MDedge Neurology

CHARLOTTE, N.C. – Overnight sleep electroencephalography (EEG) contains an abundance of brain wave data that could be mined to identify an individual’s risk for a host of health outcomes, including dementia, cognitive impairment, and cardiovascular events, a researcher reported at the annual meeting of the Associated Professional Sleep Societies. “Sleep EEGs contain decodable information about the risk of unfavorable outcomes,” said Haoqi Sun, PhD, an instructor of neurology at Massachusetts General Hospital, Boston, and lead study author. “The results suggest that it’s feasible to use sleep to identify people with high risk of unfavorable outcomes and it strengthens the concept of sleep as a window into brain and general health.”

The researchers performed a quantitative analysis of sleep data collected on 8,673 adults who had diagnostic sleep studies that included polysomnography (PSG). The analysis used ICD codes to consider these 11 health outcomes: dementia, mild cognitive impairment (MCI) or dementia, ischemic stroke, intracranial hemorrhage, atrial fibrillation, myocardial infarction, type 2 diabetes, hypertension, bipolar disorder, depression, and mortality.

Then, Dr. Sun explained, they extracted 86 spectral and time-domain features of REM and non-REM sleep from sleep EEG recordings, and analyzed that data by adjusting for eight covariates including age, sex, body mass index, and use of benzodiazepines, antidepressants, sedatives, antiseizure drugs, and stimulants.

Participants were partitioned into three sleep-quality groups: poor, average, and good. The outcome-wise mean prediction difference in 10-year cumulative incidence was 2.3% for the poor sleep group, 0.5% for the average sleep group, and 1.3% for the good sleep group.

The outcomes with the three greatest poor to average risk ratios were dementia (6.2; 95% confidence interval, 4.5-9.3), mortality (5.7; 95% CI, 5-7.5) and MCI or dementia (4; 95% CI, 3.2-4.9).
 

Ready for the clinic?

In an interview, Dr. Sun said the results demonstrated the potential of using EEG brain wave data to predict health outcomes on an individual basis, although he acknowledged that most of the 86 sleep features the researchers used are not readily available in the clinic.

He noted the spectral features used in the study can be captured through software compatible with PSG. “From there you can identify the various bands, the different frequency ranges, and then you can easily see within this range whether a person has a higher power or lower power,” he said. However, the spindle and slow-oscillation features that researchers used in the study are beyond the reach of most clinics.
 

Next steps

This research is in its early stage, Dr. Sun said, but at some point the data collected from sleep studies could be paired with machine learning to make the model workable for evaluating individual patients. “Our goal is to first make this individualized,” he said. “We want to minimize the noise in the recording and minimize the night-to-night variability in the findings. There is some clinical-informed approach and there is also some algorithm-informed approach where you can minimize the variation over time.”

The model also has the potential to predict outcomes, particularly with chronic diseases such as diabetes and dementia, well before a diagnosis is made, he said.
 

‘Fascinating’ and ‘provocative’

Donald Bliwise, PhD, professor of neurology at Emory Sleep Center in Atlanta, said the study was “fascinating; it’s provocative; it’s exciting and interesting,” but added, “Sleep is vital for health. That’s abundantly clear in a study like that, but trying to push it a little bit further with all of these 86 measurements of the EEG, I think it becomes complicated.”

The study methodology, particularly the use of cumulative incidence of various diseases, was laudable, he said, and the use of simpler EEG-measured sleep features, such as alpha band power, “make intuitive sense.”

But it’s less clear on how the more sophisticated features the study model used – for example, kurtosis of theta frequency or coupling between spindle and slow oscillation – rank on sleep quality, he said, adding that the researchers have most likely done that but couldn’t add that into the format of the presentation.

“Kurtosis of the theta frequency band we don’t get on everyone in the sleep lab,” Dr. Bliwise said. “We might be able to, but I don’t know how to quite plug that into a turnkey model.”

The clinical components of the study were conducted by M. Brandon Westover, MD, PhD, at Massachusetts General Hospital, and Robert J. Thomas, MD, at Beth Israel Deaconess Medical Center, both in Boston. The study received support from the American Academy of Sleep Medicine Foundation. Dr. Sun has no relevant disclosures. Dr. Bliwise has no disclosures.

CHARLOTTE, N.C. – Overnight sleep electroencephalography (EEG) contains an abundance of brain wave data that could be mined to identify an individual’s risk for a host of health outcomes, including dementia, cognitive impairment, and cardiovascular events, a researcher reported at the annual meeting of the Associated Professional Sleep Societies. “Sleep EEGs contain decodable information about the risk of unfavorable outcomes,” said Haoqi Sun, PhD, an instructor of neurology at Massachusetts General Hospital, Boston, and lead study author. “The results suggest that it’s feasible to use sleep to identify people with high risk of unfavorable outcomes and it strengthens the concept of sleep as a window into brain and general health.”

The researchers performed a quantitative analysis of sleep data collected on 8,673 adults who had diagnostic sleep studies that included polysomnography (PSG). The analysis used ICD codes to consider these 11 health outcomes: dementia, mild cognitive impairment (MCI) or dementia, ischemic stroke, intracranial hemorrhage, atrial fibrillation, myocardial infarction, type 2 diabetes, hypertension, bipolar disorder, depression, and mortality.

Then, Dr. Sun explained, they extracted 86 spectral and time-domain features of REM and non-REM sleep from sleep EEG recordings, and analyzed that data by adjusting for eight covariates including age, sex, body mass index, and use of benzodiazepines, antidepressants, sedatives, antiseizure drugs, and stimulants.

Participants were partitioned into three sleep-quality groups: poor, average, and good. The outcome-wise mean prediction difference in 10-year cumulative incidence was 2.3% for the poor sleep group, 0.5% for the average sleep group, and 1.3% for the good sleep group.

The outcomes with the three greatest poor to average risk ratios were dementia (6.2; 95% confidence interval, 4.5-9.3), mortality (5.7; 95% CI, 5-7.5) and MCI or dementia (4; 95% CI, 3.2-4.9).
 

Ready for the clinic?

In an interview, Dr. Sun said the results demonstrated the potential of using EEG brain wave data to predict health outcomes on an individual basis, although he acknowledged that most of the 86 sleep features the researchers used are not readily available in the clinic.

He noted the spectral features used in the study can be captured through software compatible with PSG. “From there you can identify the various bands, the different frequency ranges, and then you can easily see within this range whether a person has a higher power or lower power,” he said. However, the spindle and slow-oscillation features that researchers used in the study are beyond the reach of most clinics.
 

Next steps

This research is in its early stage, Dr. Sun said, but at some point the data collected from sleep studies could be paired with machine learning to make the model workable for evaluating individual patients. “Our goal is to first make this individualized,” he said. “We want to minimize the noise in the recording and minimize the night-to-night variability in the findings. There is some clinical-informed approach and there is also some algorithm-informed approach where you can minimize the variation over time.”

The model also has the potential to predict outcomes, particularly with chronic diseases such as diabetes and dementia, well before a diagnosis is made, he said.
 

‘Fascinating’ and ‘provocative’

Donald Bliwise, PhD, professor of neurology at Emory Sleep Center in Atlanta, said the study was “fascinating; it’s provocative; it’s exciting and interesting,” but added, “Sleep is vital for health. That’s abundantly clear in a study like that, but trying to push it a little bit further with all of these 86 measurements of the EEG, I think it becomes complicated.”

The study methodology, particularly the use of cumulative incidence of various diseases, was laudable, he said, and the use of simpler EEG-measured sleep features, such as alpha band power, “make intuitive sense.”

But it’s less clear on how the more sophisticated features the study model used – for example, kurtosis of theta frequency or coupling between spindle and slow oscillation – rank on sleep quality, he said, adding that the researchers have most likely done that but couldn’t add that into the format of the presentation.

“Kurtosis of the theta frequency band we don’t get on everyone in the sleep lab,” Dr. Bliwise said. “We might be able to, but I don’t know how to quite plug that into a turnkey model.”

The clinical components of the study were conducted by M. Brandon Westover, MD, PhD, at Massachusetts General Hospital, and Robert J. Thomas, MD, at Beth Israel Deaconess Medical Center, both in Boston. The study received support from the American Academy of Sleep Medicine Foundation. Dr. Sun has no relevant disclosures. Dr. Bliwise has no disclosures.

CHARLOTTE, N.C. – Overnight sleep electroencephalography (EEG) contains an abundance of brain wave data that could be mined to identify an individual’s risk for a host of health outcomes, including dementia, cognitive impairment, and cardiovascular events, a researcher reported at the annual meeting of the Associated Professional Sleep Societies. “Sleep EEGs contain decodable information about the risk of unfavorable outcomes,” said Haoqi Sun, PhD, an instructor of neurology at Massachusetts General Hospital, Boston, and lead study author. “The results suggest that it’s feasible to use sleep to identify people with high risk of unfavorable outcomes and it strengthens the concept of sleep as a window into brain and general health.”

The researchers performed a quantitative analysis of sleep data collected on 8,673 adults who had diagnostic sleep studies that included polysomnography (PSG). The analysis used ICD codes to consider these 11 health outcomes: dementia, mild cognitive impairment (MCI) or dementia, ischemic stroke, intracranial hemorrhage, atrial fibrillation, myocardial infarction, type 2 diabetes, hypertension, bipolar disorder, depression, and mortality.

Then, Dr. Sun explained, they extracted 86 spectral and time-domain features of REM and non-REM sleep from sleep EEG recordings, and analyzed that data by adjusting for eight covariates including age, sex, body mass index, and use of benzodiazepines, antidepressants, sedatives, antiseizure drugs, and stimulants.

Participants were partitioned into three sleep-quality groups: poor, average, and good. The outcome-wise mean prediction difference in 10-year cumulative incidence was 2.3% for the poor sleep group, 0.5% for the average sleep group, and 1.3% for the good sleep group.

The outcomes with the three greatest poor to average risk ratios were dementia (6.2; 95% confidence interval, 4.5-9.3), mortality (5.7; 95% CI, 5-7.5) and MCI or dementia (4; 95% CI, 3.2-4.9).
 

Ready for the clinic?

In an interview, Dr. Sun said the results demonstrated the potential of using EEG brain wave data to predict health outcomes on an individual basis, although he acknowledged that most of the 86 sleep features the researchers used are not readily available in the clinic.

He noted the spectral features used in the study can be captured through software compatible with PSG. “From there you can identify the various bands, the different frequency ranges, and then you can easily see within this range whether a person has a higher power or lower power,” he said. However, the spindle and slow-oscillation features that researchers used in the study are beyond the reach of most clinics.
 

Next steps

This research is in its early stage, Dr. Sun said, but at some point the data collected from sleep studies could be paired with machine learning to make the model workable for evaluating individual patients. “Our goal is to first make this individualized,” he said. “We want to minimize the noise in the recording and minimize the night-to-night variability in the findings. There is some clinical-informed approach and there is also some algorithm-informed approach where you can minimize the variation over time.”

The model also has the potential to predict outcomes, particularly with chronic diseases such as diabetes and dementia, well before a diagnosis is made, he said.
 

‘Fascinating’ and ‘provocative’

Donald Bliwise, PhD, professor of neurology at Emory Sleep Center in Atlanta, said the study was “fascinating; it’s provocative; it’s exciting and interesting,” but added, “Sleep is vital for health. That’s abundantly clear in a study like that, but trying to push it a little bit further with all of these 86 measurements of the EEG, I think it becomes complicated.”

The study methodology, particularly the use of cumulative incidence of various diseases, was laudable, he said, and the use of simpler EEG-measured sleep features, such as alpha band power, “make intuitive sense.”

But it’s less clear on how the more sophisticated features the study model used – for example, kurtosis of theta frequency or coupling between spindle and slow oscillation – rank on sleep quality, he said, adding that the researchers have most likely done that but couldn’t add that into the format of the presentation.

“Kurtosis of the theta frequency band we don’t get on everyone in the sleep lab,” Dr. Bliwise said. “We might be able to, but I don’t know how to quite plug that into a turnkey model.”

The clinical components of the study were conducted by M. Brandon Westover, MD, PhD, at Massachusetts General Hospital, and Robert J. Thomas, MD, at Beth Israel Deaconess Medical Center, both in Boston. The study received support from the American Academy of Sleep Medicine Foundation. Dr. Sun has no relevant disclosures. Dr. Bliwise has no disclosures.

NATIONAL HARBOR, MD – Just 2 days before she spoke in a presentation at the annual meeting of the Consortium of Multiple Sclerosis Centers, University of Colorado neurologist Anna Shah, MD, asked a 26-year-old patient with MS about whether she planned to have children. Absolutely not, the young woman replied. “I read online that I can give birth to a baby with MS, which is crazy.”

The patient didn’t understand the risk of having a child with MS – it’s thought to be 2%-5% if one parent has the condition – but she wouldn’t have learned the facts if Dr. Shah hadn’t asked the right questions. “It’s really important for us as a community to know how to be proactive with discussions [about pregnancy],” she said.

As she noted, an estimated 75% of patients with MS are women, most are diagnosed during prime child-bearing years, and many pregnancies in general – an estimated half – are not planned. And while a higher percentage of women with MS are having children than in the past, she said, misinformation remains common. In fact, physicians can be part of the problem.

Dr. Shaw highlighted a 2019 Italian survey that found that 16% of 395 people with MS reported that they were discouraged from having children, mainly by medical professionals, after their diagnosis. Seven percent said they never wanted to become parents because of their MS. A 2021 survey of 332 patients with MS in the United States, United Kingdom, France, Germany, Italy, and Spain, found that 56% reported that MS played a role in their decisions about family planning, and 14% of those decided not to have children.

