but did not have a diagnosis of diabetes and had stable weight for more than 6 months prior to study entry.
The participants were randomized to one of three groups:
- IF plus early time-restricted eating, which allowed consumption of 30% of calculated baseline energy requirements between 8:00 a.m. and midday, followed by a 20-hour fast from midday on 3 nonconsecutive days per week. They consumed their regular diet on nonfasting days.
- Calorie restriction, where they consumed 70% of daily calculated baseline energy requirements each day and were given rotating menu plans, but no specific mealtimes.
- Standard care, where they were given a booklet on current guidelines, with no counseling or meal replacement.
There were clinic visits every 2 weeks for the first 6 months of follow-up, and then monthly visits for 12 months. The two intervention groups had one-on-one diet counseling for the first 6 months. All groups were instructed to maintain their usual physical activity levels.
A total of 209 individuals were enrolled between Sept. 26, 2018, and May 4, 2020. Their mean age was 58 years, and 57% were women. Mean body mass index was 34.8 kg/m2.
In all, 40.7% of participants were allocated to IF plus early time-restricted eating, 39.7% to calorie restriction, and the remaining 19.6% to standard care.
The results showed that IF plus early time-restricted eating was associated with a significantly greater improvement in the primary outcome of postprandial glucose area under the curve (AUC) at month 6 compared with calorie restriction, at –10.1 mg/dL/min versus –3.6 mg/dL/min (P = .03).
“To our knowledge, no [prior] studies have been powered for postprandial assessments of glycemia, which are better indicators of diabetes risk than fasting assessment,” the authors underlined.
IF plus early time-restricted eating was also associated with greater reductions in postprandial insulin AUC versus calorie restriction at 6 months (P = .04). However, the differences between the IF plus early time-restricted eating and calorie restriction groups for postmeal insulin did not remain significant at 18 months of follow-up.
Both IF plus early time-restricted eating and calorie restriction were associated with greater reductions in A1c levels at 6 months versus standard care, but there was no significant difference between the two active interventions (P = .46).
Both interventions were also associated with improvements in markers of cardiovascular risk versus standard care, such as systolic blood pressure at 2 months, diastolic blood pressure at 6 months, and fasting triglycerides at both time points, with no significant differences between the two intervention groups.
IF plus early time-restricted eating and calorie restriction were also both associated with greater reductions in BMI and fat mass in the first 6 months, as well as in waist circumference.
Calorie restriction easier to stick to, less likely to cause fatigue
When offered the chance to modify their diet plan at 6 months, 46% of participants in the IF plus early time-restricted eating group said they would maintain 3 days of restrictions per week, while 51% chose to reduce the restrictions to 2 days per week.
In contrast, 97% of those who completed the calorie-restriction plan indicated they would continue with their current diet plan.
At 18 months, 42% of participants in the IF plus early time-restricted eating group said they still undertook 2-3 days of restrictions per week, while 78% of those assigned to calorie restriction reported that they followed a calorie-restricted diet.
Fatigue was more common with IF plus early time-restricted eating, reported by 56% of participants versus 37% of those following calorie restriction, and 35% of those in the standard care group at 6 months. Headaches and constipation were more common in the intervention groups than with standard care.
The study was supported by a National Health and Medical Research Council Project Grant, an Australian Government Research Training Program Scholarship from the University of Adelaide, and a Diabetes Australia Research Program Grant.
No relevant financial relationships were declared.
A version of this article originally appeared on Medscape.com.
, indicate the results of a randomized controlled trial.
The study involved more than 200 individuals randomized to one of three groups: eat only in the morning (from 8:00 a.m. to noon) followed by 20 hours of fasting 3 days per week and eat as desired on the other days; daily calorie restriction to 70% of requirements; or standard weight loss advice.
The IF plus early time-restricted eating intervention was associated with a significant improvement in a key measure of glucose control versus calorie restriction at 6 months, while both interventions were linked to benefits in terms of cardiovascular risk markers and body composition, compared with the standard weight loss advice.
However, the research, published in Nature Medicine, showed that the additional benefit of IF plus early time-restricted eating did not persist, and less than half of participants were still following the plan at 18 months, compared with almost 80% of those in the calorie-restriction group.
“Following a time-restricted, IF diet could help lower the chances of developing type 2 diabetes,” senior author Leonie K. Heilbronn, PhD, University of Adelaide, South Australia, said in a press release.
This is “the largest study in the world to date, and the first powered to assess how the body processes and uses glucose after eating a meal,” with the latter being a better indicator of diabetes risk than a fasting glucose test, added first author Xiao Tong Teong, a PhD student, also at the University of Adelaide.
“The results of this study add to the growing body of evidence to indicate that meal timing and fasting advice extends the health benefits of a restricted-calorie diet, independently from weight loss, and this may be influential in clinical practice,” Ms. Teong added.
Adherence difficult to IF plus early time-restricted eating
Asked to comment, Krista Varady, PhD, said that the study design “would have been stronger if the time-restricted eating and IF interventions were separated” and compared.
“Time-restricted eating has been shown to naturally reduce calorie intake by 300-500 kcal/day,” she said in an interview, “so I’m not sure why the investigators chose to combine [it] with IF. It ... defeats the point of time-restricted eating.”
Dr. Varady, who recently coauthored a review of the clinical application of IF for weight loss, also doubted whether individuals would adhere to combined early time-restricted eating and IF. “In all honesty, I don’t think anyone would follow this diet for very long,” she said.
She added that the feasibility of this particular approach is “very questionable. In general, people don’t like diets that require them to skip dinner with family/friends on multiple days of the week,” explained Dr. Varady, professor of nutrition at the University of Illinois, Chicago. “These regimens make social eating very difficult, which results in high attrition.
“Indeed, evidence from a recent large-scale observational study of nearly 800,000 adults shows that Americans who engage in time-restricted eating placed their eating window in the afternoon or evening,” she noted.
Dr. Varady therefore suggested that future trials should test “more feasible time-restricted eating approaches,” such as those with later eating windows and without “vigilant calorie monitoring.”
“These types of diets are much easier to follow and are more likely to produce lasting weight and glycemic control in people with obesity and prediabetes,” she observed.
A novel way to cut calories?
The Australian authors say there is growing interest in extending the established health benefits of calorie restriction through new approaches such as timing of meals and prolonged fasting, with IF – defined as fasting interspersed with days of ad libitum eating – gaining in popularity as an alternative to simple calorie restriction.
Time-restricted eating, which emphasizes shorter daily eating windows in alignment with circadian rhythms, has also become popular in recent years, although the authors acknowledge that current evidence suggests any benefits over calorie restriction alone in terms of body composition, blood lipids, or glucose parameters are small.
To examine the combination of IF plus early time-restricted eating, in the DIRECT trial, the team recruited individuals aged 35-75 years who had a score of at least 12 on the Australian Type 2 Diabetes Risk Assessment Tool but did not have a diagnosis of diabetes and had stable weight for more than 6 months prior to study entry.
The participants were randomized to one of three groups:
- IF plus early time-restricted eating, which allowed consumption of 30% of calculated baseline energy requirements between 8:00 a.m. and midday, followed by a 20-hour fast from midday on 3 nonconsecutive days per week. They consumed their regular diet on nonfasting days.
- Calorie restriction, where they consumed 70% of daily calculated baseline energy requirements each day and were given rotating menu plans, but no specific mealtimes.
- Standard care, where they were given a booklet on current guidelines, with no counseling or meal replacement.
There were clinic visits every 2 weeks for the first 6 months of follow-up, and then monthly visits for 12 months. The two intervention groups had one-on-one diet counseling for the first 6 months. All groups were instructed to maintain their usual physical activity levels.
A total of 209 individuals were enrolled between Sept. 26, 2018, and May 4, 2020. Their mean age was 58 years, and 57% were women. Mean body mass index was 34.8 kg/m2.
In all, 40.7% of participants were allocated to IF plus early time-restricted eating, 39.7% to calorie restriction, and the remaining 19.6% to standard care.
The results showed that IF plus early time-restricted eating was associated with a significantly greater improvement in the primary outcome of postprandial glucose area under the curve (AUC) at month 6 compared with calorie restriction, at –10.1 mg/dL/min versus –3.6 mg/dL/min (P = .03).
“To our knowledge, no [prior] studies have been powered for postprandial assessments of glycemia, which are better indicators of diabetes risk than fasting assessment,” the authors underlined.
IF plus early time-restricted eating was also associated with greater reductions in postprandial insulin AUC versus calorie restriction at 6 months (P = .04). However, the differences between the IF plus early time-restricted eating and calorie restriction groups for postmeal insulin did not remain significant at 18 months of follow-up.
Both IF plus early time-restricted eating and calorie restriction were associated with greater reductions in A1c levels at 6 months versus standard care, but there was no significant difference between the two active interventions (P = .46).
Both interventions were also associated with improvements in markers of cardiovascular risk versus standard care, such as systolic blood pressure at 2 months, diastolic blood pressure at 6 months, and fasting triglycerides at both time points, with no significant differences between the two intervention groups.
IF plus early time-restricted eating and calorie restriction were also both associated with greater reductions in BMI and fat mass in the first 6 months, as well as in waist circumference.
Calorie restriction easier to stick to, less likely to cause fatigue
When offered the chance to modify their diet plan at 6 months, 46% of participants in the IF plus early time-restricted eating group said they would maintain 3 days of restrictions per week, while 51% chose to reduce the restrictions to 2 days per week.
In contrast, 97% of those who completed the calorie-restriction plan indicated they would continue with their current diet plan.
At 18 months, 42% of participants in the IF plus early time-restricted eating group said they still undertook 2-3 days of restrictions per week, while 78% of those assigned to calorie restriction reported that they followed a calorie-restricted diet.
Fatigue was more common with IF plus early time-restricted eating, reported by 56% of participants versus 37% of those following calorie restriction, and 35% of those in the standard care group at 6 months. Headaches and constipation were more common in the intervention groups than with standard care.
The study was supported by a National Health and Medical Research Council Project Grant, an Australian Government Research Training Program Scholarship from the University of Adelaide, and a Diabetes Australia Research Program Grant.
No relevant financial relationships were declared.
A version of this article originally appeared on Medscape.com.
FROM NATURE MEDICINE
Use age, not weight, to screen for diabetes; assess over 35s
Universal screening of all U.S. adults aged 35-70 years for prediabetes and type 2 diabetes, regardless of body mass index, would provide the fairest means of detection, according to a new analysis.
This would better detect prediabetes and diabetes in ethnic groups that have a higher risk of diabetes at lower cutoffs. Compared with White individuals, Black or Hispanic adults have a higher risk of developing type 2 diabetes at a younger age, and Asian, Hispanic, and Black Americans all have a higher risk of developing it at a lower BMI.
In the new study, researchers examined six different screening scenarios in a nationally representative sample without diabetes.