In regard to women of child-bearing age, Dr. Shah recommends that family planning and contraception should be discussed at the initial visit and every subsequent visit. Open-ended, individualized questions are key. “We don’t know what patients don’t share with us,” she said.

Make sure to consider the timing of any plans to have children, she said. If the patient wants to have children within a year, talk about matters such as whether disease activity is well-controlled (6-12 months of good control is ideal) and whether current disease-modifying therapies are safe. Make sure to get a baseline prepartum MRI scan, she said.

If the patients don’t want to have children, make sure they are using a reliable strategy to avoid conception. Be aware that modafinil – “not one that immediately comes to mind” – may decrease the efficacy of oral contraceptives, she said, as can anticonvulsants (phenytoin, carbamazepine, oxcarbazepine, topiramate, and primidone). Oral contraceptives, meanwhile, may decrease levels of lamotrigine.

What if a patient has trouble conceiving? There are some hints in research that MS may boost the risk of infertility in women, Dr. Shah said. That’s why she recommends that colleagues consider referring a patient to an infertility specialist after attempting conception for 6 months as opposed to the general recommendation for 12 months.

Dr. Shah disclosed advisory board service (Genentech) and development of nonbranded educational programming through Novartis and the National Committee for Quality Assurance.

NATIONAL HARBOR, MD – Just 2 days before she spoke in a presentation at the annual meeting of the Consortium of Multiple Sclerosis Centers, University of Colorado neurologist Anna Shah, MD, asked a 26-year-old patient with MS about whether she planned to have children. Absolutely not, the young woman replied. “I read online that I can give birth to a baby with MS, which is crazy.”

The patient didn’t understand the risk of having a child with MS – it’s thought to be 2%-5% if one parent has the condition – but she wouldn’t have learned the facts if Dr. Shah hadn’t asked the right questions. “It’s really important for us as a community to know how to be proactive with discussions [about pregnancy],” she said.

As she noted, an estimated 75% of patients with MS are women, most are diagnosed during prime child-bearing years, and many pregnancies in general – an estimated half – are not planned. And while a higher percentage of women with MS are having children than in the past, she said, misinformation remains common. In fact, physicians can be part of the problem.

Dr. Shaw highlighted a 2019 Italian survey that found that 16% of 395 people with MS reported that they were discouraged from having children, mainly by medical professionals, after their diagnosis. Seven percent said they never wanted to become parents because of their MS. A 2021 survey of 332 patients with MS in the United States, United Kingdom, France, Germany, Italy, and Spain, found that 56% reported that MS played a role in their decisions about family planning, and 14% of those decided not to have children.

In regard to women of child-bearing age, Dr. Shah recommends that family planning and contraception should be discussed at the initial visit and every subsequent visit. Open-ended, individualized questions are key. “We don’t know what patients don’t share with us,” she said.

Make sure to consider the timing of any plans to have children, she said. If the patient wants to have children within a year, talk about matters such as whether disease activity is well-controlled (6-12 months of good control is ideal) and whether current disease-modifying therapies are safe. Make sure to get a baseline prepartum MRI scan, she said.

If the patients don’t want to have children, make sure they are using a reliable strategy to avoid conception. Be aware that modafinil – “not one that immediately comes to mind” – may decrease the efficacy of oral contraceptives, she said, as can anticonvulsants (phenytoin, carbamazepine, oxcarbazepine, topiramate, and primidone). Oral contraceptives, meanwhile, may decrease levels of lamotrigine.

What if a patient has trouble conceiving? There are some hints in research that MS may boost the risk of infertility in women, Dr. Shah said. That’s why she recommends that colleagues consider referring a patient to an infertility specialist after attempting conception for 6 months as opposed to the general recommendation for 12 months.

Dr. Shah disclosed advisory board service (Genentech) and development of nonbranded educational programming through Novartis and the National Committee for Quality Assurance.

NATIONAL HARBOR, MD – Just 2 days before she spoke in a presentation at the annual meeting of the Consortium of Multiple Sclerosis Centers, University of Colorado neurologist Anna Shah, MD, asked a 26-year-old patient with MS about whether she planned to have children. Absolutely not, the young woman replied. “I read online that I can give birth to a baby with MS, which is crazy.”

The patient didn’t understand the risk of having a child with MS – it’s thought to be 2%-5% if one parent has the condition – but she wouldn’t have learned the facts if Dr. Shah hadn’t asked the right questions. “It’s really important for us as a community to know how to be proactive with discussions [about pregnancy],” she said.

As she noted, an estimated 75% of patients with MS are women, most are diagnosed during prime child-bearing years, and many pregnancies in general – an estimated half – are not planned. And while a higher percentage of women with MS are having children than in the past, she said, misinformation remains common. In fact, physicians can be part of the problem.

Dr. Shaw highlighted a 2019 Italian survey that found that 16% of 395 people with MS reported that they were discouraged from having children, mainly by medical professionals, after their diagnosis. Seven percent said they never wanted to become parents because of their MS. A 2021 survey of 332 patients with MS in the United States, United Kingdom, France, Germany, Italy, and Spain, found that 56% reported that MS played a role in their decisions about family planning, and 14% of those decided not to have children.

In regard to women of child-bearing age, Dr. Shah recommends that family planning and contraception should be discussed at the initial visit and every subsequent visit. Open-ended, individualized questions are key. “We don’t know what patients don’t share with us,” she said.

Make sure to consider the timing of any plans to have children, she said. If the patient wants to have children within a year, talk about matters such as whether disease activity is well-controlled (6-12 months of good control is ideal) and whether current disease-modifying therapies are safe. Make sure to get a baseline prepartum MRI scan, she said.

If the patients don’t want to have children, make sure they are using a reliable strategy to avoid conception. Be aware that modafinil – “not one that immediately comes to mind” – may decrease the efficacy of oral contraceptives, she said, as can anticonvulsants (phenytoin, carbamazepine, oxcarbazepine, topiramate, and primidone). Oral contraceptives, meanwhile, may decrease levels of lamotrigine.

What if a patient has trouble conceiving? There are some hints in research that MS may boost the risk of infertility in women, Dr. Shah said. That’s why she recommends that colleagues consider referring a patient to an infertility specialist after attempting conception for 6 months as opposed to the general recommendation for 12 months.

Dr. Shah disclosed advisory board service (Genentech) and development of nonbranded educational programming through Novartis and the National Committee for Quality Assurance.

Angela Intili, MD, an ob.gyn., was used to seeing her medical malpractice insurance premium rise slightly every couple of years. But she was shocked by the drastic rise she recently experienced.

In the last 2 years, Dr. Intili’s premiums shot from $60,000 to $130,000, she said.

“After 30 years of practice, this is the first time I’ve asked myself if I can even afford to continue practicing obstetrics and gynecology,” said Dr. Intili, 62, of Joliet, Ill. “It’s gotten very difficult to make ends meet as far as overhead because of the liability costs. I still love what I’m doing but I don’t know if I can afford to do it anymore.”

Even more frustrating for Dr. Intili was learning that claims in Illinois have sharply declined. From 2016 to 2020, tort filings in Illinois decreased by 43%, according to a state report.

“If claims are going down, I don’t understand why premium payments are going up,” she said.

Physicians across the country are experiencing a similar paradox. Claims are down, yet premiums are rising.

Medscape’s Malpractice Report 2021 found that 42% of primary care physicians were sued in 2020 through mid-2021, down from 52% in 2019. Fifty-six percent of specialists were sued in 2020 through mid-2021 compared with 62% in 2019, the report found. The pandemic was undoubtedly behind the decrease in suits, according to legal experts.

Yet, physicians paid higher premiums in 2021 and are on track for increases again in 2022, according to data and analysts.

According to Conning, direct premiums written for physicians increased 7.0% in 2021 (from $5.01 billion to $5.36 billion). Conning, an investment management firm that serves the insurance industry, analyzes annual financial reports filed by insurers to state insurance departments. The Medical Liability Monitor’s 2021 report found that premiums for internists, surgeons, and ob.gyns. in states without Patient Compensation Funds rose by an average of 2% in 2021.

The disparities raise questions about why physicians are paying higher premiums when having fewer claims is likely saving insurers’ money. Shouldn’t physicians’ rates reflect the reduction in claims?
 

Cases plummet during pandemic

During the pandemic, the volume of new medical malpractice claims dwindled to nearly nothing, said Michael Matray, editor of the Medical Liability Monitor, a national publication that analyzes medical liability insurance premiums.

“The court system closed for a while,” he said. “No elective procedures were being done in 2020 and the early parts of 2021. If you have no treatment, you have no malpractice, so of course, claims frequency tumbled down to a trickle.”

The number of large awards also decreased during the pandemic, noted Bill Burns, a director of insurance research at Conning.

“For claims that were already in the system, many of them could not be resolved because of the court closures, inability to take statements and depositions, etc.,” he said. “This resulted in a drop in verdicts.”

In 2021, there were 16 medical malpractice verdicts of $10 million or more in the United States, according to TransRe, an international reinsurance company that tracks large verdicts. In 2020, there were six verdicts of $10 million or more, TransRe research found. This is down from 52 verdicts of $10 million or more in 2019 and 46 verdicts of $10 million or more in 2018.

But although the pandemic lowered claims and decreased the number of payouts, one important aspect was untouched by the COVID era, said Richard E. Anderson, MD, chairman and CEO for The Doctors Company, a national medical liability insurer, and TDC Group.

“It’s a fair question: If claims are down, why are premiums continuing to go up?” Dr. Anderson said. “The answer is severity.”
 

High-dollar verdicts pave expensive path

The upward trend in severity has continued for about 6 years and has not slowed, Dr. Anderson said. Severity refers to high-dollar verdicts and settlements.

“We’re seeing record-high verdicts all over the country,” he said. “We used to have maps that showed the top 10 medical malpractice verdicts or awards, and they would be clustered where you’d expect them to be, New York, Florida, Illinois, and so forth. Now, if you look at those top 10 verdicts, they could be anywhere in the country.”

In Minnesota for instance, a jury awarded a record $111 million in damages to a college student in May after finding a hospital and an orthopedic surgeon negligent in treating his broken leg. In April, a Kansas City jury awarded a family $25 million after finding that an ob.gyn. and hospital failed to properly treat a mother in labor, causing brain damage to her infant.  

Such record payouts factor into premium costs, said Ned Rand Jr., CEO for ProAssurance, a national medical liability insurer. Though only a minority of claims reach that level, when a high award occurs, it puts pressure on the ultimate cost to resolve claims, he said. The frequency of claims filed is also expected to soon rebound, he noted.

“As we price the product sitting here today, we have to factor both of those in,” Mr. Rand said. “That’s why we, as an industry, continue to see, by and large, rates going up. And we fell behind. Some of this severity, in particular, as an industry, we weren’t pricing fully for, so we’ve been playing catch-up.”

High-dollar awards – also called nuclear verdicts – set the arena for future settlements in similar cases, Dr. Anderson added.

“If it was an orthopedic case for instance, and there was a similar injury in another case, that’s the trial lawyers’ starting point for the award,” he said. “Now, they’re not going to get it, but it distorts the negotiations. As we have more and more nuclear verdicts, it becomes harder to settle claims for reasonable amounts.”
 

What does 2022 have in store?

Analysts say the backlog of malpractice claims in the court system could prove calamitous for premiums and the liability landscape.

Courts are slogging through the pileup caused by the pandemic, but it’s estimated that there is still about a one-third larger case backlog than normal, according to Mr. Matray.

Such delayed claims may end up costing more because of social inflation, said Mr. Burns.

“People look at the world differently than they did 2 years ago,” he said. “A jury may have awarded $5 million for a claim a few years ago. But then the pandemic hits, and we have the George Floyd incident, and we have people out of work and a shortage in baby formula. Yet, companies are still making a lot of money and many insurance companies are turning record profits. Today, that jury may look at a sympathetic malpractice victim and award $10 million for the same claim.”

Concerns also exist about a potential surge of new malpractice claims. Mr. Rand compares the possible wave to a large bubble.

“I liken it to a cartoon, when one character grabs the hose and a big bubble forms as the water builds up,” he said. “Then the character releases, and water comes flooding out. As an industry, we wait, wondering: Is there going to be this flood of claims as the court systems reopen and the statute of limitations approach around some of these claims? That’s an ongoing concern.”

As for impending premiums, physicians can expect rises in 2022 and again in 2023, according to Chris Wojciechowski, a partner at TigerRisk Partners, a reinsurance broker.

“In general, there is a lot of uncertainty around the state of the economy, the tort environment, litigation post COVID, and overall volatility across the capital markets,” he said. “Furthermore, thanks to social and financial inflation, the potential for very severe verdicts has increased dramatically, and as courthouses reopen, the trends are not looking favorable. While many of the physician carriers have strong balance sheets, they can’t lose money on an underwriting basis forever.”

For Dr. Intili, the Illinois ob.gyn., news of another impending increase in 2022 is distressing. She expects another 10%-20% rise in 2022, she said. If she were younger and earlier in her career, she might’ve considered moving, she said, but her family lives in Illinois and she cares for her older parents.

“I’m not ready to retire,” Dr. Intili said. “I’m looking into options, possibly becoming a hospitalist or doing locum tenens work. I’ve been a solo practitioner for 27 years and I love the autonomy. But these high premiums are making it almost impossible to continue.”

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

Angela Intili, MD, an ob.gyn., was used to seeing her medical malpractice insurance premium rise slightly every couple of years. But she was shocked by the drastic rise she recently experienced.

In the last 2 years, Dr. Intili’s premiums shot from $60,000 to $130,000, she said.

“After 30 years of practice, this is the first time I’ve asked myself if I can even afford to continue practicing obstetrics and gynecology,” said Dr. Intili, 62, of Joliet, Ill. “It’s gotten very difficult to make ends meet as far as overhead because of the liability costs. I still love what I’m doing but I don’t know if I can afford to do it anymore.”

Even more frustrating for Dr. Intili was learning that claims in Illinois have sharply declined. From 2016 to 2020, tort filings in Illinois decreased by 43%, according to a state report.

“If claims are going down, I don’t understand why premium payments are going up,” she said.

Physicians across the country are experiencing a similar paradox. Claims are down, yet premiums are rising.

Medscape’s Malpractice Report 2021 found that 42% of primary care physicians were sued in 2020 through mid-2021, down from 52% in 2019. Fifty-six percent of specialists were sued in 2020 through mid-2021 compared with 62% in 2019, the report found. The pandemic was undoubtedly behind the decrease in suits, according to legal experts.

Yet, physicians paid higher premiums in 2021 and are on track for increases again in 2022, according to data and analysts.

According to Conning, direct premiums written for physicians increased 7.0% in 2021 (from $5.01 billion to $5.36 billion). Conning, an investment management firm that serves the insurance industry, analyzes annual financial reports filed by insurers to state insurance departments. The Medical Liability Monitor’s 2021 report found that premiums for internists, surgeons, and ob.gyns. in states without Patient Compensation Funds rose by an average of 2% in 2021.

The disparities raise questions about why physicians are paying higher premiums when having fewer claims is likely saving insurers’ money. Shouldn’t physicians’ rates reflect the reduction in claims?
 

Cases plummet during pandemic

During the pandemic, the volume of new medical malpractice claims dwindled to nearly nothing, said Michael Matray, editor of the Medical Liability Monitor, a national publication that analyzes medical liability insurance premiums.

“The court system closed for a while,” he said. “No elective procedures were being done in 2020 and the early parts of 2021. If you have no treatment, you have no malpractice, so of course, claims frequency tumbled down to a trickle.”

The number of large awards also decreased during the pandemic, noted Bill Burns, a director of insurance research at Conning.

“For claims that were already in the system, many of them could not be resolved because of the court closures, inability to take statements and depositions, etc.,” he said. “This resulted in a drop in verdicts.”

In 2021, there were 16 medical malpractice verdicts of $10 million or more in the United States, according to TransRe, an international reinsurance company that tracks large verdicts. In 2020, there were six verdicts of $10 million or more, TransRe research found. This is down from 52 verdicts of $10 million or more in 2019 and 46 verdicts of $10 million or more in 2018.

But although the pandemic lowered claims and decreased the number of payouts, one important aspect was untouched by the COVID era, said Richard E. Anderson, MD, chairman and CEO for The Doctors Company, a national medical liability insurer, and TDC Group.

“It’s a fair question: If claims are down, why are premiums continuing to go up?” Dr. Anderson said. “The answer is severity.”
 

High-dollar verdicts pave expensive path

The upward trend in severity has continued for about 6 years and has not slowed, Dr. Anderson said. Severity refers to high-dollar verdicts and settlements.

“We’re seeing record-high verdicts all over the country,” he said. “We used to have maps that showed the top 10 medical malpractice verdicts or awards, and they would be clustered where you’d expect them to be, New York, Florida, Illinois, and so forth. Now, if you look at those top 10 verdicts, they could be anywhere in the country.”

In Minnesota for instance, a jury awarded a record $111 million in damages to a college student in May after finding a hospital and an orthopedic surgeon negligent in treating his broken leg. In April, a Kansas City jury awarded a family $25 million after finding that an ob.gyn. and hospital failed to properly treat a mother in labor, causing brain damage to her infant.  

Such record payouts factor into premium costs, said Ned Rand Jr., CEO for ProAssurance, a national medical liability insurer. Though only a minority of claims reach that level, when a high award occurs, it puts pressure on the ultimate cost to resolve claims, he said. The frequency of claims filed is also expected to soon rebound, he noted.

“As we price the product sitting here today, we have to factor both of those in,” Mr. Rand said. “That’s why we, as an industry, continue to see, by and large, rates going up. And we fell behind. Some of this severity, in particular, as an industry, we weren’t pricing fully for, so we’ve been playing catch-up.”

High-dollar awards – also called nuclear verdicts – set the arena for future settlements in similar cases, Dr. Anderson added.

“If it was an orthopedic case for instance, and there was a similar injury in another case, that’s the trial lawyers’ starting point for the award,” he said. “Now, they’re not going to get it, but it distorts the negotiations. As we have more and more nuclear verdicts, it becomes harder to settle claims for reasonable amounts.”
 

What does 2022 have in store?

Analysts say the backlog of malpractice claims in the court system could prove calamitous for premiums and the liability landscape.

Courts are slogging through the pileup caused by the pandemic, but it’s estimated that there is still about a one-third larger case backlog than normal, according to Mr. Matray.

Such delayed claims may end up costing more because of social inflation, said Mr. Burns.

“People look at the world differently than they did 2 years ago,” he said. “A jury may have awarded $5 million for a claim a few years ago. But then the pandemic hits, and we have the George Floyd incident, and we have people out of work and a shortage in baby formula. Yet, companies are still making a lot of money and many insurance companies are turning record profits. Today, that jury may look at a sympathetic malpractice victim and award $10 million for the same claim.”

Concerns also exist about a potential surge of new malpractice claims. Mr. Rand compares the possible wave to a large bubble.

“I liken it to a cartoon, when one character grabs the hose and a big bubble forms as the water builds up,” he said. “Then the character releases, and water comes flooding out. As an industry, we wait, wondering: Is there going to be this flood of claims as the court systems reopen and the statute of limitations approach around some of these claims? That’s an ongoing concern.”

As for impending premiums, physicians can expect rises in 2022 and again in 2023, according to Chris Wojciechowski, a partner at TigerRisk Partners, a reinsurance broker.

“In general, there is a lot of uncertainty around the state of the economy, the tort environment, litigation post COVID, and overall volatility across the capital markets,” he said. “Furthermore, thanks to social and financial inflation, the potential for very severe verdicts has increased dramatically, and as courthouses reopen, the trends are not looking favorable. While many of the physician carriers have strong balance sheets, they can’t lose money on an underwriting basis forever.”

For Dr. Intili, the Illinois ob.gyn., news of another impending increase in 2022 is distressing. She expects another 10%-20% rise in 2022, she said. If she were younger and earlier in her career, she might’ve considered moving, she said, but her family lives in Illinois and she cares for her older parents.

“I’m not ready to retire,” Dr. Intili said. “I’m looking into options, possibly becoming a hospitalist or doing locum tenens work. I’ve been a solo practitioner for 27 years and I love the autonomy. But these high premiums are making it almost impossible to continue.”

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

Angela Intili, MD, an ob.gyn., was used to seeing her medical malpractice insurance premium rise slightly every couple of years. But she was shocked by the drastic rise she recently experienced.

In the last 2 years, Dr. Intili’s premiums shot from $60,000 to $130,000, she said.

“After 30 years of practice, this is the first time I’ve asked myself if I can even afford to continue practicing obstetrics and gynecology,” said Dr. Intili, 62, of Joliet, Ill. “It’s gotten very difficult to make ends meet as far as overhead because of the liability costs. I still love what I’m doing but I don’t know if I can afford to do it anymore.”

Even more frustrating for Dr. Intili was learning that claims in Illinois have sharply declined. From 2016 to 2020, tort filings in Illinois decreased by 43%, according to a state report.

“If claims are going down, I don’t understand why premium payments are going up,” she said.

Physicians across the country are experiencing a similar paradox. Claims are down, yet premiums are rising.

Medscape’s Malpractice Report 2021 found that 42% of primary care physicians were sued in 2020 through mid-2021, down from 52% in 2019. Fifty-six percent of specialists were sued in 2020 through mid-2021 compared with 62% in 2019, the report found. The pandemic was undoubtedly behind the decrease in suits, according to legal experts.

Yet, physicians paid higher premiums in 2021 and are on track for increases again in 2022, according to data and analysts.

According to Conning, direct premiums written for physicians increased 7.0% in 2021 (from $5.01 billion to $5.36 billion). Conning, an investment management firm that serves the insurance industry, analyzes annual financial reports filed by insurers to state insurance departments. The Medical Liability Monitor’s 2021 report found that premiums for internists, surgeons, and ob.gyns. in states without Patient Compensation Funds rose by an average of 2% in 2021.

The disparities raise questions about why physicians are paying higher premiums when having fewer claims is likely saving insurers’ money. Shouldn’t physicians’ rates reflect the reduction in claims?
 

Cases plummet during pandemic

During the pandemic, the volume of new medical malpractice claims dwindled to nearly nothing, said Michael Matray, editor of the Medical Liability Monitor, a national publication that analyzes medical liability insurance premiums.

“The court system closed for a while,” he said. “No elective procedures were being done in 2020 and the early parts of 2021. If you have no treatment, you have no malpractice, so of course, claims frequency tumbled down to a trickle.”

The number of large awards also decreased during the pandemic, noted Bill Burns, a director of insurance research at Conning.

“For claims that were already in the system, many of them could not be resolved because of the court closures, inability to take statements and depositions, etc.,” he said. “This resulted in a drop in verdicts.”

In 2021, there were 16 medical malpractice verdicts of $10 million or more in the United States, according to TransRe, an international reinsurance company that tracks large verdicts. In 2020, there were six verdicts of $10 million or more, TransRe research found. This is down from 52 verdicts of $10 million or more in 2019 and 46 verdicts of $10 million or more in 2018.

But although the pandemic lowered claims and decreased the number of payouts, one important aspect was untouched by the COVID era, said Richard E. Anderson, MD, chairman and CEO for The Doctors Company, a national medical liability insurer, and TDC Group.

“It’s a fair question: If claims are down, why are premiums continuing to go up?” Dr. Anderson said. “The answer is severity.”
 

High-dollar verdicts pave expensive path

The upward trend in severity has continued for about 6 years and has not slowed, Dr. Anderson said. Severity refers to high-dollar verdicts and settlements.

“We’re seeing record-high verdicts all over the country,” he said. “We used to have maps that showed the top 10 medical malpractice verdicts or awards, and they would be clustered where you’d expect them to be, New York, Florida, Illinois, and so forth. Now, if you look at those top 10 verdicts, they could be anywhere in the country.”

In Minnesota for instance, a jury awarded a record $111 million in damages to a college student in May after finding a hospital and an orthopedic surgeon negligent in treating his broken leg. In April, a Kansas City jury awarded a family $25 million after finding that an ob.gyn. and hospital failed to properly treat a mother in labor, causing brain damage to her infant.  

Such record payouts factor into premium costs, said Ned Rand Jr., CEO for ProAssurance, a national medical liability insurer. Though only a minority of claims reach that level, when a high award occurs, it puts pressure on the ultimate cost to resolve claims, he said. The frequency of claims filed is also expected to soon rebound, he noted.

“As we price the product sitting here today, we have to factor both of those in,” Mr. Rand said. “That’s why we, as an industry, continue to see, by and large, rates going up. And we fell behind. Some of this severity, in particular, as an industry, we weren’t pricing fully for, so we’ve been playing catch-up.”

High-dollar awards – also called nuclear verdicts – set the arena for future settlements in similar cases, Dr. Anderson added.

“If it was an orthopedic case for instance, and there was a similar injury in another case, that’s the trial lawyers’ starting point for the award,” he said. “Now, they’re not going to get it, but it distorts the negotiations. As we have more and more nuclear verdicts, it becomes harder to settle claims for reasonable amounts.”
 

What does 2022 have in store?

Analysts say the backlog of malpractice claims in the court system could prove calamitous for premiums and the liability landscape.

Courts are slogging through the pileup caused by the pandemic, but it’s estimated that there is still about a one-third larger case backlog than normal, according to Mr. Matray.

Such delayed claims may end up costing more because of social inflation, said Mr. Burns.

“People look at the world differently than they did 2 years ago,” he said. “A jury may have awarded $5 million for a claim a few years ago. But then the pandemic hits, and we have the George Floyd incident, and we have people out of work and a shortage in baby formula. Yet, companies are still making a lot of money and many insurance companies are turning record profits. Today, that jury may look at a sympathetic malpractice victim and award $10 million for the same claim.”

Concerns also exist about a potential surge of new malpractice claims. Mr. Rand compares the possible wave to a large bubble.

“I liken it to a cartoon, when one character grabs the hose and a big bubble forms as the water builds up,” he said. “Then the character releases, and water comes flooding out. As an industry, we wait, wondering: Is there going to be this flood of claims as the court systems reopen and the statute of limitations approach around some of these claims? That’s an ongoing concern.”

As for impending premiums, physicians can expect rises in 2022 and again in 2023, according to Chris Wojciechowski, a partner at TigerRisk Partners, a reinsurance broker.

“In general, there is a lot of uncertainty around the state of the economy, the tort environment, litigation post COVID, and overall volatility across the capital markets,” he said. “Furthermore, thanks to social and financial inflation, the potential for very severe verdicts has increased dramatically, and as courthouses reopen, the trends are not looking favorable. While many of the physician carriers have strong balance sheets, they can’t lose money on an underwriting basis forever.”

For Dr. Intili, the Illinois ob.gyn., news of another impending increase in 2022 is distressing. She expects another 10%-20% rise in 2022, she said. If she were younger and earlier in her career, she might’ve considered moving, she said, but her family lives in Illinois and she cares for her older parents.