They compared screening for prediabetes and type 2 diabetes using criteria from the 2021 U.S. Preventive Services Task Force (USPSTF) recommendations with the 2015 USPSTF recommendations, as well as four other screening thresholds with lower age or weight.
Universal screening for prediabetes and diabetes at age 35-70, regardless of BMI – which appears to be the sweet spot for most equitable detection in different races – may be easier to put into practice because it will mean clinicians don’t have to remember alternate cutoffs for different patient groups, the researchers suggested.
“All major racial and ethnic minority groups develop diabetes at lower weights than White adults, and it’s most pronounced for Asian Americans,” lead author Matthew J. O’Brien, MD, explained in a press release.
“If we make decisions about diabetes testing based on weight we will miss some people from racial and ethnic minority groups who are developing prediabetes and diabetes at lower weights,” said Dr. O’Brien, of Northwestern University, Chicago.
Going forward, to achieve equity in diagnosing prediabetes and diabetes “also requires addressing structural barriers [facing racial and ethnic minorities], which include not having a usual source of primary care, lacking health insurance, or having copays for screening tests based on insurance coverage,” the authors noted in their paper, published online in the American Journal of Preventive Medicine.
There is also a need for further study to examine the cost-effectiveness of any approach, and to study the impact of screening criteria on diagnosis, treatment, and outcomes in diverse populations.
Nationally representative sample, six screening scenarios
In the overall U.S. population, 81% of adults with prediabetes are unaware they have it, said Dr. O’Brien and colleagues, and 23% of diabetes cases are undiagnosed.
And Black, Hispanic, or Asian individuals have a nearly twofold higher prevalence of diabetes compared with White individuals.
The 2021 USPSTF recommendations state that clinicians should screen asymptomatic adults aged 35-70 years with overweight/obesity (BMI ≥ 25 kg/m2) and “should consider screening at an earlier age in persons from groups with disproportionately high incidence and prevalence (American Indian/Alaska Native, Asian American, Black, Hispanic/Latino, or Native Hawaiian/Pacific Islander persons) or in persons who have a family history of diabetes, a history of gestational diabetes, or a history of polycystic ovarian syndrome, and at a lower BMI in Asian American persons. Data suggest that a BMI of 23 or greater may be an appropriate cut point in Asian American persons.”
Dr. O’Brien and colleagues identified 3,243 nonpregnant adults without diagnosed diabetes who participated in the National Health and Nutrition Examination Survey (NHANES) in 2017-2020 and had an A1c blood test. (Half also had a fasting plasma glucose test.)
First, they compared screening using the more recent and earlier USPSTF criteria: BMI of at least 25 kg/m2 and age 35-70 (2021 criteria) and BMI of at least 25 kg/m2 and age 40-70 (2015 criteria).
They estimated that 13.9 million more adults would be eligible for screening using the 2021 versus the 2015 screening criteria.
The increases in screening eligibility were highest in Hispanic individuals (30.6%), followed by Asian individuals (17.9%), White individuals (14.0%), and Black individuals (13.9%).
Using the USPSTF 2021 versus 2015 screening criteria resulted in marginally higher sensitivity (58.6% vs. 52.9%) but lower specificity (69.3% vs. 76.4%) overall, as well as within each racial group.
Next, the researchers examined screening at two lower age cutoffs and two lower BMI cutoffs: BMI of at least 25 kg/m2 and age 30-70, BMI of at least 25 kg/m2 and age 18-70, age 35-70 and BMI of at least 23 kg/m2, and age 35-70 and any BMI.
Screening at these lower age and weight thresholds resulted in even greater sensitivity and lower specificity than using the 2021 USPSTF criteria, especially among Hispanic, non-Hispanic Black, and Asian adults.
However, screening all adults aged 35-70 years regardless of BMI yielded the most equitable detection of prediabetes and diabetes – with a sensitivity of 67.8% and a specificity of 52.1% in the overall population, and a sensitivity of 70.1%, 70.4%, 68.4%, and 67.6%, and a specificity of 53.8%, 59.9%, 56.2%, and 48.9%, in the Asian, Black, Hispanic, and White subgroups, respectively.
The American Diabetes Association currently recommends screening all adults aged ≥ 35 years, or at any age if they have overweight/obesity and an additional diabetes risk factor, the researchers noted.
The study was partly funded by the National Institute of Diabetes and Digestive and Kidney Diseases of the National Institutes of Health. The authors have reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Universal screening of all U.S. adults aged 35-70 years for prediabetes and type 2 diabetes, regardless of body mass index, would provide the fairest means of detection, according to a new analysis.
This would better detect prediabetes and diabetes in ethnic groups that have a higher risk of diabetes at lower cutoffs. Compared with White individuals, Black or Hispanic adults have a higher risk of developing type 2 diabetes at a younger age, and Asian, Hispanic, and Black Americans all have a higher risk of developing it at a lower BMI.
In the new study, researchers examined six different screening scenarios in a nationally representative sample without diabetes.
They compared screening for prediabetes and type 2 diabetes using criteria from the 2021 U.S. Preventive Services Task Force (USPSTF) recommendations with the 2015 USPSTF recommendations, as well as four other screening thresholds with lower age or weight.
Universal screening for prediabetes and diabetes at age 35-70, regardless of BMI – which appears to be the sweet spot for most equitable detection in different races – may be easier to put into practice because it will mean clinicians don’t have to remember alternate cutoffs for different patient groups, the researchers suggested.
“All major racial and ethnic minority groups develop diabetes at lower weights than White adults, and it’s most pronounced for Asian Americans,” lead author Matthew J. O’Brien, MD, explained in a press release.
“If we make decisions about diabetes testing based on weight we will miss some people from racial and ethnic minority groups who are developing prediabetes and diabetes at lower weights,” said Dr. O’Brien, of Northwestern University, Chicago.
Going forward, to achieve equity in diagnosing prediabetes and diabetes “also requires addressing structural barriers [facing racial and ethnic minorities], which include not having a usual source of primary care, lacking health insurance, or having copays for screening tests based on insurance coverage,” the authors noted in their paper, published online in the American Journal of Preventive Medicine.
There is also a need for further study to examine the cost-effectiveness of any approach, and to study the impact of screening criteria on diagnosis, treatment, and outcomes in diverse populations.
Nationally representative sample, six screening scenarios
In the overall U.S. population, 81% of adults with prediabetes are unaware they have it, said Dr. O’Brien and colleagues, and 23% of diabetes cases are undiagnosed.
And Black, Hispanic, or Asian individuals have a nearly twofold higher prevalence of diabetes compared with White individuals.
The 2021 USPSTF recommendations state that clinicians should screen asymptomatic adults aged 35-70 years with overweight/obesity (BMI ≥ 25 kg/m2) and “should consider screening at an earlier age in persons from groups with disproportionately high incidence and prevalence (American Indian/Alaska Native, Asian American, Black, Hispanic/Latino, or Native Hawaiian/Pacific Islander persons) or in persons who have a family history of diabetes, a history of gestational diabetes, or a history of polycystic ovarian syndrome, and at a lower BMI in Asian American persons. Data suggest that a BMI of 23 or greater may be an appropriate cut point in Asian American persons.”
Dr. O’Brien and colleagues identified 3,243 nonpregnant adults without diagnosed diabetes who participated in the National Health and Nutrition Examination Survey (NHANES) in 2017-2020 and had an A1c blood test. (Half also had a fasting plasma glucose test.)
First, they compared screening using the more recent and earlier USPSTF criteria: BMI of at least 25 kg/m2 and age 35-70 (2021 criteria) and BMI of at least 25 kg/m2 and age 40-70 (2015 criteria).
They estimated that 13.9 million more adults would be eligible for screening using the 2021 versus the 2015 screening criteria.
The increases in screening eligibility were highest in Hispanic individuals (30.6%), followed by Asian individuals (17.9%), White individuals (14.0%), and Black individuals (13.9%).
Using the USPSTF 2021 versus 2015 screening criteria resulted in marginally higher sensitivity (58.6% vs. 52.9%) but lower specificity (69.3% vs. 76.4%) overall, as well as within each racial group.
Next, the researchers examined screening at two lower age cutoffs and two lower BMI cutoffs: BMI of at least 25 kg/m2 and age 30-70, BMI of at least 25 kg/m2 and age 18-70, age 35-70 and BMI of at least 23 kg/m2, and age 35-70 and any BMI.
Screening at these lower age and weight thresholds resulted in even greater sensitivity and lower specificity than using the 2021 USPSTF criteria, especially among Hispanic, non-Hispanic Black, and Asian adults.
However, screening all adults aged 35-70 years regardless of BMI yielded the most equitable detection of prediabetes and diabetes – with a sensitivity of 67.8% and a specificity of 52.1% in the overall population, and a sensitivity of 70.1%, 70.4%, 68.4%, and 67.6%, and a specificity of 53.8%, 59.9%, 56.2%, and 48.9%, in the Asian, Black, Hispanic, and White subgroups, respectively.
The American Diabetes Association currently recommends screening all adults aged ≥ 35 years, or at any age if they have overweight/obesity and an additional diabetes risk factor, the researchers noted.
The study was partly funded by the National Institute of Diabetes and Digestive and Kidney Diseases of the National Institutes of Health. The authors have reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Universal screening of all U.S. adults aged 35-70 years for prediabetes and type 2 diabetes, regardless of body mass index, would provide the fairest means of detection, according to a new analysis.
This would better detect prediabetes and diabetes in ethnic groups that have a higher risk of diabetes at lower cutoffs. Compared with White individuals, Black or Hispanic adults have a higher risk of developing type 2 diabetes at a younger age, and Asian, Hispanic, and Black Americans all have a higher risk of developing it at a lower BMI.
In the new study, researchers examined six different screening scenarios in a nationally representative sample without diabetes.
They compared screening for prediabetes and type 2 diabetes using criteria from the 2021 U.S. Preventive Services Task Force (USPSTF) recommendations with the 2015 USPSTF recommendations, as well as four other screening thresholds with lower age or weight.
Universal screening for prediabetes and diabetes at age 35-70, regardless of BMI – which appears to be the sweet spot for most equitable detection in different races – may be easier to put into practice because it will mean clinicians don’t have to remember alternate cutoffs for different patient groups, the researchers suggested.
“All major racial and ethnic minority groups develop diabetes at lower weights than White adults, and it’s most pronounced for Asian Americans,” lead author Matthew J. O’Brien, MD, explained in a press release.
“If we make decisions about diabetes testing based on weight we will miss some people from racial and ethnic minority groups who are developing prediabetes and diabetes at lower weights,” said Dr. O’Brien, of Northwestern University, Chicago.
Going forward, to achieve equity in diagnosing prediabetes and diabetes “also requires addressing structural barriers [facing racial and ethnic minorities], which include not having a usual source of primary care, lacking health insurance, or having copays for screening tests based on insurance coverage,” the authors noted in their paper, published online in the American Journal of Preventive Medicine.