“I’m not ready to retire,” Dr. Intili said. “I’m looking into options, possibly becoming a hospitalist or doing locum tenens work. I’ve been a solo practitioner for 27 years and I love the autonomy. But these high premiums are making it almost impossible to continue.”

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

Opioid use in the elderly is associated with an almost 40% increased risk of dementia in new findings that suggest exposure to these drugs may be another modifiable risk factor for dementia.

“Clinicians and others may want to consider that opioid exposure in those aged 75-80 increases dementia risk, and to balance the potential benefits of opioid use in old age with adverse side effects,” said Stephen Z. Levine, PhD, professor, department of community mental health, University of Haifa (Israel).

The study was published online in the American Journal of Geriatric Psychiatry.
 

Widespread use

Evidence points to a relatively high rate of opioid prescriptions among older adults. A Morbidity and Mortality Weekly Report noted 19.2% of the U.S. adult population filled an opioid prescription in 2018, with the rate in those over 65 double that of adults aged 20-24 years (25% vs. 11.2%).

Disorders and illnesses for which opioids might be prescribed, including cancer and some pain conditions, “are far more prevalent in old age than at a younger age,” said Dr. Levine.

This high rate of opioid use underscores the need to consider the risks of opioid use in old age, said Dr. Levine. “Unfortunately, studies of the association between opioid use and dementia risk in old age are few, and their results are inconsistent.”

The study included 91,307 Israeli citizens aged 60 and over without dementia who were enrolled in the Meuhedet Healthcare Services, a nonprofit health maintenance organization (HMO) serving 14% of the country’s population. Meuhedet has maintained an up-to-date dementia registry since 2002.

The average age of the study sample was 68.29 years at the start of the study (in 2012).

In Israel, opioids are prescribed for a 30-day period. In this study, opioid exposure was defined as opioid medication fills covering 60 days (or two prescriptions) within a 120-day interval.

The primary outcome was incident dementia during follow-up from Jan. 1, 2013 to Oct. 30, 2017. The analysis controlled for a number of factors, including age, sex, smoking status, health conditions such as arthritis, depression, diabetes, osteoporosis, cognitive decline, vitamin deficiencies, cancer, cardiovascular conditions, and hospitalizations for falls.

Researchers also accounted for the competing risk of mortality.

During the study, 3.1% of subjects were exposed to opioids at a mean age of 73.94 years, and 5.8% of subjects developed dementia at an average age of 78.07 years.
 

Increased dementia risk

The risk of incident dementia was significantly increased in those exposed to opioids versus unexposed individuals in the 75- to 80-year age group (adjusted hazard ratio, 1.39; 95% confidence interval, 1.01-1.92; z statistic = 2.02; P < .05).

The authors noted the effect size for opioid exposure in this elderly age group is like other potentially modifiable risk factors for dementia, including body mass index and smoking.

The current study could not determine the biological explanation for the increased dementia risk among older opioid users. “Causal notions are challenging in observational studies and should be viewed with caution,” Dr. Levine noted.

However, a plausible mechanism highlighted in the literature is that opioids promote apoptosis of microglia and neurons that contribute to neurodegenerative diseases, he said.

The study included 14 sensitivity analyses, including those that looked at females, subjects older than 70, smokers, and groups with and without comorbid health conditions. The only sensitivity analysis that didn’t have similar findings to the primary analysis looked at dementia risk restricted to subjects without a vitamin deficiency.

“It’s reassuring that 13 or 14 sensitivity analyses found a significant association between opioid exposure and dementia risk,” said Dr. Levine.

Some prior studies did not show an association between opioid exposure and dementia risk. One possible reason for the discrepancy with the current findings is that the previous research didn’t account for age-specific opioid use effects, or the competing risk of mortality, said Dr. Levine.

Clinicians have a number of potential alternatives to opioids to treat various conditions including acetaminophen, non-steroidal anti-inflammatory drugs, amine reuptake inhibitors (ARIs), membrane stabilizers, muscle relaxants, topical capsaicin, botulinum toxin, cannabinoids, and steroids.

A limitation of the study was that it didn’t adjust for all possible comorbid health conditions, including vascular conditions, or for use of benzodiazepines, and surgical procedures.

In addition, since up to 50% of dementia cases are undetected, it’s possible some in the unexposed opioid group may actually have undiagnosed dementia, thereby reducing the effect sizes in the results.

Reverse causality is also a possibility as the neuropathological process associated with dementia could have started prior to opioid exposure. In addition, the results are limited to prolonged opioid exposure.
 

Interpret with caution

Commenting on the study, David Knopman, MD, a neurologist at Mayo Clinic in Rochester, Minn., whose research involves late-life cognitive disorders, was skeptical.

“On the face of it, the fact that an association was seen only in one narrow age range – 75+ to 80 years – ought to raise serious suspicion about the reliability and validity of the claim that opioid use is a risk factor for dementia, he said.

Although the researchers performed several sensitivity analyses, including accounting for mortality, “pharmacoepidemiological studies are terribly sensitive to residual biases” related to physician and patient choices related to medication use, added Dr. Knopman.

The claim that opioids are a dementia risk “should be viewed with great caution” and should not influence use of opioids where they’re truly indicated, he said.

“It would be a great pity if patients with pain requiring opioids avoid them because of fears about dementia based on the dubious relationship between age and opioid use.”

Dr. Levine and Dr. Knopman report no relevant financial disclosures.

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

Opioid use in the elderly is associated with an almost 40% increased risk of dementia in new findings that suggest exposure to these drugs may be another modifiable risk factor for dementia.

“Clinicians and others may want to consider that opioid exposure in those aged 75-80 increases dementia risk, and to balance the potential benefits of opioid use in old age with adverse side effects,” said Stephen Z. Levine, PhD, professor, department of community mental health, University of Haifa (Israel).

The study was published online in the American Journal of Geriatric Psychiatry.
 

Widespread use

Evidence points to a relatively high rate of opioid prescriptions among older adults. A Morbidity and Mortality Weekly Report noted 19.2% of the U.S. adult population filled an opioid prescription in 2018, with the rate in those over 65 double that of adults aged 20-24 years (25% vs. 11.2%).

Disorders and illnesses for which opioids might be prescribed, including cancer and some pain conditions, “are far more prevalent in old age than at a younger age,” said Dr. Levine.

This high rate of opioid use underscores the need to consider the risks of opioid use in old age, said Dr. Levine. “Unfortunately, studies of the association between opioid use and dementia risk in old age are few, and their results are inconsistent.”

The study included 91,307 Israeli citizens aged 60 and over without dementia who were enrolled in the Meuhedet Healthcare Services, a nonprofit health maintenance organization (HMO) serving 14% of the country’s population. Meuhedet has maintained an up-to-date dementia registry since 2002.

The average age of the study sample was 68.29 years at the start of the study (in 2012).

In Israel, opioids are prescribed for a 30-day period. In this study, opioid exposure was defined as opioid medication fills covering 60 days (or two prescriptions) within a 120-day interval.

The primary outcome was incident dementia during follow-up from Jan. 1, 2013 to Oct. 30, 2017. The analysis controlled for a number of factors, including age, sex, smoking status, health conditions such as arthritis, depression, diabetes, osteoporosis, cognitive decline, vitamin deficiencies, cancer, cardiovascular conditions, and hospitalizations for falls.

Researchers also accounted for the competing risk of mortality.

During the study, 3.1% of subjects were exposed to opioids at a mean age of 73.94 years, and 5.8% of subjects developed dementia at an average age of 78.07 years.
 

Increased dementia risk

The risk of incident dementia was significantly increased in those exposed to opioids versus unexposed individuals in the 75- to 80-year age group (adjusted hazard ratio, 1.39; 95% confidence interval, 1.01-1.92; z statistic = 2.02; P < .05).

The authors noted the effect size for opioid exposure in this elderly age group is like other potentially modifiable risk factors for dementia, including body mass index and smoking.

The current study could not determine the biological explanation for the increased dementia risk among older opioid users. “Causal notions are challenging in observational studies and should be viewed with caution,” Dr. Levine noted.

However, a plausible mechanism highlighted in the literature is that opioids promote apoptosis of microglia and neurons that contribute to neurodegenerative diseases, he said.

The study included 14 sensitivity analyses, including those that looked at females, subjects older than 70, smokers, and groups with and without comorbid health conditions. The only sensitivity analysis that didn’t have similar findings to the primary analysis looked at dementia risk restricted to subjects without a vitamin deficiency.

“It’s reassuring that 13 or 14 sensitivity analyses found a significant association between opioid exposure and dementia risk,” said Dr. Levine.

Some prior studies did not show an association between opioid exposure and dementia risk. One possible reason for the discrepancy with the current findings is that the previous research didn’t account for age-specific opioid use effects, or the competing risk of mortality, said Dr. Levine.

Clinicians have a number of potential alternatives to opioids to treat various conditions including acetaminophen, non-steroidal anti-inflammatory drugs, amine reuptake inhibitors (ARIs), membrane stabilizers, muscle relaxants, topical capsaicin, botulinum toxin, cannabinoids, and steroids.

A limitation of the study was that it didn’t adjust for all possible comorbid health conditions, including vascular conditions, or for use of benzodiazepines, and surgical procedures.

In addition, since up to 50% of dementia cases are undetected, it’s possible some in the unexposed opioid group may actually have undiagnosed dementia, thereby reducing the effect sizes in the results.

Reverse causality is also a possibility as the neuropathological process associated with dementia could have started prior to opioid exposure. In addition, the results are limited to prolonged opioid exposure.
 

Interpret with caution

Commenting on the study, David Knopman, MD, a neurologist at Mayo Clinic in Rochester, Minn., whose research involves late-life cognitive disorders, was skeptical.

“On the face of it, the fact that an association was seen only in one narrow age range – 75+ to 80 years – ought to raise serious suspicion about the reliability and validity of the claim that opioid use is a risk factor for dementia, he said.

Although the researchers performed several sensitivity analyses, including accounting for mortality, “pharmacoepidemiological studies are terribly sensitive to residual biases” related to physician and patient choices related to medication use, added Dr. Knopman.

The claim that opioids are a dementia risk “should be viewed with great caution” and should not influence use of opioids where they’re truly indicated, he said.

“It would be a great pity if patients with pain requiring opioids avoid them because of fears about dementia based on the dubious relationship between age and opioid use.”

Dr. Levine and Dr. Knopman report no relevant financial disclosures.

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

Opioid use in the elderly is associated with an almost 40% increased risk of dementia in new findings that suggest exposure to these drugs may be another modifiable risk factor for dementia.

“Clinicians and others may want to consider that opioid exposure in those aged 75-80 increases dementia risk, and to balance the potential benefits of opioid use in old age with adverse side effects,” said Stephen Z. Levine, PhD, professor, department of community mental health, University of Haifa (Israel).

The study was published online in the American Journal of Geriatric Psychiatry.
 

Widespread use

Evidence points to a relatively high rate of opioid prescriptions among older adults. A Morbidity and Mortality Weekly Report noted 19.2% of the U.S. adult population filled an opioid prescription in 2018, with the rate in those over 65 double that of adults aged 20-24 years (25% vs. 11.2%).

Disorders and illnesses for which opioids might be prescribed, including cancer and some pain conditions, “are far more prevalent in old age than at a younger age,” said Dr. Levine.

This high rate of opioid use underscores the need to consider the risks of opioid use in old age, said Dr. Levine. “Unfortunately, studies of the association between opioid use and dementia risk in old age are few, and their results are inconsistent.”

The study included 91,307 Israeli citizens aged 60 and over without dementia who were enrolled in the Meuhedet Healthcare Services, a nonprofit health maintenance organization (HMO) serving 14% of the country’s population. Meuhedet has maintained an up-to-date dementia registry since 2002.

The average age of the study sample was 68.29 years at the start of the study (in 2012).

In Israel, opioids are prescribed for a 30-day period. In this study, opioid exposure was defined as opioid medication fills covering 60 days (or two prescriptions) within a 120-day interval.

The primary outcome was incident dementia during follow-up from Jan. 1, 2013 to Oct. 30, 2017. The analysis controlled for a number of factors, including age, sex, smoking status, health conditions such as arthritis, depression, diabetes, osteoporosis, cognitive decline, vitamin deficiencies, cancer, cardiovascular conditions, and hospitalizations for falls.

Researchers also accounted for the competing risk of mortality.

During the study, 3.1% of subjects were exposed to opioids at a mean age of 73.94 years, and 5.8% of subjects developed dementia at an average age of 78.07 years.
 

Increased dementia risk

The risk of incident dementia was significantly increased in those exposed to opioids versus unexposed individuals in the 75- to 80-year age group (adjusted hazard ratio, 1.39; 95% confidence interval, 1.01-1.92; z statistic = 2.02; P < .05).

The authors noted the effect size for opioid exposure in this elderly age group is like other potentially modifiable risk factors for dementia, including body mass index and smoking.

The current study could not determine the biological explanation for the increased dementia risk among older opioid users. “Causal notions are challenging in observational studies and should be viewed with caution,” Dr. Levine noted.

However, a plausible mechanism highlighted in the literature is that opioids promote apoptosis of microglia and neurons that contribute to neurodegenerative diseases, he said.

The study included 14 sensitivity analyses, including those that looked at females, subjects older than 70, smokers, and groups with and without comorbid health conditions. The only sensitivity analysis that didn’t have similar findings to the primary analysis looked at dementia risk restricted to subjects without a vitamin deficiency.

“It’s reassuring that 13 or 14 sensitivity analyses found a significant association between opioid exposure and dementia risk,” said Dr. Levine.