There is also a need for further study to examine the cost-effectiveness of any approach, and to study the impact of screening criteria on diagnosis, treatment, and outcomes in diverse populations.
Nationally representative sample, six screening scenarios
In the overall U.S. population, 81% of adults with prediabetes are unaware they have it, said Dr. O’Brien and colleagues, and 23% of diabetes cases are undiagnosed.
And Black, Hispanic, or Asian individuals have a nearly twofold higher prevalence of diabetes compared with White individuals.
The 2021 USPSTF recommendations state that clinicians should screen asymptomatic adults aged 35-70 years with overweight/obesity (BMI ≥ 25 kg/m2) and “should consider screening at an earlier age in persons from groups with disproportionately high incidence and prevalence (American Indian/Alaska Native, Asian American, Black, Hispanic/Latino, or Native Hawaiian/Pacific Islander persons) or in persons who have a family history of diabetes, a history of gestational diabetes, or a history of polycystic ovarian syndrome, and at a lower BMI in Asian American persons. Data suggest that a BMI of 23 or greater may be an appropriate cut point in Asian American persons.”
Dr. O’Brien and colleagues identified 3,243 nonpregnant adults without diagnosed diabetes who participated in the National Health and Nutrition Examination Survey (NHANES) in 2017-2020 and had an A1c blood test. (Half also had a fasting plasma glucose test.)
First, they compared screening using the more recent and earlier USPSTF criteria: BMI of at least 25 kg/m2 and age 35-70 (2021 criteria) and BMI of at least 25 kg/m2 and age 40-70 (2015 criteria).
They estimated that 13.9 million more adults would be eligible for screening using the 2021 versus the 2015 screening criteria.
The increases in screening eligibility were highest in Hispanic individuals (30.6%), followed by Asian individuals (17.9%), White individuals (14.0%), and Black individuals (13.9%).
Using the USPSTF 2021 versus 2015 screening criteria resulted in marginally higher sensitivity (58.6% vs. 52.9%) but lower specificity (69.3% vs. 76.4%) overall, as well as within each racial group.
Next, the researchers examined screening at two lower age cutoffs and two lower BMI cutoffs: BMI of at least 25 kg/m2 and age 30-70, BMI of at least 25 kg/m2 and age 18-70, age 35-70 and BMI of at least 23 kg/m2, and age 35-70 and any BMI.
Screening at these lower age and weight thresholds resulted in even greater sensitivity and lower specificity than using the 2021 USPSTF criteria, especially among Hispanic, non-Hispanic Black, and Asian adults.
However, screening all adults aged 35-70 years regardless of BMI yielded the most equitable detection of prediabetes and diabetes – with a sensitivity of 67.8% and a specificity of 52.1% in the overall population, and a sensitivity of 70.1%, 70.4%, 68.4%, and 67.6%, and a specificity of 53.8%, 59.9%, 56.2%, and 48.9%, in the Asian, Black, Hispanic, and White subgroups, respectively.
The American Diabetes Association currently recommends screening all adults aged ≥ 35 years, or at any age if they have overweight/obesity and an additional diabetes risk factor, the researchers noted.
The study was partly funded by the National Institute of Diabetes and Digestive and Kidney Diseases of the National Institutes of Health. The authors have reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
FROM THE AMERICAN JOURNAL OF PREVENTIVE MEDICINE
Cardiovascular disease deaths rise on and after high-pollution days
Cardiovascular disease deaths were significantly more common on days of high pollution and for the following 2 days, compared with other days, based on data from nearly 88,000 deaths over a 5-year period.
Previous research has shown the harmful effect of air pollution on human health in highly polluted areas, but Eastern Poland, a region with so-called “Polish smog” has exceptionally high levels of pollution. However, the specific impact of Polish smog, caused primarily by burning coal, on cardiovascular disease (CVD) mortality has not been well studied, said Michal Swieczkowski, MD, of the Medical University of Bialystok (Poland) in a presentation at the annual congress of the European Association of Preventive Cardiology.
Dr. Swieczkowski and colleagues reviewed all-cause deaths from five main cities in Eastern Poland during 2016-2020 for associations with pollution levels and days when deaths occurred. Mortality data were obtained from the Central Statistical Office. Air pollution concentrations for two types of particulate matter (PM2.5, PM10) and nitrogen oxide were collected from the Voivodeship Inspectorate for Environmental Protection. The main sources of the pollutants were road traffic and household heaters using coal or wood.
The final analysis included nearly 6 million person-years of follow-up. The researchers used a time-stratified case-crossover design. For each participant, the researchers compared levels of each pollutant on the day of the week a death occurred (such as a Wednesday) with pollutant levels on the same day of the week without any deaths in the same month (the remaining Wednesdays of that month). This design eliminated the potential confounding effects of participant characteristics, including other cardiovascular risk factors such as smoking and hyperlipidemia, and time trends. Essentially, participants “served as their own controls,” Dr. Swieczkowski said. The researchers conducted similar analyses for pollution levels 1 day and 2 days before a death occurred.
Overall, 87,990 deaths were identified during the study period; of these, 34,907 were from CVD, 9,688 from acute coronary syndromes, and 3,776 from ischemic stroke.
“Exposure to PM2.5 and PM10 was associated with increased mortality on the day of exposure, the next day, and up to 2 days after exposure,” said Dr. Swieczkowski.
Overall, an increase of 10 mcg/m3 in the three pollutants was significantly associated with increase in CVD mortality on the day of exposure to the increased pollution levels, with odds ratios of 1.034, 1.033, and 1.083 for PM2.5, PM10, and NO2, respectively (all P < .001).
The risks of dying from CVD were similar 1 and 2 days after the polluted day.
An increase in PM levels, but not NO2, was significantly associated with acute coronary syndrome (ACS) on the day of exposure to increased pollutants (ORs, 1.029 for PM2.5 [P = .002] and 1.015 [P = .049] for PM10). Both ischemic stroke and ACS mortality were significantly higher at 1 day after exposure, compared with other days. Ischemic stroke was associated with increases in PM2.5 and PM10, while ACS was associated with increases in PM2.5, PM10, and NO2.
When stratified by gender, the effects were more noticeable in women, Dr. Swieczkowski said. “Exposure to both types of particulate caused increased mortality due to acute coronary syndrome as well as ischemic stroke.” Among men, only death from acute coronary syndrome was significantly associated with exposure to increased particulate matter.
In a head-to-head comparison, women were more vulnerable to air pollution by up to 2.5%, he added.
When stratified by age, the effects of all three pollutants were associated with increased risk of death from ischemic stroke and ACS in participants older than 65 years. For those aged 65 years and younger, the only significant association was between ACS-associated mortality and ischemic stroke.
The results suggest “a special need for developing calculators to estimate the risk of CVD incidence depending on the place of residence that could be used for everyday practice,” said Dr. Swieczkowski. “Systemic changes should become a priority for policy makers, and, simultaneously, we as physicians should educate and protect our patients, especially those with high risk of cardiovascular disease,” he said.
Gender differences rooted in anatomy
When asked for an explanation of the difference in the impact of pollution on mortality between men and women, Dr. Swieczkowski explained that women are likely more vulnerable because of differences in anatomy of the pharynx and larynx, and breathing patterns. Previous studies have shown that air pollution causes more oxidative stress in women. Also, in the current study, the mean age of the women was 8 to 9 years older, he said.
The study design was an “elegant way to take away the impact of other cardiovascular risk factors,” noted session moderator Maryam Kavousi, MD, of Erasmus University Medical Center, Rotterdam, the Netherlands.
The study was supported by the National Science Centre, Poland. The researchers had no financial conflicts to disclose.
Cardiovascular disease deaths were significantly more common on days of high pollution and for the following 2 days, compared with other days, based on data from nearly 88,000 deaths over a 5-year period.
Previous research has shown the harmful effect of air pollution on human health in highly polluted areas, but Eastern Poland, a region with so-called “Polish smog” has exceptionally high levels of pollution. However, the specific impact of Polish smog, caused primarily by burning coal, on cardiovascular disease (CVD) mortality has not been well studied, said Michal Swieczkowski, MD, of the Medical University of Bialystok (Poland) in a presentation at the annual congress of the European Association of Preventive Cardiology.
Dr. Swieczkowski and colleagues reviewed all-cause deaths from five main cities in Eastern Poland during 2016-2020 for associations with pollution levels and days when deaths occurred. Mortality data were obtained from the Central Statistical Office. Air pollution concentrations for two types of particulate matter (PM2.5, PM10) and nitrogen oxide were collected from the Voivodeship Inspectorate for Environmental Protection. The main sources of the pollutants were road traffic and household heaters using coal or wood.
The final analysis included nearly 6 million person-years of follow-up. The researchers used a time-stratified case-crossover design. For each participant, the researchers compared levels of each pollutant on the day of the week a death occurred (such as a Wednesday) with pollutant levels on the same day of the week without any deaths in the same month (the remaining Wednesdays of that month). This design eliminated the potential confounding effects of participant characteristics, including other cardiovascular risk factors such as smoking and hyperlipidemia, and time trends. Essentially, participants “served as their own controls,” Dr. Swieczkowski said. The researchers conducted similar analyses for pollution levels 1 day and 2 days before a death occurred.
Overall, 87,990 deaths were identified during the study period; of these, 34,907 were from CVD, 9,688 from acute coronary syndromes, and 3,776 from ischemic stroke.
“Exposure to PM2.5 and PM10 was associated with increased mortality on the day of exposure, the next day, and up to 2 days after exposure,” said Dr. Swieczkowski.
Overall, an increase of 10 mcg/m3 in the three pollutants was significantly associated with increase in CVD mortality on the day of exposure to the increased pollution levels, with odds ratios of 1.034, 1.033, and 1.083 for PM2.5, PM10, and NO2, respectively (all P < .001).
The risks of dying from CVD were similar 1 and 2 days after the polluted day.
An increase in PM levels, but not NO2, was significantly associated with acute coronary syndrome (ACS) on the day of exposure to increased pollutants (ORs, 1.029 for PM2.5 [P = .002] and 1.015 [P = .049] for PM10). Both ischemic stroke and ACS mortality were significantly higher at 1 day after exposure, compared with other days. Ischemic stroke was associated with increases in PM2.5 and PM10, while ACS was associated with increases in PM2.5, PM10, and NO2.
When stratified by gender, the effects were more noticeable in women, Dr. Swieczkowski said. “Exposure to both types of particulate caused increased mortality due to acute coronary syndrome as well as ischemic stroke.” Among men, only death from acute coronary syndrome was significantly associated with exposure to increased particulate matter.
In a head-to-head comparison, women were more vulnerable to air pollution by up to 2.5%, he added.