Some prior studies did not show an association between opioid exposure and dementia risk. One possible reason for the discrepancy with the current findings is that the previous research didn’t account for age-specific opioid use effects, or the competing risk of mortality, said Dr. Levine.

Clinicians have a number of potential alternatives to opioids to treat various conditions including acetaminophen, non-steroidal anti-inflammatory drugs, amine reuptake inhibitors (ARIs), membrane stabilizers, muscle relaxants, topical capsaicin, botulinum toxin, cannabinoids, and steroids.

A limitation of the study was that it didn’t adjust for all possible comorbid health conditions, including vascular conditions, or for use of benzodiazepines, and surgical procedures.

In addition, since up to 50% of dementia cases are undetected, it’s possible some in the unexposed opioid group may actually have undiagnosed dementia, thereby reducing the effect sizes in the results.

Reverse causality is also a possibility as the neuropathological process associated with dementia could have started prior to opioid exposure. In addition, the results are limited to prolonged opioid exposure.
 

Interpret with caution

Commenting on the study, David Knopman, MD, a neurologist at Mayo Clinic in Rochester, Minn., whose research involves late-life cognitive disorders, was skeptical.

“On the face of it, the fact that an association was seen only in one narrow age range – 75+ to 80 years – ought to raise serious suspicion about the reliability and validity of the claim that opioid use is a risk factor for dementia, he said.

Although the researchers performed several sensitivity analyses, including accounting for mortality, “pharmacoepidemiological studies are terribly sensitive to residual biases” related to physician and patient choices related to medication use, added Dr. Knopman.

The claim that opioids are a dementia risk “should be viewed with great caution” and should not influence use of opioids where they’re truly indicated, he said.

“It would be a great pity if patients with pain requiring opioids avoid them because of fears about dementia based on the dubious relationship between age and opioid use.”

Dr. Levine and Dr. Knopman report no relevant financial disclosures.

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

NATIONAL HARBOR, MD. – Treating neuromyelitis optica spectrum disorder (NMOSD) with the recently approved monoclonal antibody inebilizumab (Uplizna, Horizon Therapeutics) is effective across patient genotypes – including a common genetic variation linked to reduced response to anti-CD20 therapies, new research shows.

The phase 3 N-MOmentum Study previously showed safety and efficacy for inebilizumab over placebo in more than 200 adults with NMOSD.

A new analysis focused on participants who were carriers of either the F/F allele, which is known to reduce the effectiveness of certain monoclonal antibodies, or the rs396991 V-allele, which has not been associated with a reduced response.

Results showed no significant differences between the two carrier groups in NMOSD activity, including annual rates of new/enlarging T2 lesions, during the trial and up to 6 months after treatment with inebilizumab.

“These data illustrate how mechanistic precision in treatment design can help patients gain benefit from their regimen regardless of the genetic make-up of their immune systems,” coinvestigator Bruce Cree, MD, PhD, professor of clinical neurology at the University of California, San Francisco, Weill Institute for Neurosciences, said in a press release.

“The combination of efficacy, safety, and ease of administration with twice-yearly infusions make this product an excellent choice for first-line therapy in NMOSD,” Dr. Cree said.

The findings were presented at the annual meeting of the Consortium of Multiple Sclerosis Centers.
 

B-cell depletion

Inebilizumab has also been approved in China, Japan, and South Korea for the treatment of NMOSD, a rare and severe autoantibody-mediated disease of the central nervous system that includes NMO and related syndromes.

The drug’s B-cell depletion capability is credited with reducing inflammation, lesion formation, and astrocyte damage. The latter can cause severe effects in an NMOSD attack, affecting the optic nerve, spinal cord, and brain.

Manifestations can range from loss of vision to paralysis, loss of sensation, bladder and bowel dysfunction, nerve pain or respiratory failure. Attacks can also result in cumulative damage and disability, the researchers noted.

Results from the original double-blind trial of 230 adults with NMOSD showed that treatment with inebilizumab demonstrated efficacy and safety over placebo. However, questions have remained regarding the treatment’s effectiveness, specifically among patients with the FCGR3A (F/F) allele, a genetic variant that encodes the low-affinity Fc gamma receptor IIIa.

This genotype is known to reduce the effectiveness of certain monoclonal antibodies and anti-CD20 therapies, notably rituximab, in disorders such as NMOSD.

With up to 40% of White and Black individuals known to carry the F/F allele, inebilizumab was designed specifically with that risk in mind, with strong binding to the allele.

Although inebilizumab joins two other Food and Drug Administration–approved treatments for NMOSD – eculizumab and satralizumab – neither of those have a mechanism involving the FCGRA3 receptor. Therefore, those drugs are not a concern for individuals with those genotypes.

To evaluate inebilizumab’s effects among patients with the F/F allele, Dr. Cree and colleagues assessed data on a subset of 142 patients from the N-MOmentum trial.

The study included a 28-week randomized controlled period in which adults with NMOSD received either 300 mg of intravenous inebilizumab or placebo on days 1 and 15, followed by an optional open-label period of at least 2 years. During the open-label phase, all patients received 300 mg of IV inebilizumab every 26 weeks.

Of the 142 patients in the genetic analysis, 104 received inebilizumab and 38 received placebo. In addition, 68 group participants were carriers of the F/F allele, while 74 carried the rs396991 V-allele.
 

No significant differences

Prior to the trial, annualized attack rates (AARs) and disability, as assessed by change in the Expanded Disability Status Scale (EDSS) scores, were nominally higher in the V allele group from disease onset to trial enrollment.

During the trial’s first 6 months, AARs and annual rates of new/enlarging T2 lesions were nominally lower in inebilizumab-treated V allele participants compared with the F/F allele participants, although the differences were not statistically significant.

The AAR was 0.1 for the V allele group vs. 0.3 for the F/F allele group (hazard ratio, 0.40; P = .17). The annual rate of new/enlarging T2 lesions was 1.4 vs. 1.7 (risk ratio, 0.91; P = .88), respectively.

However, at the end of the randomized controlled period, there were no significant differences between the two genotype groups. There was also little difference in clinical metrics of NMOSD activity or B-cell depletion between the two genotype groups during the open-label period involving the long-term repeated inebilizumab dosing.

“Though greater B-cell depletion was observed in inebilizumab-treated V allele participants, compared with F/F participants during the first 6 months, no significant difference in NMOSD activity was observed during this time period,” the investigators reported.

“No differences in B-cell depletion or NMOSD disease activity were observed after 6 months of inebilizumab treatment,” they added.

Dr. Cree noted the study showed that, overall, inebiluzumab’s efficacy was not adversely affected by a polymorphism in the Fc gamma receptor. “These types of genetic analyses may help inform future screening mechanisms to tailor treatment strategies that can optimize the response rate for each patient,” he said.

Dr. Cree added the higher degree of disease activity among those carrying the alleles at baseline is notable and deserves further investigation. That finding “suggests that the presence of the F/F allele is to some extent protective of the detrimental effects the auto-antibody directed against aquaporin-4 that underlies NMOSD pathogenesis,” he said.
 

A new era?

Commenting on the study, Marcelo Matiello, MD, assistant professor of neurology at Harvard Medical School and associate director of the Neuromyelitis Optica clinic at Massachusetts General Hospital, both in Boston, said the findings provide valuable insights into risks for key patient subgroups.

“The data is quite important because we know that with other conditions, such as rheumatoid arthritis, people with this particular genotype do have lower response and are more likely to be refractory,” said Dr. Matiello, who was not involved with the research.

He noted that rituximab is the most commonly used medication in the United States for NMOSD. “It’s not FDA approved, but because of extensive experience, and many case series and small prospective studies, most NMO patients are using rituximab,” Dr. Matiello said. However, the drug’s mechanism “can be compromised” by the F/F allele, he added.

The new findings “provide a good understanding that this medication would likely be superior to patients with this genotype,” he said.

“I think it’s a new era,” Dr. Matiello added. “Not only do we have approved medication for this very severe disease, but we can find out who can benefit most. So, I think this is exciting and is a major step in more individualized appropriate use.”

The study was funded by Horizon Therapeutics. Dr. Cree has consulted for Horizon Therapeutics. Dr. Matiello reported no relevant financial relationships.

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

NATIONAL HARBOR, MD. – Treating neuromyelitis optica spectrum disorder (NMOSD) with the recently approved monoclonal antibody inebilizumab (Uplizna, Horizon Therapeutics) is effective across patient genotypes – including a common genetic variation linked to reduced response to anti-CD20 therapies, new research shows.

The phase 3 N-MOmentum Study previously showed safety and efficacy for inebilizumab over placebo in more than 200 adults with NMOSD.

A new analysis focused on participants who were carriers of either the F/F allele, which is known to reduce the effectiveness of certain monoclonal antibodies, or the rs396991 V-allele, which has not been associated with a reduced response.

Results showed no significant differences between the two carrier groups in NMOSD activity, including annual rates of new/enlarging T2 lesions, during the trial and up to 6 months after treatment with inebilizumab.

“These data illustrate how mechanistic precision in treatment design can help patients gain benefit from their regimen regardless of the genetic make-up of their immune systems,” coinvestigator Bruce Cree, MD, PhD, professor of clinical neurology at the University of California, San Francisco, Weill Institute for Neurosciences, said in a press release.

“The combination of efficacy, safety, and ease of administration with twice-yearly infusions make this product an excellent choice for first-line therapy in NMOSD,” Dr. Cree said.

The findings were presented at the annual meeting of the Consortium of Multiple Sclerosis Centers.
 

B-cell depletion

Inebilizumab has also been approved in China, Japan, and South Korea for the treatment of NMOSD, a rare and severe autoantibody-mediated disease of the central nervous system that includes NMO and related syndromes.

The drug’s B-cell depletion capability is credited with reducing inflammation, lesion formation, and astrocyte damage. The latter can cause severe effects in an NMOSD attack, affecting the optic nerve, spinal cord, and brain.

Manifestations can range from loss of vision to paralysis, loss of sensation, bladder and bowel dysfunction, nerve pain or respiratory failure. Attacks can also result in cumulative damage and disability, the researchers noted.

Results from the original double-blind trial of 230 adults with NMOSD showed that treatment with inebilizumab demonstrated efficacy and safety over placebo. However, questions have remained regarding the treatment’s effectiveness, specifically among patients with the FCGR3A (F/F) allele, a genetic variant that encodes the low-affinity Fc gamma receptor IIIa.

This genotype is known to reduce the effectiveness of certain monoclonal antibodies and anti-CD20 therapies, notably rituximab, in disorders such as NMOSD.

With up to 40% of White and Black individuals known to carry the F/F allele, inebilizumab was designed specifically with that risk in mind, with strong binding to the allele.

Although inebilizumab joins two other Food and Drug Administration–approved treatments for NMOSD – eculizumab and satralizumab – neither of those have a mechanism involving the FCGRA3 receptor. Therefore, those drugs are not a concern for individuals with those genotypes.

To evaluate inebilizumab’s effects among patients with the F/F allele, Dr. Cree and colleagues assessed data on a subset of 142 patients from the N-MOmentum trial.

The study included a 28-week randomized controlled period in which adults with NMOSD received either 300 mg of intravenous inebilizumab or placebo on days 1 and 15, followed by an optional open-label period of at least 2 years. During the open-label phase, all patients received 300 mg of IV inebilizumab every 26 weeks.

Of the 142 patients in the genetic analysis, 104 received inebilizumab and 38 received placebo. In addition, 68 group participants were carriers of the F/F allele, while 74 carried the rs396991 V-allele.
 

No significant differences

Prior to the trial, annualized attack rates (AARs) and disability, as assessed by change in the Expanded Disability Status Scale (EDSS) scores, were nominally higher in the V allele group from disease onset to trial enrollment.

During the trial’s first 6 months, AARs and annual rates of new/enlarging T2 lesions were nominally lower in inebilizumab-treated V allele participants compared with the F/F allele participants, although the differences were not statistically significant.

The AAR was 0.1 for the V allele group vs. 0.3 for the F/F allele group (hazard ratio, 0.40; P = .17). The annual rate of new/enlarging T2 lesions was 1.4 vs. 1.7 (risk ratio, 0.91; P = .88), respectively.

However, at the end of the randomized controlled period, there were no significant differences between the two genotype groups. There was also little difference in clinical metrics of NMOSD activity or B-cell depletion between the two genotype groups during the open-label period involving the long-term repeated inebilizumab dosing.

“Though greater B-cell depletion was observed in inebilizumab-treated V allele participants, compared with F/F participants during the first 6 months, no significant difference in NMOSD activity was observed during this time period,” the investigators reported.

“No differences in B-cell depletion or NMOSD disease activity were observed after 6 months of inebilizumab treatment,” they added.

Dr. Cree noted the study showed that, overall, inebiluzumab’s efficacy was not adversely affected by a polymorphism in the Fc gamma receptor. “These types of genetic analyses may help inform future screening mechanisms to tailor treatment strategies that can optimize the response rate for each patient,” he said.

Dr. Cree added the higher degree of disease activity among those carrying the alleles at baseline is notable and deserves further investigation. That finding “suggests that the presence of the F/F allele is to some extent protective of the detrimental effects the auto-antibody directed against aquaporin-4 that underlies NMOSD pathogenesis,” he said.
 

A new era?

Commenting on the study, Marcelo Matiello, MD, assistant professor of neurology at Harvard Medical School and associate director of the Neuromyelitis Optica clinic at Massachusetts General Hospital, both in Boston, said the findings provide valuable insights into risks for key patient subgroups.