When stratified by age, the effects of all three pollutants were associated with increased risk of death from ischemic stroke and ACS in participants older than 65 years. For those aged 65 years and younger, the only significant association was between ACS-associated mortality and ischemic stroke.
The results suggest “a special need for developing calculators to estimate the risk of CVD incidence depending on the place of residence that could be used for everyday practice,” said Dr. Swieczkowski. “Systemic changes should become a priority for policy makers, and, simultaneously, we as physicians should educate and protect our patients, especially those with high risk of cardiovascular disease,” he said.
Gender differences rooted in anatomy
When asked for an explanation of the difference in the impact of pollution on mortality between men and women, Dr. Swieczkowski explained that women are likely more vulnerable because of differences in anatomy of the pharynx and larynx, and breathing patterns. Previous studies have shown that air pollution causes more oxidative stress in women. Also, in the current study, the mean age of the women was 8 to 9 years older, he said.
The study design was an “elegant way to take away the impact of other cardiovascular risk factors,” noted session moderator Maryam Kavousi, MD, of Erasmus University Medical Center, Rotterdam, the Netherlands.
The study was supported by the National Science Centre, Poland. The researchers had no financial conflicts to disclose.
Cardiovascular disease deaths were significantly more common on days of high pollution and for the following 2 days, compared with other days, based on data from nearly 88,000 deaths over a 5-year period.
Previous research has shown the harmful effect of air pollution on human health in highly polluted areas, but Eastern Poland, a region with so-called “Polish smog” has exceptionally high levels of pollution. However, the specific impact of Polish smog, caused primarily by burning coal, on cardiovascular disease (CVD) mortality has not been well studied, said Michal Swieczkowski, MD, of the Medical University of Bialystok (Poland) in a presentation at the annual congress of the European Association of Preventive Cardiology.
Dr. Swieczkowski and colleagues reviewed all-cause deaths from five main cities in Eastern Poland during 2016-2020 for associations with pollution levels and days when deaths occurred. Mortality data were obtained from the Central Statistical Office. Air pollution concentrations for two types of particulate matter (PM2.5, PM10) and nitrogen oxide were collected from the Voivodeship Inspectorate for Environmental Protection. The main sources of the pollutants were road traffic and household heaters using coal or wood.
The final analysis included nearly 6 million person-years of follow-up. The researchers used a time-stratified case-crossover design. For each participant, the researchers compared levels of each pollutant on the day of the week a death occurred (such as a Wednesday) with pollutant levels on the same day of the week without any deaths in the same month (the remaining Wednesdays of that month). This design eliminated the potential confounding effects of participant characteristics, including other cardiovascular risk factors such as smoking and hyperlipidemia, and time trends. Essentially, participants “served as their own controls,” Dr. Swieczkowski said. The researchers conducted similar analyses for pollution levels 1 day and 2 days before a death occurred.
Overall, 87,990 deaths were identified during the study period; of these, 34,907 were from CVD, 9,688 from acute coronary syndromes, and 3,776 from ischemic stroke.
“Exposure to PM2.5 and PM10 was associated with increased mortality on the day of exposure, the next day, and up to 2 days after exposure,” said Dr. Swieczkowski.
Overall, an increase of 10 mcg/m3 in the three pollutants was significantly associated with increase in CVD mortality on the day of exposure to the increased pollution levels, with odds ratios of 1.034, 1.033, and 1.083 for PM2.5, PM10, and NO2, respectively (all P < .001).
The risks of dying from CVD were similar 1 and 2 days after the polluted day.
An increase in PM levels, but not NO2, was significantly associated with acute coronary syndrome (ACS) on the day of exposure to increased pollutants (ORs, 1.029 for PM2.5 [P = .002] and 1.015 [P = .049] for PM10). Both ischemic stroke and ACS mortality were significantly higher at 1 day after exposure, compared with other days. Ischemic stroke was associated with increases in PM2.5 and PM10, while ACS was associated with increases in PM2.5, PM10, and NO2.
When stratified by gender, the effects were more noticeable in women, Dr. Swieczkowski said. “Exposure to both types of particulate caused increased mortality due to acute coronary syndrome as well as ischemic stroke.” Among men, only death from acute coronary syndrome was significantly associated with exposure to increased particulate matter.
In a head-to-head comparison, women were more vulnerable to air pollution by up to 2.5%, he added.
When stratified by age, the effects of all three pollutants were associated with increased risk of death from ischemic stroke and ACS in participants older than 65 years. For those aged 65 years and younger, the only significant association was between ACS-associated mortality and ischemic stroke.
The results suggest “a special need for developing calculators to estimate the risk of CVD incidence depending on the place of residence that could be used for everyday practice,” said Dr. Swieczkowski. “Systemic changes should become a priority for policy makers, and, simultaneously, we as physicians should educate and protect our patients, especially those with high risk of cardiovascular disease,” he said.
Gender differences rooted in anatomy
When asked for an explanation of the difference in the impact of pollution on mortality between men and women, Dr. Swieczkowski explained that women are likely more vulnerable because of differences in anatomy of the pharynx and larynx, and breathing patterns. Previous studies have shown that air pollution causes more oxidative stress in women. Also, in the current study, the mean age of the women was 8 to 9 years older, he said.
The study design was an “elegant way to take away the impact of other cardiovascular risk factors,” noted session moderator Maryam Kavousi, MD, of Erasmus University Medical Center, Rotterdam, the Netherlands.
The study was supported by the National Science Centre, Poland. The researchers had no financial conflicts to disclose.
FROM ESC CONGRESS 2023
OSHA revisited
Time for my periodic reminder about your Occupational Health and Safety Administration (OSHA) obligations. The health care field still has the most work-related illness and injury reports of any industry in the United States, and OSHA standards are in place to minimize potential workplace incidents.
Even if you hold regular safety meetings (which all too often is not the case), the occasional comprehensive review is always a good idea, and could save you a bundle in fines.
For starters, do you have an official OSHA poster, enumerating employee rights and explaining how to file complaints? Every office must have one posted in plain sight, and it is the first thing an OSHA inspector will look for. You can download one from OSHA’s website or order one at no charge by calling 800-321-OSHA.
The poster discusses the “general standards” that all workplaces must comply with to avoid work-related illnesses and injuries. The standards most applicable to medical offices are those dealing with personal protective equipment (PPE), bloodborne pathogens, hazard communication, and – increasingly, of late – ionizing radiation.
Physicians have become all too familiar with the PPE standard as a result of the COVID pandemic. Ironically, OSHA considers PPE a less acceptable means of employee protection than the other standards, as safe work practices should always supersede safety equipment. Nevertheless, employers must have a PPE program in place to train employees on what equipment is necessary, and under which conditions.
You also need a written exposure control plan for bloodborne pathogens. It should document your use of such protective equipment as gloves, face and eye protection, needle guards, and gowns, and your implementation of universal precautions – and it is supposed to be updated annually, to reflect changes in technology. You must provide all at-risk employees with hepatitis B vaccine at no cost to them. You also must provide and pay for appropriate medical treatment and follow-up after any exposure to a dangerous pathogen.
You need not adopt every new safety device as it comes on the market, but you should document which ones you are using – and which you pass up – and why. For example, you and your employees may decide not to purchase a new safety needle because you don’t think it will improve safety, or that it will be more trouble than it’s worth; but you should document how you arrived at that decision, and why you feel that your current protocol is as good or better.
The hazard communication (or right-to-know) standard involves compiling a list of hazardous substances, which all employees have a right to know about. Keep in mind that OSHA’s list includes alcohol, hydrogen peroxide, acetone, liquid nitrogen, and other substances that you might not consider particularly dangerous, but are nevertheless classified as “hazardous.” For each substance, your employees must have access to the manufacturer-supplied Material Safety Data Sheet, which outlines the proper procedures for working with a specific material, and for handling and containing it in a spill or other emergency.
If your office has x-ray equipment, or you are considering one of the new image-guided superficial radiotherapy machines, you must be in compliance with the ionizing radiation standard, which entails shielding, radiation monitors, and clear labeling of equipment.
Other, more general regulations include the physical setup of your office. Everyone must be able to evacuate quickly in case of fire or other emergencies. At a minimum, you (or the owner of the office building) are expected to establish exit routes to accommodate all employees and to post easily visible evacuation diagrams.
Examine all electrical devices and their power sources. All electrically powered equipment – medical, clerical, or anything else in the office – must operate safely. Pay particular attention to the way wall outlets are set up. Make sure each outlet has sufficient power to run the equipment plugged into it, and that circuit breakers are present and functioning. And beware the common situation of too many gadgets running off a single circuit.
Other components of the rule include proper containment of regulated medical waste, identification of regulated-waste containers, sharps disposal boxes, and periodic employee training regarding all of these things.
Federal OSHA regulations do not require medical and dental offices to keep an injury and illness log, as other businesses must; but your state may have a requirement that supersedes the federal law. Check with your state, or with your local OSHA office, regarding any such requirements.
It is a mistake to take OSHA regulations lightly; failure to comply with them can result in stiff penalties running into many thousands of dollars. How can you be certain you are complying with all the rules? The easiest and cheapest way is to call your local OSHA office and request an inspection. Why would you do that? Because OSHA issues no citations during voluntary inspections as long as you agree to remedy any violations they find.
Dr. Eastern practices dermatology and dermatologic surgery in Belleville, N.J. He is the author of numerous articles and textbook chapters, and is a longtime monthly columnist for Dermatology News. Write to him at [email protected].
Time for my periodic reminder about your Occupational Health and Safety Administration (OSHA) obligations. The health care field still has the most work-related illness and injury reports of any industry in the United States, and OSHA standards are in place to minimize potential workplace incidents.
Even if you hold regular safety meetings (which all too often is not the case), the occasional comprehensive review is always a good idea, and could save you a bundle in fines.
For starters, do you have an official OSHA poster, enumerating employee rights and explaining how to file complaints? Every office must have one posted in plain sight, and it is the first thing an OSHA inspector will look for. You can download one from OSHA’s website or order one at no charge by calling 800-321-OSHA.
The poster discusses the “general standards” that all workplaces must comply with to avoid work-related illnesses and injuries. The standards most applicable to medical offices are those dealing with personal protective equipment (PPE), bloodborne pathogens, hazard communication, and – increasingly, of late – ionizing radiation.
Physicians have become all too familiar with the PPE standard as a result of the COVID pandemic. Ironically, OSHA considers PPE a less acceptable means of employee protection than the other standards, as safe work practices should always supersede safety equipment. Nevertheless, employers must have a PPE program in place to train employees on what equipment is necessary, and under which conditions.
You also need a written exposure control plan for bloodborne pathogens. It should document your use of such protective equipment as gloves, face and eye protection, needle guards, and gowns, and your implementation of universal precautions – and it is supposed to be updated annually, to reflect changes in technology. You must provide all at-risk employees with hepatitis B vaccine at no cost to them. You also must provide and pay for appropriate medical treatment and follow-up after any exposure to a dangerous pathogen.
You need not adopt every new safety device as it comes on the market, but you should document which ones you are using – and which you pass up – and why. For example, you and your employees may decide not to purchase a new safety needle because you don’t think it will improve safety, or that it will be more trouble than it’s worth; but you should document how you arrived at that decision, and why you feel that your current protocol is as good or better.
The hazard communication (or right-to-know) standard involves compiling a list of hazardous substances, which all employees have a right to know about. Keep in mind that OSHA’s list includes alcohol, hydrogen peroxide, acetone, liquid nitrogen, and other substances that you might not consider particularly dangerous, but are nevertheless classified as “hazardous.” For each substance, your employees must have access to the manufacturer-supplied Material Safety Data Sheet, which outlines the proper procedures for working with a specific material, and for handling and containing it in a spill or other emergency.
If your office has x-ray equipment, or you are considering one of the new image-guided superficial radiotherapy machines, you must be in compliance with the ionizing radiation standard, which entails shielding, radiation monitors, and clear labeling of equipment.
Other, more general regulations include the physical setup of your office. Everyone must be able to evacuate quickly in case of fire or other emergencies. At a minimum, you (or the owner of the office building) are expected to establish exit routes to accommodate all employees and to post easily visible evacuation diagrams.
Examine all electrical devices and their power sources. All electrically powered equipment – medical, clerical, or anything else in the office – must operate safely. Pay particular attention to the way wall outlets are set up. Make sure each outlet has sufficient power to run the equipment plugged into it, and that circuit breakers are present and functioning. And beware the common situation of too many gadgets running off a single circuit.
Other components of the rule include proper containment of regulated medical waste, identification of regulated-waste containers, sharps disposal boxes, and periodic employee training regarding all of these things.
Federal OSHA regulations do not require medical and dental offices to keep an injury and illness log, as other businesses must; but your state may have a requirement that supersedes the federal law. Check with your state, or with your local OSHA office, regarding any such requirements.
It is a mistake to take OSHA regulations lightly; failure to comply with them can result in stiff penalties running into many thousands of dollars. How can you be certain you are complying with all the rules? The easiest and cheapest way is to call your local OSHA office and request an inspection. Why would you do that? Because OSHA issues no citations during voluntary inspections as long as you agree to remedy any violations they find.
Dr. Eastern practices dermatology and dermatologic surgery in Belleville, N.J. He is the author of numerous articles and textbook chapters, and is a longtime monthly columnist for Dermatology News. Write to him at [email protected].
Time for my periodic reminder about your Occupational Health and Safety Administration (OSHA) obligations. The health care field still has the most work-related illness and injury reports of any industry in the United States, and OSHA standards are in place to minimize potential workplace incidents.
Even if you hold regular safety meetings (which all too often is not the case), the occasional comprehensive review is always a good idea, and could save you a bundle in fines.
For starters, do you have an official OSHA poster, enumerating employee rights and explaining how to file complaints? Every office must have one posted in plain sight, and it is the first thing an OSHA inspector will look for. You can download one from OSHA’s website or order one at no charge by calling 800-321-OSHA.
The poster discusses the “general standards” that all workplaces must comply with to avoid work-related illnesses and injuries. The standards most applicable to medical offices are those dealing with personal protective equipment (PPE), bloodborne pathogens, hazard communication, and – increasingly, of late – ionizing radiation.
Physicians have become all too familiar with the PPE standard as a result of the COVID pandemic. Ironically, OSHA considers PPE a less acceptable means of employee protection than the other standards, as safe work practices should always supersede safety equipment. Nevertheless, employers must have a PPE program in place to train employees on what equipment is necessary, and under which conditions.
You also need a written exposure control plan for bloodborne pathogens. It should document your use of such protective equipment as gloves, face and eye protection, needle guards, and gowns, and your implementation of universal precautions – and it is supposed to be updated annually, to reflect changes in technology. You must provide all at-risk employees with hepatitis B vaccine at no cost to them. You also must provide and pay for appropriate medical treatment and follow-up after any exposure to a dangerous pathogen.
You need not adopt every new safety device as it comes on the market, but you should document which ones you are using – and which you pass up – and why. For example, you and your employees may decide not to purchase a new safety needle because you don’t think it will improve safety, or that it will be more trouble than it’s worth; but you should document how you arrived at that decision, and why you feel that your current protocol is as good or better.
The hazard communication (or right-to-know) standard involves compiling a list of hazardous substances, which all employees have a right to know about. Keep in mind that OSHA’s list includes alcohol, hydrogen peroxide, acetone, liquid nitrogen, and other substances that you might not consider particularly dangerous, but are nevertheless classified as “hazardous.” For each substance, your employees must have access to the manufacturer-supplied Material Safety Data Sheet, which outlines the proper procedures for working with a specific material, and for handling and containing it in a spill or other emergency.
If your office has x-ray equipment, or you are considering one of the new image-guided superficial radiotherapy machines, you must be in compliance with the ionizing radiation standard, which entails shielding, radiation monitors, and clear labeling of equipment.
Other, more general regulations include the physical setup of your office. Everyone must be able to evacuate quickly in case of fire or other emergencies. At a minimum, you (or the owner of the office building) are expected to establish exit routes to accommodate all employees and to post easily visible evacuation diagrams.
Examine all electrical devices and their power sources. All electrically powered equipment – medical, clerical, or anything else in the office – must operate safely. Pay particular attention to the way wall outlets are set up. Make sure each outlet has sufficient power to run the equipment plugged into it, and that circuit breakers are present and functioning. And beware the common situation of too many gadgets running off a single circuit.
Other components of the rule include proper containment of regulated medical waste, identification of regulated-waste containers, sharps disposal boxes, and periodic employee training regarding all of these things.
Federal OSHA regulations do not require medical and dental offices to keep an injury and illness log, as other businesses must; but your state may have a requirement that supersedes the federal law. Check with your state, or with your local OSHA office, regarding any such requirements.
It is a mistake to take OSHA regulations lightly; failure to comply with them can result in stiff penalties running into many thousands of dollars. How can you be certain you are complying with all the rules? The easiest and cheapest way is to call your local OSHA office and request an inspection. Why would you do that? Because OSHA issues no citations during voluntary inspections as long as you agree to remedy any violations they find.
Dr. Eastern practices dermatology and dermatologic surgery in Belleville, N.J. He is the author of numerous articles and textbook chapters, and is a longtime monthly columnist for Dermatology News. Write to him at [email protected].
‘Substantial’ variation in responses to BP meds
A new study has shown a substantial variation in the blood pressure response to various antihypertensive medications between individuals, raising the possibility of future personalized therapy.
“We found that using the optimal antihypertensive drug for a particular patient resulted in an average of a 4.4 mm Hg greater reduction of blood pressure compared with a random choice of the other drugs. That is quite a substantial difference, and could be equivalent to adding in another drug,” lead author Johan Sundström, MD, Uppsala (Sweden) University Hospital, told this news organization.
“These preliminary findings suggest that some people may be better treated with one antihypertensive drug rather than another. This is opening up the field of hypertension for personalized medicine,” he added.
The study was published online in the Journal of the American Medical Association.
The authors noted that despite global access to multiple classes of highly effective blood pressure-lowering drugs, only one in four women and one in five men with hypertension reach treatment targets. While most hypertension guidelines advocate combination pharmacotherapy, many patients in routine care continue to be treated with monotherapy, with adverse effects and nonadherence being important clinical problems.
“One drug often does not give enough blood pressure reduction, but patients are often reluctant to up-titrate to two drugs,” Dr. Sundström said. “While we know that the four recommended classes of antihypertensives lower blood pressure equally well on average, we don’t know if their efficacy is the same in individual patients.
“We wondered whether there could be different optimal drugs for different people, and if we could identify the optimal drug for each person then maybe more patients could get to target levels with just one drug,” he said.
The researchers conducted a randomized, double-blind, repeated crossover trial at an outpatient research clinic in Sweden, studying 280 men and women with grade 1 hypertension at low risk for cardiovascular events.
Each participant was scheduled for 2 months’ treatment in random order with each of four different classes of antihypertensive drugs: an ACE inhibitor, lisinopril; an angiotensin II blocker, candesartan; a thiazide diuretic, hydrochlorothiazide; a calcium channel blocker, amlodipine.
There were then repeated treatment periods for two drug classes to try to account for any effect of a particular event that might have affected the blood pressure at one point in time. Ambulatory daytime systolic blood pressure was measured at the end of each treatment period.
Results showed that variation in systolic blood pressure was large between treatments on average, between participants on average, within participants taking the same treatment, and between treatments in the same participant.
Overall, personalized treatment using the optimal single-drug therapy led to a 4.4–mm Hg lower systolic blood pressure in the trial population than a random choice of any of the other drug classes.
Taking into consideration that lisinopril was found to be on average the most efficacious of the drugs at the selected doses, personalized treatment compared with lisinopril still led to a 3.1–mm Hg improvement in systolic blood pressure.
The researchers noted that the mean additional blood pressure reduction achievable by using the optimal agent was of a magnitude twice that achieved by doubling the dose of a first drug, and more than half that of adding a second drug on average.
While there were only small differences between certain drugs (e.g., candesartan vs. lisinopril; amlodipine vs. hydrochlorothiazide), for all other comparisons tested, the choice was important, with particularly large gains to be made by personalizing the choice between candesartan vs. amlodipine and between lisinopril vs. amlodipine.
In addition, some people showed very large differences in response to different drugs, whereas others did not have much difference at all.
How to identify the optimal drug?
“The million-dollar question is how we identify the best drug for each individual patient,” Dr. Sundström said. “This study has opened Pandora’s box. We now need to figure out how to go forward and how we tailor treatment in each patient.”
In the study, the researchers suggest that personalizing therapy could be achieved either by identifying the phenotypic characteristics that are associated with enhanced response to one treatment vs. another or by directly measuring the individual’s responses to a series of treatments to ascertain which is most effective.
Addressing the first scenario, Dr. Sundström explained: “We can analyze the characteristics of patients who did best on each drug. There are many variables we can look at here such as age, diet, baseline blood pressure, exercise levels, smoking status, race, body weight, salt intake, and findings from genetic tests. We are going to try to look into these to see if we can find any predictors of response to various different drugs.”
For the second strategy, he suggested that patients starting pharmacologic therapy could try a few different treatments. “For example, we could give patients two different drugs and ask them to alternate treatment periods with each of them and measure their blood pressure with a home monitoring kit and record adverse effects.”
Nonadherence “is such a big problem with antihypertensives,” he added. “This approach may allow patients to be more empowered when choosing the right treatment, which should help adherence in the longer term.”
‘Proof-of-principle’
Commenting on the study in an accompanying editorial, Robert M. Carey, MD, University of Virginia Health System, Charlottesville, wrote: “At this stage, the findings are more theoretical than immediately practical for the implementation of personalized antihypertensive drug therapy, but the study does provide proof-of-principle and the authors suggest a few scenarios in which a personalized approach could be used in the future.”