“The data is quite important because we know that with other conditions, such as rheumatoid arthritis, people with this particular genotype do have lower response and are more likely to be refractory,” said Dr. Matiello, who was not involved with the research.

He noted that rituximab is the most commonly used medication in the United States for NMOSD. “It’s not FDA approved, but because of extensive experience, and many case series and small prospective studies, most NMO patients are using rituximab,” Dr. Matiello said. However, the drug’s mechanism “can be compromised” by the F/F allele, he added.

The new findings “provide a good understanding that this medication would likely be superior to patients with this genotype,” he said.

“I think it’s a new era,” Dr. Matiello added. “Not only do we have approved medication for this very severe disease, but we can find out who can benefit most. So, I think this is exciting and is a major step in more individualized appropriate use.”

The study was funded by Horizon Therapeutics. Dr. Cree has consulted for Horizon Therapeutics. Dr. Matiello reported no relevant financial relationships.

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

NATIONAL HARBOR, MD. – Treating neuromyelitis optica spectrum disorder (NMOSD) with the recently approved monoclonal antibody inebilizumab (Uplizna, Horizon Therapeutics) is effective across patient genotypes – including a common genetic variation linked to reduced response to anti-CD20 therapies, new research shows.

The phase 3 N-MOmentum Study previously showed safety and efficacy for inebilizumab over placebo in more than 200 adults with NMOSD.

A new analysis focused on participants who were carriers of either the F/F allele, which is known to reduce the effectiveness of certain monoclonal antibodies, or the rs396991 V-allele, which has not been associated with a reduced response.

Results showed no significant differences between the two carrier groups in NMOSD activity, including annual rates of new/enlarging T2 lesions, during the trial and up to 6 months after treatment with inebilizumab.

“These data illustrate how mechanistic precision in treatment design can help patients gain benefit from their regimen regardless of the genetic make-up of their immune systems,” coinvestigator Bruce Cree, MD, PhD, professor of clinical neurology at the University of California, San Francisco, Weill Institute for Neurosciences, said in a press release.

“The combination of efficacy, safety, and ease of administration with twice-yearly infusions make this product an excellent choice for first-line therapy in NMOSD,” Dr. Cree said.

The findings were presented at the annual meeting of the Consortium of Multiple Sclerosis Centers.
 

B-cell depletion

Inebilizumab has also been approved in China, Japan, and South Korea for the treatment of NMOSD, a rare and severe autoantibody-mediated disease of the central nervous system that includes NMO and related syndromes.

The drug’s B-cell depletion capability is credited with reducing inflammation, lesion formation, and astrocyte damage. The latter can cause severe effects in an NMOSD attack, affecting the optic nerve, spinal cord, and brain.

Manifestations can range from loss of vision to paralysis, loss of sensation, bladder and bowel dysfunction, nerve pain or respiratory failure. Attacks can also result in cumulative damage and disability, the researchers noted.

Results from the original double-blind trial of 230 adults with NMOSD showed that treatment with inebilizumab demonstrated efficacy and safety over placebo. However, questions have remained regarding the treatment’s effectiveness, specifically among patients with the FCGR3A (F/F) allele, a genetic variant that encodes the low-affinity Fc gamma receptor IIIa.

This genotype is known to reduce the effectiveness of certain monoclonal antibodies and anti-CD20 therapies, notably rituximab, in disorders such as NMOSD.

With up to 40% of White and Black individuals known to carry the F/F allele, inebilizumab was designed specifically with that risk in mind, with strong binding to the allele.

Although inebilizumab joins two other Food and Drug Administration–approved treatments for NMOSD – eculizumab and satralizumab – neither of those have a mechanism involving the FCGRA3 receptor. Therefore, those drugs are not a concern for individuals with those genotypes.

To evaluate inebilizumab’s effects among patients with the F/F allele, Dr. Cree and colleagues assessed data on a subset of 142 patients from the N-MOmentum trial.

The study included a 28-week randomized controlled period in which adults with NMOSD received either 300 mg of intravenous inebilizumab or placebo on days 1 and 15, followed by an optional open-label period of at least 2 years. During the open-label phase, all patients received 300 mg of IV inebilizumab every 26 weeks.

Of the 142 patients in the genetic analysis, 104 received inebilizumab and 38 received placebo. In addition, 68 group participants were carriers of the F/F allele, while 74 carried the rs396991 V-allele.
 

No significant differences

Prior to the trial, annualized attack rates (AARs) and disability, as assessed by change in the Expanded Disability Status Scale (EDSS) scores, were nominally higher in the V allele group from disease onset to trial enrollment.

During the trial’s first 6 months, AARs and annual rates of new/enlarging T2 lesions were nominally lower in inebilizumab-treated V allele participants compared with the F/F allele participants, although the differences were not statistically significant.

The AAR was 0.1 for the V allele group vs. 0.3 for the F/F allele group (hazard ratio, 0.40; P = .17). The annual rate of new/enlarging T2 lesions was 1.4 vs. 1.7 (risk ratio, 0.91; P = .88), respectively.

However, at the end of the randomized controlled period, there were no significant differences between the two genotype groups. There was also little difference in clinical metrics of NMOSD activity or B-cell depletion between the two genotype groups during the open-label period involving the long-term repeated inebilizumab dosing.

“Though greater B-cell depletion was observed in inebilizumab-treated V allele participants, compared with F/F participants during the first 6 months, no significant difference in NMOSD activity was observed during this time period,” the investigators reported.

“No differences in B-cell depletion or NMOSD disease activity were observed after 6 months of inebilizumab treatment,” they added.

Dr. Cree noted the study showed that, overall, inebiluzumab’s efficacy was not adversely affected by a polymorphism in the Fc gamma receptor. “These types of genetic analyses may help inform future screening mechanisms to tailor treatment strategies that can optimize the response rate for each patient,” he said.

Dr. Cree added the higher degree of disease activity among those carrying the alleles at baseline is notable and deserves further investigation. That finding “suggests that the presence of the F/F allele is to some extent protective of the detrimental effects the auto-antibody directed against aquaporin-4 that underlies NMOSD pathogenesis,” he said.
 

A new era?

Commenting on the study, Marcelo Matiello, MD, assistant professor of neurology at Harvard Medical School and associate director of the Neuromyelitis Optica clinic at Massachusetts General Hospital, both in Boston, said the findings provide valuable insights into risks for key patient subgroups.

“The data is quite important because we know that with other conditions, such as rheumatoid arthritis, people with this particular genotype do have lower response and are more likely to be refractory,” said Dr. Matiello, who was not involved with the research.

He noted that rituximab is the most commonly used medication in the United States for NMOSD. “It’s not FDA approved, but because of extensive experience, and many case series and small prospective studies, most NMO patients are using rituximab,” Dr. Matiello said. However, the drug’s mechanism “can be compromised” by the F/F allele, he added.

The new findings “provide a good understanding that this medication would likely be superior to patients with this genotype,” he said.

“I think it’s a new era,” Dr. Matiello added. “Not only do we have approved medication for this very severe disease, but we can find out who can benefit most. So, I think this is exciting and is a major step in more individualized appropriate use.”

The study was funded by Horizon Therapeutics. Dr. Cree has consulted for Horizon Therapeutics. Dr. Matiello reported no relevant financial relationships.

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

Following tumor removal in patients with recurrent glioblastoma, an absorbable collagen tile can deliver a controlled and therapeutic dose of radiation that targets remaining tumor cells and spares healthy tissue, new research suggests.

The results showed inserting a collagen matrix containing radioactive seeds into the brain postsurgery did not impede wound healing. It also showed a favorable safety profile, researchers note.

Benefits for patients undergoing this GammaTile (GT) intervention include not having to wait weeks to receive radiation treatment, which in turn improves their quality of life, said study investigator Clark C. Chen, MD, PhD, chair, department of neurosurgery, University of Minnesota Medical School, Minneapolis.

“These initial results are highly promising and offer hope for patients afflicted with an otherwise devastating disease,” Dr. Chen said in an interview.

If replicated in larger trials, GT therapy “could define a new standard of care, and there would really be no reason why patients shouldn’t get this therapy,” he added.

This is the first clinical series describing GT use since its approval by the U.S. Food and Drug Administration (FDA) for recurrent brain cancer.

The findings were presented at the annual meeting of the American Association of Neurological Surgeons (AANS) and were published recently in Neuro-Oncology Advances.

Radioactive seeds

GT therapy is a version of brachytherapy where radioactive sources are placed adjacent to cancerous tissue. It consists of radioactive seeds embedded with a collagen tile.

The neurosurgeon inserts these “tiles” immediately after tumor removal to cover the entire resection cavity, Dr. Chen said. The tiles maintain the cavity architecture to prevent radiation “hot spots” associated with cavity collapse.

Dr. Chen noted the therapy is “short range,” with most of the radiation delivered within 8 millimeters of the radioactive seeds.

The radiation lasts for about a month and the collagen tiles are eventually absorbed within the body. “You put in the tiles and you don’t need to do anything more,” Dr. Chen said.

GT has a number of advantages. Unlike with traditional brachytherapy, the collagen tile provides a buffer around the radiation sources, allowing delivery of the optimal radiation dose while preserving healthy tissue.

It also avoids the up-to-6-weeks patients have to wait postsurgery to get external beam radiation therapy. “If you start radiation too early, it actually compromises wound healing, and in the meantime the tumor is growing,” said Dr. Chen.

“I have several patients where I removed a large tumor and within that 6-week period, the tumor came back entirely,” he added.

With the gamma-tile, however, radiation from the seeds kills the tumor while the body heals.

Safety profile

The study included 22 patients (mean age, 57.7 years; 15 men, 7 women) with wild-type isocitrate dehydrogenase glioblastoma. They were all having surgery for recurrent tumors.

“One of the most challenging aspects of glioblastomas is that not only do the tumors come back, they come back immediately adjacent to where you have done the surgery, and for many patients this is demoralizing,” Dr. Chen said.

Six participants had 0 ⁶ -Methylguanine-DNA methyltranferase (MGMT) methylated glioblastoma, while the others had unmethylated MGMT.

The mean follow-up from initial diagnosis was 733 days (2 years).

Results showed one patient had to be readmitted to the hospital for hydrocephalus, but there were no re-admissions within 30 days attributable to GT.

Despite participants having undergone a second and third resection through the same surgical incision, there were no wound infections. “One of the concerns of giving radiation right after surgery is it can compromise wound healing, and this is why you wait 6 weeks,” Dr. Chen noted.

He stressed that no patient in the study suffered from adverse radiation effects that required medical or surgical intervention.

As the radiation is so short-range, hair loss and skin irritation are not side effects of GT, he added.

“The radiation is inside the brain and highly targeted, so it doesn’t hit hair follicles,” said Dr. Chen. “As best as I can observe in these patients, I did not see toxicity associated with radiation.”

One and done

Among the 22 participants, 18 had neurologic symptoms at baseline. There were no new neurologic deficits that developed after GT placement.

In addition, GT therapy improved “local control” — preventing the tumor from growing back at the site of the surgery. The local control was 86% at 6 months and 81% at 12 months.

The median progression-free survival was about 8 months. The median overall survival was 20 months (about 600 days) for the unmethylated MGMT group and 37.4 months (about 1120 days) for the methylated group.

Outcomes compared favorably to an independent glioblastoma cohort of similar patients who did not receive GT treatment during the study period, Dr. Chen noted.

“This therapy can potentially redefine how we treat glioblastoma patients whose cancer came back,” he said.

A study limitation was that it did not include quality-of-life data, which makes it challenging to assess the therapy’s overall impact, Dr. Chen said. However, he added that from his experience, patients very much appreciate not having to repeatedly take time off work for clinic or hospital visits to receive radiation treatments.

“One of the beauties of this therapy is it’s a one-and-done deal,” he said.

Interesting, timely

Commenting for this news organization, William T. Curry Jr, MD, co-director at MassGeneral Neuroscience and director of neurosurgical oncology at Mass General Cancer Center, Boston, called the study “interesting and timely.”

These new data “underscore that GT is safe in patients that have undergone gross total resection of recurrent glioblastoma and that rates of progression free survival may exceed those treated with resection alone,” said Dr. Curry, who was not involved with the research.

“Surgeons are excited about anything that has the potential to improve outcomes for patients with this very challenging disease, and it is wonderful to be able to offer hope and survival tools to patients,” he added.

However, Dr. Curry noted there are challenges and potential biases when studying survival in cancer patients without conducting a randomization process. The investigators “admit to methodological flaws inherent in the single-arm design in a patient population with recurrent glioblastoma not treated uniformly,” he said.

In addition, he noted overall survival may not have been related to the GT intervention. “Multicenter randomization is probably required to get to the bottom of the survival advantage in different subsets of glioblastoma patients,” Dr. Curry said.

Further research is needed to confirm the efficacy, appropriate indications, and timing of the intervention, but “I would support a randomized multicenter study in patients undergoing near gross total resection of recurrent glioblastoma,” he concluded.

The study received no outside funding. Dr. Chen and Dr. Curry have disclosed no relevant financial relationships.

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

Following tumor removal in patients with recurrent glioblastoma, an absorbable collagen tile can deliver a controlled and therapeutic dose of radiation that targets remaining tumor cells and spares healthy tissue, new research suggests.

The results showed inserting a collagen matrix containing radioactive seeds into the brain postsurgery did not impede wound healing. It also showed a favorable safety profile, researchers note.

Benefits for patients undergoing this GammaTile (GT) intervention include not having to wait weeks to receive radiation treatment, which in turn improves their quality of life, said study investigator Clark C. Chen, MD, PhD, chair, department of neurosurgery, University of Minnesota Medical School, Minneapolis.