He said the practical ramifications of personally targeted therapy remain unclear, given that determination of an individual’s response to a series of short test treatments before selecting long-term therapy may be considered too cumbersome, and currently few phenotypic markers are currently available that would be likely to accurately predict the individual response to a particular therapy.
Dr. Carey concluded that the results of this study “encourage the further pursuit of larger randomized trials using similar repeated crossover designs to validate this concept and eventually in trials with longer follow-up data to determine whether there is improvement in long-term clinical outcomes compared with current strategies.”
He added that the results support the possibility that personalized medical treatment of hypertension “may ultimately supplement or even supplant the current method of antihypertensive drug decision-making in the future.”
This study was supported by the Swedish Research Council; Kjell and Märta Beijer Foundation; and Anders Wiklöf. Dr. Sundström reported owning stock in Symptoms Europe AB and Anagram Kommunikation AB. Coauthor Emil Hagström, MD, PhD, reported receiving grants from Pfizer and Amgen and personal fees from Amgen, Novo Nordisk, Bayer, AstraZeneca, Amarin, and Novartis. Coauthor Ollie Östlund, PhD, reported fees from Uppsala University paid to his institution, Uppsala Clinical Research Center, for its participation in the PHYSIC trial during the conduct of the study. Dr. Carey reports no relevant financial relationships.
A version of this article first appeared on Medscape.com.
A new study has shown a substantial variation in the blood pressure response to various antihypertensive medications between individuals, raising the possibility of future personalized therapy.
“We found that using the optimal antihypertensive drug for a particular patient resulted in an average of a 4.4 mm Hg greater reduction of blood pressure compared with a random choice of the other drugs. That is quite a substantial difference, and could be equivalent to adding in another drug,” lead author Johan Sundström, MD, Uppsala (Sweden) University Hospital, told this news organization.
“These preliminary findings suggest that some people may be better treated with one antihypertensive drug rather than another. This is opening up the field of hypertension for personalized medicine,” he added.
The study was published online in the Journal of the American Medical Association.
The authors noted that despite global access to multiple classes of highly effective blood pressure-lowering drugs, only one in four women and one in five men with hypertension reach treatment targets. While most hypertension guidelines advocate combination pharmacotherapy, many patients in routine care continue to be treated with monotherapy, with adverse effects and nonadherence being important clinical problems.
“One drug often does not give enough blood pressure reduction, but patients are often reluctant to up-titrate to two drugs,” Dr. Sundström said. “While we know that the four recommended classes of antihypertensives lower blood pressure equally well on average, we don’t know if their efficacy is the same in individual patients.
“We wondered whether there could be different optimal drugs for different people, and if we could identify the optimal drug for each person then maybe more patients could get to target levels with just one drug,” he said.
The researchers conducted a randomized, double-blind, repeated crossover trial at an outpatient research clinic in Sweden, studying 280 men and women with grade 1 hypertension at low risk for cardiovascular events.
Each participant was scheduled for 2 months’ treatment in random order with each of four different classes of antihypertensive drugs: an ACE inhibitor, lisinopril; an angiotensin II blocker, candesartan; a thiazide diuretic, hydrochlorothiazide; a calcium channel blocker, amlodipine.
There were then repeated treatment periods for two drug classes to try to account for any effect of a particular event that might have affected the blood pressure at one point in time. Ambulatory daytime systolic blood pressure was measured at the end of each treatment period.
Results showed that variation in systolic blood pressure was large between treatments on average, between participants on average, within participants taking the same treatment, and between treatments in the same participant.
Overall, personalized treatment using the optimal single-drug therapy led to a 4.4–mm Hg lower systolic blood pressure in the trial population than a random choice of any of the other drug classes.
Taking into consideration that lisinopril was found to be on average the most efficacious of the drugs at the selected doses, personalized treatment compared with lisinopril still led to a 3.1–mm Hg improvement in systolic blood pressure.
The researchers noted that the mean additional blood pressure reduction achievable by using the optimal agent was of a magnitude twice that achieved by doubling the dose of a first drug, and more than half that of adding a second drug on average.
While there were only small differences between certain drugs (e.g., candesartan vs. lisinopril; amlodipine vs. hydrochlorothiazide), for all other comparisons tested, the choice was important, with particularly large gains to be made by personalizing the choice between candesartan vs. amlodipine and between lisinopril vs. amlodipine.
In addition, some people showed very large differences in response to different drugs, whereas others did not have much difference at all.
How to identify the optimal drug?
“The million-dollar question is how we identify the best drug for each individual patient,” Dr. Sundström said. “This study has opened Pandora’s box. We now need to figure out how to go forward and how we tailor treatment in each patient.”
In the study, the researchers suggest that personalizing therapy could be achieved either by identifying the phenotypic characteristics that are associated with enhanced response to one treatment vs. another or by directly measuring the individual’s responses to a series of treatments to ascertain which is most effective.
Addressing the first scenario, Dr. Sundström explained: “We can analyze the characteristics of patients who did best on each drug. There are many variables we can look at here such as age, diet, baseline blood pressure, exercise levels, smoking status, race, body weight, salt intake, and findings from genetic tests. We are going to try to look into these to see if we can find any predictors of response to various different drugs.”
For the second strategy, he suggested that patients starting pharmacologic therapy could try a few different treatments. “For example, we could give patients two different drugs and ask them to alternate treatment periods with each of them and measure their blood pressure with a home monitoring kit and record adverse effects.”
Nonadherence “is such a big problem with antihypertensives,” he added. “This approach may allow patients to be more empowered when choosing the right treatment, which should help adherence in the longer term.”
‘Proof-of-principle’
Commenting on the study in an accompanying editorial, Robert M. Carey, MD, University of Virginia Health System, Charlottesville, wrote: “At this stage, the findings are more theoretical than immediately practical for the implementation of personalized antihypertensive drug therapy, but the study does provide proof-of-principle and the authors suggest a few scenarios in which a personalized approach could be used in the future.”
He said the practical ramifications of personally targeted therapy remain unclear, given that determination of an individual’s response to a series of short test treatments before selecting long-term therapy may be considered too cumbersome, and currently few phenotypic markers are currently available that would be likely to accurately predict the individual response to a particular therapy.
Dr. Carey concluded that the results of this study “encourage the further pursuit of larger randomized trials using similar repeated crossover designs to validate this concept and eventually in trials with longer follow-up data to determine whether there is improvement in long-term clinical outcomes compared with current strategies.”
He added that the results support the possibility that personalized medical treatment of hypertension “may ultimately supplement or even supplant the current method of antihypertensive drug decision-making in the future.”
This study was supported by the Swedish Research Council; Kjell and Märta Beijer Foundation; and Anders Wiklöf. Dr. Sundström reported owning stock in Symptoms Europe AB and Anagram Kommunikation AB. Coauthor Emil Hagström, MD, PhD, reported receiving grants from Pfizer and Amgen and personal fees from Amgen, Novo Nordisk, Bayer, AstraZeneca, Amarin, and Novartis. Coauthor Ollie Östlund, PhD, reported fees from Uppsala University paid to his institution, Uppsala Clinical Research Center, for its participation in the PHYSIC trial during the conduct of the study. Dr. Carey reports no relevant financial relationships.
A version of this article first appeared on Medscape.com.
A new study has shown a substantial variation in the blood pressure response to various antihypertensive medications between individuals, raising the possibility of future personalized therapy.
“We found that using the optimal antihypertensive drug for a particular patient resulted in an average of a 4.4 mm Hg greater reduction of blood pressure compared with a random choice of the other drugs. That is quite a substantial difference, and could be equivalent to adding in another drug,” lead author Johan Sundström, MD, Uppsala (Sweden) University Hospital, told this news organization.
“These preliminary findings suggest that some people may be better treated with one antihypertensive drug rather than another. This is opening up the field of hypertension for personalized medicine,” he added.
The study was published online in the Journal of the American Medical Association.
The authors noted that despite global access to multiple classes of highly effective blood pressure-lowering drugs, only one in four women and one in five men with hypertension reach treatment targets. While most hypertension guidelines advocate combination pharmacotherapy, many patients in routine care continue to be treated with monotherapy, with adverse effects and nonadherence being important clinical problems.
“One drug often does not give enough blood pressure reduction, but patients are often reluctant to up-titrate to two drugs,” Dr. Sundström said. “While we know that the four recommended classes of antihypertensives lower blood pressure equally well on average, we don’t know if their efficacy is the same in individual patients.
“We wondered whether there could be different optimal drugs for different people, and if we could identify the optimal drug for each person then maybe more patients could get to target levels with just one drug,” he said.
The researchers conducted a randomized, double-blind, repeated crossover trial at an outpatient research clinic in Sweden, studying 280 men and women with grade 1 hypertension at low risk for cardiovascular events.
Each participant was scheduled for 2 months’ treatment in random order with each of four different classes of antihypertensive drugs: an ACE inhibitor, lisinopril; an angiotensin II blocker, candesartan; a thiazide diuretic, hydrochlorothiazide; a calcium channel blocker, amlodipine.
There were then repeated treatment periods for two drug classes to try to account for any effect of a particular event that might have affected the blood pressure at one point in time. Ambulatory daytime systolic blood pressure was measured at the end of each treatment period.
Results showed that variation in systolic blood pressure was large between treatments on average, between participants on average, within participants taking the same treatment, and between treatments in the same participant.
Overall, personalized treatment using the optimal single-drug therapy led to a 4.4–mm Hg lower systolic blood pressure in the trial population than a random choice of any of the other drug classes.
Taking into consideration that lisinopril was found to be on average the most efficacious of the drugs at the selected doses, personalized treatment compared with lisinopril still led to a 3.1–mm Hg improvement in systolic blood pressure.
The researchers noted that the mean additional blood pressure reduction achievable by using the optimal agent was of a magnitude twice that achieved by doubling the dose of a first drug, and more than half that of adding a second drug on average.
While there were only small differences between certain drugs (e.g., candesartan vs. lisinopril; amlodipine vs. hydrochlorothiazide), for all other comparisons tested, the choice was important, with particularly large gains to be made by personalizing the choice between candesartan vs. amlodipine and between lisinopril vs. amlodipine.
In addition, some people showed very large differences in response to different drugs, whereas others did not have much difference at all.
How to identify the optimal drug?
“The million-dollar question is how we identify the best drug for each individual patient,” Dr. Sundström said. “This study has opened Pandora’s box. We now need to figure out how to go forward and how we tailor treatment in each patient.”
In the study, the researchers suggest that personalizing therapy could be achieved either by identifying the phenotypic characteristics that are associated with enhanced response to one treatment vs. another or by directly measuring the individual’s responses to a series of treatments to ascertain which is most effective.
Addressing the first scenario, Dr. Sundström explained: “We can analyze the characteristics of patients who did best on each drug. There are many variables we can look at here such as age, diet, baseline blood pressure, exercise levels, smoking status, race, body weight, salt intake, and findings from genetic tests. We are going to try to look into these to see if we can find any predictors of response to various different drugs.”
For the second strategy, he suggested that patients starting pharmacologic therapy could try a few different treatments. “For example, we could give patients two different drugs and ask them to alternate treatment periods with each of them and measure their blood pressure with a home monitoring kit and record adverse effects.”
Nonadherence “is such a big problem with antihypertensives,” he added. “This approach may allow patients to be more empowered when choosing the right treatment, which should help adherence in the longer term.”
‘Proof-of-principle’
Commenting on the study in an accompanying editorial, Robert M. Carey, MD, University of Virginia Health System, Charlottesville, wrote: “At this stage, the findings are more theoretical than immediately practical for the implementation of personalized antihypertensive drug therapy, but the study does provide proof-of-principle and the authors suggest a few scenarios in which a personalized approach could be used in the future.”
He said the practical ramifications of personally targeted therapy remain unclear, given that determination of an individual’s response to a series of short test treatments before selecting long-term therapy may be considered too cumbersome, and currently few phenotypic markers are currently available that would be likely to accurately predict the individual response to a particular therapy.
Dr. Carey concluded that the results of this study “encourage the further pursuit of larger randomized trials using similar repeated crossover designs to validate this concept and eventually in trials with longer follow-up data to determine whether there is improvement in long-term clinical outcomes compared with current strategies.”
He added that the results support the possibility that personalized medical treatment of hypertension “may ultimately supplement or even supplant the current method of antihypertensive drug decision-making in the future.”
This study was supported by the Swedish Research Council; Kjell and Märta Beijer Foundation; and Anders Wiklöf. Dr. Sundström reported owning stock in Symptoms Europe AB and Anagram Kommunikation AB. Coauthor Emil Hagström, MD, PhD, reported receiving grants from Pfizer and Amgen and personal fees from Amgen, Novo Nordisk, Bayer, AstraZeneca, Amarin, and Novartis. Coauthor Ollie Östlund, PhD, reported fees from Uppsala University paid to his institution, Uppsala Clinical Research Center, for its participation in the PHYSIC trial during the conduct of the study. Dr. Carey reports no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Health care in America: Let that tapeworm grow
In my most recent column, “ ‘They All Laughed When I Spoke of Greedy Doctors,’ ” I attempted to provide a global understanding of some of the economic forces that have made American medicine what it is, how that happened, and why it is still happening.
I did not propose a fix. I have been proposing fixes for more than 30 years, on the pages of JAMA until 1999 and then for this news organization, most recently in 2019 with “Healthcare for All in a Land of Special Interests.”
Where you stand depends a lot on where you sit.
Is this good news or bad news? When William Hubbard was the dean of the University of Michigan School of Medicine in 1969, he said that “an academic medical center is the most efficient energy and resource trapping device that has ever been created” (personal communication, 1969).
To me as a faculty member of an academic medical center for many years, that was great news. We could grow faculty, erect buildings, take the best care of sick people, churn out research papers, mint new physicians and specialists, and get paid well in the process for doing “the Lord’s work.” What’s not to like? At that time, the proportion of the country’s gross national product expended for medical and health care was about 7%. And the predicted life span of an American at birth was 70.5 years.
Is this good news or bad news? In 2021, the proportion of our annual gross domestic product (GDP) consumed by health care was 18.3%, totaling $4.3 trillion, or $12,914 per person. For perspective, in 2021, the median income per capita was $37,638. Because quite a few Americans have very high incomes, the mean income per capita is much higher: $63,444. Predicted life span in 2021 was 76.4 years.
Thus, in a span of 53 years (1969-2022), only 5.9 years of life were gained per person born, for how many trillions of dollars expended? To me as a tax-paying citizen and payer of medical insurance premiums, that is bad news.
Is this good news or bad news? If we compare developed societies globally, our medical system does a whole lot of things very well indeed. But we spend a great deal more than any other country for health care and objectively achieve poorer outcomes. Thus, we are neither efficient nor effective. We keep a lot of workers very busy doing stuff, and they are generally well paid. As a worker, that’s good news; as a manager who values efficiency, it’s bad news indeed.
Is this good news or bad news? We’re the leader at finding money to pay people to do “health care work.” More Americans work in health care than any other field. In 2019, the United States employed some 21,000,000 people doing “health care and social assistance.” Among others, these occupations include physicians, dentists, dental hygienists and assistants, pharmacists, registered nurses, LVNs/LPNs, nursing aides, technologists and technicians, home health aides, respiratory therapists, occupational and speech therapists, social workers, childcare workers, and personal and home care aides. For a patient, parent, grandparent, and great-grandparent, it is good news to have all those folks available to take care of us when we need it.
So, while I have cringed at the frequent exposés from Roy Poses of what seem to me to be massive societal betrayals by American health care industry giants, it doesn’t have to be that way. Might it still be possible to do well while doing good?
A jobs program
Consider such common medical procedures as coronary artery stents or bypass grafts for stable angina (when optimal medical therapy is as good, or better than, and much less expensive); PSAs on asymptomatic men followed by unnecessary surgery for localized cancer; excess surgery for low back pain; and the jobs created by managing the people caught up in medical complications of the obesity epidemic.
Don’t forget the number of people employed simply to “follow the money” within our byzantine cockamamie medical billing system. In 2009, this prompted me to describe the bloated system as a “health care bubble” not unlike Enron, the submarket real estate financing debacle, or the dot-com boom and bust. I warned of the downside of bursting that bubble, particularly lost jobs.
The Affordable Care Act (ACA) provided health insurance to some 35 million Americans who had been uninsured. It retarded health care inflation. But it did nothing to trim administrative costs or very high pay for nonclinical executives, or shareholder profits in those companies that were for-profit, or drug and device prices. Without the support of all those groups, the ACA would never have passed Congress. The ACA has clearly been a mixed blessing.
If any large American constituency were ever serious about reducing the percentage of our GDP expended on health care, we have excellent ways to do that while improving the health and well-being of the American people. But remember, one person’s liability (unnecessary work) is another person’s asset (needed job).
The MBAization of medicine
Meanwhile, back at Dean Hubbard’s voracious academic medical center, the high intellect and driven nature of those who are attracted to medicine as a career has had other effects. The resulting organizations reflect not only the glorious calling of caring for the sick and the availability of lots of money to recruit and compensate leaders, but also the necessity to develop strong executive types who won’t be “eaten alive” by the high-powered workforce of demanding physicians and the surrounding environment.
Thus, it came as no great surprise that in its 2021 determination of America’s top 25 Best Large Employers, Forbes included five health care organizations and seven universities. Beating out such giants as NASA, Cisco, Microsoft, Netflix, and Google, the University of Alabama Birmingham Hospital was ranked first. Mayo Clinic and Yale University came in third and fifth, respectively, and at the other end of the list were Duke (23), MIT (24), and MD Anderson (25).
My goodness! Well done.
Yet, as a country attempting to be balanced, Warren Buffett’s descriptive entreaty on the 2021 failure of Haven, the Amazon-Chase-Berkshire Hathaway joint initiative, remains troubling. Calling upon Haven to change the U.S. health care system, Buffet said, “We learned a lot about the difficulty of changing around an industry that’s 17% of the GDP. We were fighting a tapeworm in the American economy, and the tapeworm won.” They had failed to tame the American health care cost beast.
I am on record as despising the “MBAization” of American medicine. Unfairly, I blamed a professional and technical discipline for what I considered misuse. I hereby repent and renounce my earlier condemnations.
Take it all over?
Here’s an idea: If you can’t beat them, join them.
Medical care is important, especially for acute illnesses and injuries, early cancer therapy, and many chronic conditions. But the real determinants of health writ large are social: wealth, education, housing, nutritious food, childcare, climate, clean air and water, meaningful employment, safety from violence, exercise schemes, vaccinations, and so on.
Why doesn’t the American medical-industrial complex simply bestow the label of “health care” on all health-related social determinants? Take it all over. Good “health care” jobs for everyone. Medical professionals will still be blamed for the low health quality and poor outcome scores, the main social determinants of health over which we have no control or influence.
Let that tapeworm grow to encompass all social determinants of health, and measure results by length and quality of life, national human happiness, and, of course, jobs. We can do it. Let that bubble glow. Party time.
And that’s the way it is. That’s my opinion.
George Lundberg, MD, is editor-in-chief at Cancer Commons, president of the Lundberg Institute, executive advisor at Cureus, and a clinical professor of pathology at Northwestern University. Previously, he served as editor-in-chief of JAMA (including 10 specialty journals), American Medical News, and Medscape.
A version of this article first appeared on Medscape.com.
In my most recent column, “ ‘They All Laughed When I Spoke of Greedy Doctors,’ ” I attempted to provide a global understanding of some of the economic forces that have made American medicine what it is, how that happened, and why it is still happening.
I did not propose a fix. I have been proposing fixes for more than 30 years, on the pages of JAMA until 1999 and then for this news organization, most recently in 2019 with “Healthcare for All in a Land of Special Interests.”
Where you stand depends a lot on where you sit.
Is this good news or bad news? When William Hubbard was the dean of the University of Michigan School of Medicine in 1969, he said that “an academic medical center is the most efficient energy and resource trapping device that has ever been created” (personal communication, 1969).
To me as a faculty member of an academic medical center for many years, that was great news. We could grow faculty, erect buildings, take the best care of sick people, churn out research papers, mint new physicians and specialists, and get paid well in the process for doing “the Lord’s work.” What’s not to like? At that time, the proportion of the country’s gross national product expended for medical and health care was about 7%. And the predicted life span of an American at birth was 70.5 years.
Is this good news or bad news? In 2021, the proportion of our annual gross domestic product (GDP) consumed by health care was 18.3%, totaling $4.3 trillion, or $12,914 per person. For perspective, in 2021, the median income per capita was $37,638. Because quite a few Americans have very high incomes, the mean income per capita is much higher: $63,444. Predicted life span in 2021 was 76.4 years.
Thus, in a span of 53 years (1969-2022), only 5.9 years of life were gained per person born, for how many trillions of dollars expended? To me as a tax-paying citizen and payer of medical insurance premiums, that is bad news.
Is this good news or bad news? If we compare developed societies globally, our medical system does a whole lot of things very well indeed. But we spend a great deal more than any other country for health care and objectively achieve poorer outcomes. Thus, we are neither efficient nor effective. We keep a lot of workers very busy doing stuff, and they are generally well paid. As a worker, that’s good news; as a manager who values efficiency, it’s bad news indeed.