“These initial results are highly promising and offer hope for patients afflicted with an otherwise devastating disease,” Dr. Chen said in an interview.

If replicated in larger trials, GT therapy “could define a new standard of care, and there would really be no reason why patients shouldn’t get this therapy,” he added.

This is the first clinical series describing GT use since its approval by the U.S. Food and Drug Administration (FDA) for recurrent brain cancer.

The findings were presented at the annual meeting of the American Association of Neurological Surgeons (AANS) and were published recently in Neuro-Oncology Advances.

Radioactive seeds

GT therapy is a version of brachytherapy where radioactive sources are placed adjacent to cancerous tissue. It consists of radioactive seeds embedded with a collagen tile.

The neurosurgeon inserts these “tiles” immediately after tumor removal to cover the entire resection cavity, Dr. Chen said. The tiles maintain the cavity architecture to prevent radiation “hot spots” associated with cavity collapse.

Dr. Chen noted the therapy is “short range,” with most of the radiation delivered within 8 millimeters of the radioactive seeds.

The radiation lasts for about a month and the collagen tiles are eventually absorbed within the body. “You put in the tiles and you don’t need to do anything more,” Dr. Chen said.

GT has a number of advantages. Unlike with traditional brachytherapy, the collagen tile provides a buffer around the radiation sources, allowing delivery of the optimal radiation dose while preserving healthy tissue.

It also avoids the up-to-6-weeks patients have to wait postsurgery to get external beam radiation therapy. “If you start radiation too early, it actually compromises wound healing, and in the meantime the tumor is growing,” said Dr. Chen.

“I have several patients where I removed a large tumor and within that 6-week period, the tumor came back entirely,” he added.

With the gamma-tile, however, radiation from the seeds kills the tumor while the body heals.

Safety profile

The study included 22 patients (mean age, 57.7 years; 15 men, 7 women) with wild-type isocitrate dehydrogenase glioblastoma. They were all having surgery for recurrent tumors.

“One of the most challenging aspects of glioblastomas is that not only do the tumors come back, they come back immediately adjacent to where you have done the surgery, and for many patients this is demoralizing,” Dr. Chen said.

Six participants had 0 ⁶ -Methylguanine-DNA methyltranferase (MGMT) methylated glioblastoma, while the others had unmethylated MGMT.

The mean follow-up from initial diagnosis was 733 days (2 years).

Results showed one patient had to be readmitted to the hospital for hydrocephalus, but there were no re-admissions within 30 days attributable to GT.

Despite participants having undergone a second and third resection through the same surgical incision, there were no wound infections. “One of the concerns of giving radiation right after surgery is it can compromise wound healing, and this is why you wait 6 weeks,” Dr. Chen noted.

He stressed that no patient in the study suffered from adverse radiation effects that required medical or surgical intervention.

As the radiation is so short-range, hair loss and skin irritation are not side effects of GT, he added.

“The radiation is inside the brain and highly targeted, so it doesn’t hit hair follicles,” said Dr. Chen. “As best as I can observe in these patients, I did not see toxicity associated with radiation.”

One and done

Among the 22 participants, 18 had neurologic symptoms at baseline. There were no new neurologic deficits that developed after GT placement.

In addition, GT therapy improved “local control” — preventing the tumor from growing back at the site of the surgery. The local control was 86% at 6 months and 81% at 12 months.

The median progression-free survival was about 8 months. The median overall survival was 20 months (about 600 days) for the unmethylated MGMT group and 37.4 months (about 1120 days) for the methylated group.

Outcomes compared favorably to an independent glioblastoma cohort of similar patients who did not receive GT treatment during the study period, Dr. Chen noted.

“This therapy can potentially redefine how we treat glioblastoma patients whose cancer came back,” he said.

A study limitation was that it did not include quality-of-life data, which makes it challenging to assess the therapy’s overall impact, Dr. Chen said. However, he added that from his experience, patients very much appreciate not having to repeatedly take time off work for clinic or hospital visits to receive radiation treatments.

“One of the beauties of this therapy is it’s a one-and-done deal,” he said.

Interesting, timely

Commenting for this news organization, William T. Curry Jr, MD, co-director at MassGeneral Neuroscience and director of neurosurgical oncology at Mass General Cancer Center, Boston, called the study “interesting and timely.”

These new data “underscore that GT is safe in patients that have undergone gross total resection of recurrent glioblastoma and that rates of progression free survival may exceed those treated with resection alone,” said Dr. Curry, who was not involved with the research.

“Surgeons are excited about anything that has the potential to improve outcomes for patients with this very challenging disease, and it is wonderful to be able to offer hope and survival tools to patients,” he added.

However, Dr. Curry noted there are challenges and potential biases when studying survival in cancer patients without conducting a randomization process. The investigators “admit to methodological flaws inherent in the single-arm design in a patient population with recurrent glioblastoma not treated uniformly,” he said.

In addition, he noted overall survival may not have been related to the GT intervention. “Multicenter randomization is probably required to get to the bottom of the survival advantage in different subsets of glioblastoma patients,” Dr. Curry said.

Further research is needed to confirm the efficacy, appropriate indications, and timing of the intervention, but “I would support a randomized multicenter study in patients undergoing near gross total resection of recurrent glioblastoma,” he concluded.

The study received no outside funding. Dr. Chen and Dr. Curry have disclosed no relevant financial relationships.

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

Following tumor removal in patients with recurrent glioblastoma, an absorbable collagen tile can deliver a controlled and therapeutic dose of radiation that targets remaining tumor cells and spares healthy tissue, new research suggests.

The results showed inserting a collagen matrix containing radioactive seeds into the brain postsurgery did not impede wound healing. It also showed a favorable safety profile, researchers note.

Benefits for patients undergoing this GammaTile (GT) intervention include not having to wait weeks to receive radiation treatment, which in turn improves their quality of life, said study investigator Clark C. Chen, MD, PhD, chair, department of neurosurgery, University of Minnesota Medical School, Minneapolis.

“These initial results are highly promising and offer hope for patients afflicted with an otherwise devastating disease,” Dr. Chen said in an interview.

If replicated in larger trials, GT therapy “could define a new standard of care, and there would really be no reason why patients shouldn’t get this therapy,” he added.

This is the first clinical series describing GT use since its approval by the U.S. Food and Drug Administration (FDA) for recurrent brain cancer.

The findings were presented at the annual meeting of the American Association of Neurological Surgeons (AANS) and were published recently in Neuro-Oncology Advances.

Radioactive seeds

GT therapy is a version of brachytherapy where radioactive sources are placed adjacent to cancerous tissue. It consists of radioactive seeds embedded with a collagen tile.

The neurosurgeon inserts these “tiles” immediately after tumor removal to cover the entire resection cavity, Dr. Chen said. The tiles maintain the cavity architecture to prevent radiation “hot spots” associated with cavity collapse.

Dr. Chen noted the therapy is “short range,” with most of the radiation delivered within 8 millimeters of the radioactive seeds.

The radiation lasts for about a month and the collagen tiles are eventually absorbed within the body. “You put in the tiles and you don’t need to do anything more,” Dr. Chen said.

GT has a number of advantages. Unlike with traditional brachytherapy, the collagen tile provides a buffer around the radiation sources, allowing delivery of the optimal radiation dose while preserving healthy tissue.

It also avoids the up-to-6-weeks patients have to wait postsurgery to get external beam radiation therapy. “If you start radiation too early, it actually compromises wound healing, and in the meantime the tumor is growing,” said Dr. Chen.

“I have several patients where I removed a large tumor and within that 6-week period, the tumor came back entirely,” he added.

With the gamma-tile, however, radiation from the seeds kills the tumor while the body heals.

Safety profile

The study included 22 patients (mean age, 57.7 years; 15 men, 7 women) with wild-type isocitrate dehydrogenase glioblastoma. They were all having surgery for recurrent tumors.

“One of the most challenging aspects of glioblastomas is that not only do the tumors come back, they come back immediately adjacent to where you have done the surgery, and for many patients this is demoralizing,” Dr. Chen said.

Six participants had 0 ⁶ -Methylguanine-DNA methyltranferase (MGMT) methylated glioblastoma, while the others had unmethylated MGMT.

The mean follow-up from initial diagnosis was 733 days (2 years).

Results showed one patient had to be readmitted to the hospital for hydrocephalus, but there were no re-admissions within 30 days attributable to GT.

Despite participants having undergone a second and third resection through the same surgical incision, there were no wound infections. “One of the concerns of giving radiation right after surgery is it can compromise wound healing, and this is why you wait 6 weeks,” Dr. Chen noted.

He stressed that no patient in the study suffered from adverse radiation effects that required medical or surgical intervention.

As the radiation is so short-range, hair loss and skin irritation are not side effects of GT, he added.

“The radiation is inside the brain and highly targeted, so it doesn’t hit hair follicles,” said Dr. Chen. “As best as I can observe in these patients, I did not see toxicity associated with radiation.”

One and done

Among the 22 participants, 18 had neurologic symptoms at baseline. There were no new neurologic deficits that developed after GT placement.

In addition, GT therapy improved “local control” — preventing the tumor from growing back at the site of the surgery. The local control was 86% at 6 months and 81% at 12 months.

The median progression-free survival was about 8 months. The median overall survival was 20 months (about 600 days) for the unmethylated MGMT group and 37.4 months (about 1120 days) for the methylated group.

Outcomes compared favorably to an independent glioblastoma cohort of similar patients who did not receive GT treatment during the study period, Dr. Chen noted.

“This therapy can potentially redefine how we treat glioblastoma patients whose cancer came back,” he said.

A study limitation was that it did not include quality-of-life data, which makes it challenging to assess the therapy’s overall impact, Dr. Chen said. However, he added that from his experience, patients very much appreciate not having to repeatedly take time off work for clinic or hospital visits to receive radiation treatments.

“One of the beauties of this therapy is it’s a one-and-done deal,” he said.

Interesting, timely

Commenting for this news organization, William T. Curry Jr, MD, co-director at MassGeneral Neuroscience and director of neurosurgical oncology at Mass General Cancer Center, Boston, called the study “interesting and timely.”

These new data “underscore that GT is safe in patients that have undergone gross total resection of recurrent glioblastoma and that rates of progression free survival may exceed those treated with resection alone,” said Dr. Curry, who was not involved with the research.

“Surgeons are excited about anything that has the potential to improve outcomes for patients with this very challenging disease, and it is wonderful to be able to offer hope and survival tools to patients,” he added.

However, Dr. Curry noted there are challenges and potential biases when studying survival in cancer patients without conducting a randomization process. The investigators “admit to methodological flaws inherent in the single-arm design in a patient population with recurrent glioblastoma not treated uniformly,” he said.

In addition, he noted overall survival may not have been related to the GT intervention. “Multicenter randomization is probably required to get to the bottom of the survival advantage in different subsets of glioblastoma patients,” Dr. Curry said.

Further research is needed to confirm the efficacy, appropriate indications, and timing of the intervention, but “I would support a randomized multicenter study in patients undergoing near gross total resection of recurrent glioblastoma,” he concluded.

The study received no outside funding. Dr. Chen and Dr. Curry have disclosed no relevant financial relationships.

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

The American Society for Radiation Oncology (ASTRO) has issued new guidance on the use of radiation therapy for the treatment of brain metastases, an update on its 2012 document.  

“In the decade since the previous ASTRO brain metastases guideline, there has been a tremendous evolution in the way we manage patients’ disease,” said Paul D. Brown, MD, chair of the guideline task force and a professor of radiation oncology at the Mayo Clinic in Rochester, Minn.  

“The development of stereotactic radiosurgery (SRS) has allowed treatment of limited brain metastases alone, often in a single fraction, while largely sparing the surrounding brain,” he elaborated in a statement. Also, novel techniques such as hippocampal avoidance with whole-brain radiation can greatly improve quality of life, he added.

The guideline was published May 6 in Practical Radiation Oncology.

“With the emergence of novel radiotherapy techniques and technologies, brain-penetrating drug therapies and neurosurgical interventions, modern management of brain metastases has become increasingly personalized, complex and multidisciplinary,” Vinai Gondi, MD, vice chair of the guideline task force and director of research and education at the Northwestern Medicine Cancer Center and Proton Center in Chicago, said in a statement.

“We developed this guideline to help inform and guide clinicians in patient-centered, multidisciplinary care for their patients with brain metastases,” he added.

Key recommendations

Overall, the recommendations address a wide range of topics related to radiation therapy in patients with cancer that has spread to the brain,  including delivery techniques for radiation therapy to manage both unresected and resected brain metastases. The guideline also includes treatment algorithms for limited brain metastases and extensive brain metastases.

Key recommendations are as follows:

For patients with intact/unresected brain metastases:

• SRS is recommended for patients with 1-4 brain metastases and reasonable performance status (ECOG performance status 0-2); SRS is conditionally recommended for those with 5-10 brain metastases and reasonable performance status; for patients with tumors exerting mass effect and/or larger size, multidisciplinary discussion with neurosurgery to consider surgical resection is suggested.
• Upfront local therapy (radiation and/or surgery) is strongly recommended for patients with symptomatic brain metastases. 
• For patients with asymptomatic brain metastases who are eligible for central nervous system-directed systemic therapy, multidisciplinary and patient-centered decision-making to determine whether local therapy may be safely deferred is conditionally recommended.
• Whole brain radiation therapy (WBRT) is recommended as a primary treatment for patients with favorable prognosis who have brain metastases that are ineligible for surgery and/or SRS. Hippocampal avoidance (HA) is recommended when appropriate to preserve memory function, as is the addition of memantine to delay neurocognitive decline. Adjuvant WBRT added to SRS routinely is not recommended.
• Supportive care only, without WBRT, should be considered for patients with poor prognosis and brain metastases. Reasonable options for this population include palliative care or hospice, or short-course WBRT for symptomatic brain metastases
• Recommendations also include guidance for SRS and WBRT dosing as well as the use of single-fraction vs hypofractionated SRS. Although SRS use is driven by the number of brain metastases, it is critical that other important factors (eg, total tumor volume and location, patient age, and extracranial disease status) should be taken into consideration during patient-centered decision-making by the multidisciplinary team.