Is this good news or bad news? We’re the leader at finding money to pay people to do “health care work.” More Americans work in health care than any other field. In 2019, the United States employed some 21,000,000 people doing “health care and social assistance.” Among others, these occupations include physicians, dentists, dental hygienists and assistants, pharmacists, registered nurses, LVNs/LPNs, nursing aides, technologists and technicians, home health aides, respiratory therapists, occupational and speech therapists, social workers, childcare workers, and personal and home care aides. For a patient, parent, grandparent, and great-grandparent, it is good news to have all those folks available to take care of us when we need it.
So, while I have cringed at the frequent exposés from Roy Poses of what seem to me to be massive societal betrayals by American health care industry giants, it doesn’t have to be that way. Might it still be possible to do well while doing good?
A jobs program
Consider such common medical procedures as coronary artery stents or bypass grafts for stable angina (when optimal medical therapy is as good, or better than, and much less expensive); PSAs on asymptomatic men followed by unnecessary surgery for localized cancer; excess surgery for low back pain; and the jobs created by managing the people caught up in medical complications of the obesity epidemic.
Don’t forget the number of people employed simply to “follow the money” within our byzantine cockamamie medical billing system. In 2009, this prompted me to describe the bloated system as a “health care bubble” not unlike Enron, the submarket real estate financing debacle, or the dot-com boom and bust. I warned of the downside of bursting that bubble, particularly lost jobs.
The Affordable Care Act (ACA) provided health insurance to some 35 million Americans who had been uninsured. It retarded health care inflation. But it did nothing to trim administrative costs or very high pay for nonclinical executives, or shareholder profits in those companies that were for-profit, or drug and device prices. Without the support of all those groups, the ACA would never have passed Congress. The ACA has clearly been a mixed blessing.
If any large American constituency were ever serious about reducing the percentage of our GDP expended on health care, we have excellent ways to do that while improving the health and well-being of the American people. But remember, one person’s liability (unnecessary work) is another person’s asset (needed job).
The MBAization of medicine
Meanwhile, back at Dean Hubbard’s voracious academic medical center, the high intellect and driven nature of those who are attracted to medicine as a career has had other effects. The resulting organizations reflect not only the glorious calling of caring for the sick and the availability of lots of money to recruit and compensate leaders, but also the necessity to develop strong executive types who won’t be “eaten alive” by the high-powered workforce of demanding physicians and the surrounding environment.
Thus, it came as no great surprise that in its 2021 determination of America’s top 25 Best Large Employers, Forbes included five health care organizations and seven universities. Beating out such giants as NASA, Cisco, Microsoft, Netflix, and Google, the University of Alabama Birmingham Hospital was ranked first. Mayo Clinic and Yale University came in third and fifth, respectively, and at the other end of the list were Duke (23), MIT (24), and MD Anderson (25).
My goodness! Well done.
Yet, as a country attempting to be balanced, Warren Buffett’s descriptive entreaty on the 2021 failure of Haven, the Amazon-Chase-Berkshire Hathaway joint initiative, remains troubling. Calling upon Haven to change the U.S. health care system, Buffet said, “We learned a lot about the difficulty of changing around an industry that’s 17% of the GDP. We were fighting a tapeworm in the American economy, and the tapeworm won.” They had failed to tame the American health care cost beast.
I am on record as despising the “MBAization” of American medicine. Unfairly, I blamed a professional and technical discipline for what I considered misuse. I hereby repent and renounce my earlier condemnations.
Take it all over?
Here’s an idea: If you can’t beat them, join them.
Medical care is important, especially for acute illnesses and injuries, early cancer therapy, and many chronic conditions. But the real determinants of health writ large are social: wealth, education, housing, nutritious food, childcare, climate, clean air and water, meaningful employment, safety from violence, exercise schemes, vaccinations, and so on.
Why doesn’t the American medical-industrial complex simply bestow the label of “health care” on all health-related social determinants? Take it all over. Good “health care” jobs for everyone. Medical professionals will still be blamed for the low health quality and poor outcome scores, the main social determinants of health over which we have no control or influence.
Let that tapeworm grow to encompass all social determinants of health, and measure results by length and quality of life, national human happiness, and, of course, jobs. We can do it. Let that bubble glow. Party time.
And that’s the way it is. That’s my opinion.
George Lundberg, MD, is editor-in-chief at Cancer Commons, president of the Lundberg Institute, executive advisor at Cureus, and a clinical professor of pathology at Northwestern University. Previously, he served as editor-in-chief of JAMA (including 10 specialty journals), American Medical News, and Medscape.
A version of this article first appeared on Medscape.com.
In my most recent column, “ ‘They All Laughed When I Spoke of Greedy Doctors,’ ” I attempted to provide a global understanding of some of the economic forces that have made American medicine what it is, how that happened, and why it is still happening.
I did not propose a fix. I have been proposing fixes for more than 30 years, on the pages of JAMA until 1999 and then for this news organization, most recently in 2019 with “Healthcare for All in a Land of Special Interests.”
Where you stand depends a lot on where you sit.
Is this good news or bad news? When William Hubbard was the dean of the University of Michigan School of Medicine in 1969, he said that “an academic medical center is the most efficient energy and resource trapping device that has ever been created” (personal communication, 1969).
To me as a faculty member of an academic medical center for many years, that was great news. We could grow faculty, erect buildings, take the best care of sick people, churn out research papers, mint new physicians and specialists, and get paid well in the process for doing “the Lord’s work.” What’s not to like? At that time, the proportion of the country’s gross national product expended for medical and health care was about 7%. And the predicted life span of an American at birth was 70.5 years.
Is this good news or bad news? In 2021, the proportion of our annual gross domestic product (GDP) consumed by health care was 18.3%, totaling $4.3 trillion, or $12,914 per person. For perspective, in 2021, the median income per capita was $37,638. Because quite a few Americans have very high incomes, the mean income per capita is much higher: $63,444. Predicted life span in 2021 was 76.4 years.
Thus, in a span of 53 years (1969-2022), only 5.9 years of life were gained per person born, for how many trillions of dollars expended? To me as a tax-paying citizen and payer of medical insurance premiums, that is bad news.
Is this good news or bad news? If we compare developed societies globally, our medical system does a whole lot of things very well indeed. But we spend a great deal more than any other country for health care and objectively achieve poorer outcomes. Thus, we are neither efficient nor effective. We keep a lot of workers very busy doing stuff, and they are generally well paid. As a worker, that’s good news; as a manager who values efficiency, it’s bad news indeed.
Is this good news or bad news? We’re the leader at finding money to pay people to do “health care work.” More Americans work in health care than any other field. In 2019, the United States employed some 21,000,000 people doing “health care and social assistance.” Among others, these occupations include physicians, dentists, dental hygienists and assistants, pharmacists, registered nurses, LVNs/LPNs, nursing aides, technologists and technicians, home health aides, respiratory therapists, occupational and speech therapists, social workers, childcare workers, and personal and home care aides. For a patient, parent, grandparent, and great-grandparent, it is good news to have all those folks available to take care of us when we need it.
So, while I have cringed at the frequent exposés from Roy Poses of what seem to me to be massive societal betrayals by American health care industry giants, it doesn’t have to be that way. Might it still be possible to do well while doing good?
A jobs program
Consider such common medical procedures as coronary artery stents or bypass grafts for stable angina (when optimal medical therapy is as good, or better than, and much less expensive); PSAs on asymptomatic men followed by unnecessary surgery for localized cancer; excess surgery for low back pain; and the jobs created by managing the people caught up in medical complications of the obesity epidemic.
Don’t forget the number of people employed simply to “follow the money” within our byzantine cockamamie medical billing system. In 2009, this prompted me to describe the bloated system as a “health care bubble” not unlike Enron, the submarket real estate financing debacle, or the dot-com boom and bust. I warned of the downside of bursting that bubble, particularly lost jobs.
The Affordable Care Act (ACA) provided health insurance to some 35 million Americans who had been uninsured. It retarded health care inflation. But it did nothing to trim administrative costs or very high pay for nonclinical executives, or shareholder profits in those companies that were for-profit, or drug and device prices. Without the support of all those groups, the ACA would never have passed Congress. The ACA has clearly been a mixed blessing.
If any large American constituency were ever serious about reducing the percentage of our GDP expended on health care, we have excellent ways to do that while improving the health and well-being of the American people. But remember, one person’s liability (unnecessary work) is another person’s asset (needed job).
The MBAization of medicine
Meanwhile, back at Dean Hubbard’s voracious academic medical center, the high intellect and driven nature of those who are attracted to medicine as a career has had other effects. The resulting organizations reflect not only the glorious calling of caring for the sick and the availability of lots of money to recruit and compensate leaders, but also the necessity to develop strong executive types who won’t be “eaten alive” by the high-powered workforce of demanding physicians and the surrounding environment.
Thus, it came as no great surprise that in its 2021 determination of America’s top 25 Best Large Employers, Forbes included five health care organizations and seven universities. Beating out such giants as NASA, Cisco, Microsoft, Netflix, and Google, the University of Alabama Birmingham Hospital was ranked first. Mayo Clinic and Yale University came in third and fifth, respectively, and at the other end of the list were Duke (23), MIT (24), and MD Anderson (25).
My goodness! Well done.
Yet, as a country attempting to be balanced, Warren Buffett’s descriptive entreaty on the 2021 failure of Haven, the Amazon-Chase-Berkshire Hathaway joint initiative, remains troubling. Calling upon Haven to change the U.S. health care system, Buffet said, “We learned a lot about the difficulty of changing around an industry that’s 17% of the GDP. We were fighting a tapeworm in the American economy, and the tapeworm won.” They had failed to tame the American health care cost beast.
I am on record as despising the “MBAization” of American medicine. Unfairly, I blamed a professional and technical discipline for what I considered misuse. I hereby repent and renounce my earlier condemnations.
Take it all over?
Here’s an idea: If you can’t beat them, join them.
Medical care is important, especially for acute illnesses and injuries, early cancer therapy, and many chronic conditions. But the real determinants of health writ large are social: wealth, education, housing, nutritious food, childcare, climate, clean air and water, meaningful employment, safety from violence, exercise schemes, vaccinations, and so on.
Why doesn’t the American medical-industrial complex simply bestow the label of “health care” on all health-related social determinants? Take it all over. Good “health care” jobs for everyone. Medical professionals will still be blamed for the low health quality and poor outcome scores, the main social determinants of health over which we have no control or influence.
Let that tapeworm grow to encompass all social determinants of health, and measure results by length and quality of life, national human happiness, and, of course, jobs. We can do it. Let that bubble glow. Party time.
And that’s the way it is. That’s my opinion.
George Lundberg, MD, is editor-in-chief at Cancer Commons, president of the Lundberg Institute, executive advisor at Cureus, and a clinical professor of pathology at Northwestern University. Previously, he served as editor-in-chief of JAMA (including 10 specialty journals), American Medical News, and Medscape.
A version of this article first appeared on Medscape.com.