For patients with resected brain metastases:

• Radiation therapy is recommended for all patients after resection in order to improve intracranial control.
• For patients with limited brain metastases after resection, postoperative SRS is recommended over WBRT to preserve the patient’s neurocognitive function and quality of life.
• As a potential alternative to SRS postresection, SRS prior to brain metastasis resection is conditionally recommended.

Updating the guidelines

ASTRO emphasizes that the scope of this paper is limited to the radiotherapeutic management of intact and resected brain metastases resulting from nonhematologic solid tumors. It provides guidance on the reasonable use of modern radiation therapy strategies, including single-fraction and fractionated (ie, hypofractionated SRS) SRS and HA-WBRT, and also discusses clinical considerations in selecting the optimal radiation therapy strategy or in deferring it in favor of best supportive care or close neuro-oncologic surveillance.

The authors note, however, that beyond the scope of this guideline, there are many other important questions that may be the subject of other guidance, such as the appropriate role for CNS-active systemic therapies and/or surgical intervention.

A version of this article was first published on Medscape.com.

The American Society for Radiation Oncology (ASTRO) has issued new guidance on the use of radiation therapy for the treatment of brain metastases, an update on its 2012 document.  

“In the decade since the previous ASTRO brain metastases guideline, there has been a tremendous evolution in the way we manage patients’ disease,” said Paul D. Brown, MD, chair of the guideline task force and a professor of radiation oncology at the Mayo Clinic in Rochester, Minn.  

“The development of stereotactic radiosurgery (SRS) has allowed treatment of limited brain metastases alone, often in a single fraction, while largely sparing the surrounding brain,” he elaborated in a statement. Also, novel techniques such as hippocampal avoidance with whole-brain radiation can greatly improve quality of life, he added.

The guideline was published May 6 in Practical Radiation Oncology.

“With the emergence of novel radiotherapy techniques and technologies, brain-penetrating drug therapies and neurosurgical interventions, modern management of brain metastases has become increasingly personalized, complex and multidisciplinary,” Vinai Gondi, MD, vice chair of the guideline task force and director of research and education at the Northwestern Medicine Cancer Center and Proton Center in Chicago, said in a statement.

“We developed this guideline to help inform and guide clinicians in patient-centered, multidisciplinary care for their patients with brain metastases,” he added.

Key recommendations

Overall, the recommendations address a wide range of topics related to radiation therapy in patients with cancer that has spread to the brain,  including delivery techniques for radiation therapy to manage both unresected and resected brain metastases. The guideline also includes treatment algorithms for limited brain metastases and extensive brain metastases.

Key recommendations are as follows:

For patients with intact/unresected brain metastases:

• SRS is recommended for patients with 1-4 brain metastases and reasonable performance status (ECOG performance status 0-2); SRS is conditionally recommended for those with 5-10 brain metastases and reasonable performance status; for patients with tumors exerting mass effect and/or larger size, multidisciplinary discussion with neurosurgery to consider surgical resection is suggested.
• Upfront local therapy (radiation and/or surgery) is strongly recommended for patients with symptomatic brain metastases. 
• For patients with asymptomatic brain metastases who are eligible for central nervous system-directed systemic therapy, multidisciplinary and patient-centered decision-making to determine whether local therapy may be safely deferred is conditionally recommended.
• Whole brain radiation therapy (WBRT) is recommended as a primary treatment for patients with favorable prognosis who have brain metastases that are ineligible for surgery and/or SRS. Hippocampal avoidance (HA) is recommended when appropriate to preserve memory function, as is the addition of memantine to delay neurocognitive decline. Adjuvant WBRT added to SRS routinely is not recommended.
• Supportive care only, without WBRT, should be considered for patients with poor prognosis and brain metastases. Reasonable options for this population include palliative care or hospice, or short-course WBRT for symptomatic brain metastases
• Recommendations also include guidance for SRS and WBRT dosing as well as the use of single-fraction vs hypofractionated SRS. Although SRS use is driven by the number of brain metastases, it is critical that other important factors (eg, total tumor volume and location, patient age, and extracranial disease status) should be taken into consideration during patient-centered decision-making by the multidisciplinary team.

For patients with resected brain metastases:

• Radiation therapy is recommended for all patients after resection in order to improve intracranial control.
• For patients with limited brain metastases after resection, postoperative SRS is recommended over WBRT to preserve the patient’s neurocognitive function and quality of life.
• As a potential alternative to SRS postresection, SRS prior to brain metastasis resection is conditionally recommended.

Updating the guidelines

ASTRO emphasizes that the scope of this paper is limited to the radiotherapeutic management of intact and resected brain metastases resulting from nonhematologic solid tumors. It provides guidance on the reasonable use of modern radiation therapy strategies, including single-fraction and fractionated (ie, hypofractionated SRS) SRS and HA-WBRT, and also discusses clinical considerations in selecting the optimal radiation therapy strategy or in deferring it in favor of best supportive care or close neuro-oncologic surveillance.

The authors note, however, that beyond the scope of this guideline, there are many other important questions that may be the subject of other guidance, such as the appropriate role for CNS-active systemic therapies and/or surgical intervention.

A version of this article was first published on Medscape.com.

The American Society for Radiation Oncology (ASTRO) has issued new guidance on the use of radiation therapy for the treatment of brain metastases, an update on its 2012 document.  

“In the decade since the previous ASTRO brain metastases guideline, there has been a tremendous evolution in the way we manage patients’ disease,” said Paul D. Brown, MD, chair of the guideline task force and a professor of radiation oncology at the Mayo Clinic in Rochester, Minn.  

“The development of stereotactic radiosurgery (SRS) has allowed treatment of limited brain metastases alone, often in a single fraction, while largely sparing the surrounding brain,” he elaborated in a statement. Also, novel techniques such as hippocampal avoidance with whole-brain radiation can greatly improve quality of life, he added.

The guideline was published May 6 in Practical Radiation Oncology.

“With the emergence of novel radiotherapy techniques and technologies, brain-penetrating drug therapies and neurosurgical interventions, modern management of brain metastases has become increasingly personalized, complex and multidisciplinary,” Vinai Gondi, MD, vice chair of the guideline task force and director of research and education at the Northwestern Medicine Cancer Center and Proton Center in Chicago, said in a statement.

“We developed this guideline to help inform and guide clinicians in patient-centered, multidisciplinary care for their patients with brain metastases,” he added.

Key recommendations

Overall, the recommendations address a wide range of topics related to radiation therapy in patients with cancer that has spread to the brain,  including delivery techniques for radiation therapy to manage both unresected and resected brain metastases. The guideline also includes treatment algorithms for limited brain metastases and extensive brain metastases.

Key recommendations are as follows:

For patients with intact/unresected brain metastases:

• SRS is recommended for patients with 1-4 brain metastases and reasonable performance status (ECOG performance status 0-2); SRS is conditionally recommended for those with 5-10 brain metastases and reasonable performance status; for patients with tumors exerting mass effect and/or larger size, multidisciplinary discussion with neurosurgery to consider surgical resection is suggested.
• Upfront local therapy (radiation and/or surgery) is strongly recommended for patients with symptomatic brain metastases. 
• For patients with asymptomatic brain metastases who are eligible for central nervous system-directed systemic therapy, multidisciplinary and patient-centered decision-making to determine whether local therapy may be safely deferred is conditionally recommended.
• Whole brain radiation therapy (WBRT) is recommended as a primary treatment for patients with favorable prognosis who have brain metastases that are ineligible for surgery and/or SRS. Hippocampal avoidance (HA) is recommended when appropriate to preserve memory function, as is the addition of memantine to delay neurocognitive decline. Adjuvant WBRT added to SRS routinely is not recommended.
• Supportive care only, without WBRT, should be considered for patients with poor prognosis and brain metastases. Reasonable options for this population include palliative care or hospice, or short-course WBRT for symptomatic brain metastases
• Recommendations also include guidance for SRS and WBRT dosing as well as the use of single-fraction vs hypofractionated SRS. Although SRS use is driven by the number of brain metastases, it is critical that other important factors (eg, total tumor volume and location, patient age, and extracranial disease status) should be taken into consideration during patient-centered decision-making by the multidisciplinary team.

For patients with resected brain metastases:

• Radiation therapy is recommended for all patients after resection in order to improve intracranial control.
• For patients with limited brain metastases after resection, postoperative SRS is recommended over WBRT to preserve the patient’s neurocognitive function and quality of life.
• As a potential alternative to SRS postresection, SRS prior to brain metastasis resection is conditionally recommended.

Updating the guidelines

ASTRO emphasizes that the scope of this paper is limited to the radiotherapeutic management of intact and resected brain metastases resulting from nonhematologic solid tumors. It provides guidance on the reasonable use of modern radiation therapy strategies, including single-fraction and fractionated (ie, hypofractionated SRS) SRS and HA-WBRT, and also discusses clinical considerations in selecting the optimal radiation therapy strategy or in deferring it in favor of best supportive care or close neuro-oncologic surveillance.

The authors note, however, that beyond the scope of this guideline, there are many other important questions that may be the subject of other guidance, such as the appropriate role for CNS-active systemic therapies and/or surgical intervention.

A version of this article was first published on Medscape.com.

CHARLOTTE, N.C. – Sleep and alcohol consumption in young adults seems to follow a “vicious cycle,” as one observer called it. Young adults those who drink more go to bed later, sleep less, and have worse-quality sleep than those who drink less, and those who went to bed earlier and slept longer tended to drink less the next day, a study of drinking and sleeping habits in 21- to 29-year-olds found.

“Sleep is a potential factor that we could intervene on to really identify how to improve drinking behaviors among young adults,” David Reichenberger, a graduate student at Penn State University, University Park, said in an interview after he presented his findings at the annual meeting of the Associated Professional Sleep Societies.

This is one of the few studies of alcohol consumption and sleep patterns that used an objective measure of alcohol consumption, Mr. Reichenberger said. The study evaluated sleep and alcohol consumption patterns in 222 regularly drinking young adults over 6 consecutive days. Study participants completed morning smartphone-based questionnaires, reporting their previous night’s bedtime, sleep duration, sleep quality, and number of drinks consumed. They also wore an alcohol monitor that continuously measured their transdermal alcohol consumption (TAC).

The study analyzed the data using two sets of multilevel models: A linear model that looked at how each drinking predictor was associated with each sleep variable and a Poisson model to determine how sleep predicted next-day alcohol use.

“We found that higher average peak TAC – that is, how intoxicated they got – was associated with a 19-minute later bedtime among young adults,” Mr. Reichenberger said. “Later bedtimes were then associated with a 26% greater TAC among those adults” (P < .02).
 

Patterns of alcohol consumption and sleep

On days when participants recorded a higher peak TAC, bedtime was delayed, sleep duration was shorter, and subjective sleep quality was worse, he said. However, none of the sleep variables predicted next-day peak TAC.

“We found an association between the duration of the drinking episode and later bedtimes among young adults,” he added. “And on days when the drinking episodes were longer, subsequent sleep was delayed and sleep quality was worse. But we also found that after nights when they had a later bedtime, next-day drinking episodes were about 7% longer.”

Conversely, young adults who had earlier bedtimes and longer sleep durations tended to consume fewer drinks and they achieved lower intoxication levels the next day, Mr. Reichenberger said.

Between-person results showed that young adults who tended to go to bed later drank on average 24% more the next day (P < .01). Also, each extra hour of sleep was associated with a 14% decrease in drinking the next day (P < .03).

Participants who drank more went to bed on average 12-19 minutes later (P < .01) and slept 5 fewer minutes (P < .01). Within-person results showed that on nights when participants drank more than usual they went to bed 8-13 minutes later (P < .01), slept 2-4 fewer minutes (P < .03), and had worse sleep quality (P < .01).

Mr. Reichenberger acknowledged one limitation of the study: Measuring sleep and alcohol consumption patterns over 6 days might not be long enough. Future studies should address that.
 

A ‘vicious cycle’

Hans P.A. Van Dongen, PhD, director of the Sleep and Performance Research Center at Washington State University, Spokane, said in an interview that the findings imply a “vicious cycle” between sleep and alcohol consumption. “You create a problem and then it perpetuates itself or reinforces itself.”

In older adults, alcohol tends to act as a “sleep aid,” Dr. Van Dongen noted. “Then it disrupts their sleep later on and then the next night they need to use the sleep aid again because they had a really poor night and they’re tired and they want to fall asleep.”

He added: “I think what is new here is that’s not very likely the mechanism that they’re using alcohol as a sleep aid in younger adults that we see in older adults, so I think there is a new element to it. Now does anybody know how that works exactly? No, that’s the next thing.”

The Penn State study identifies “a signal there that needs to be followed up on,” Dr. Van Dongen said. “There’s something nature’s trying to tell us but it’s not exactly clear what it’s trying to tell us.”

The National Institute on Drug Abuse provided funding for the study. Mr. Reichenberger has no relevant disclosures. Dr. Van Dongen has no disclosures to report.

CHARLOTTE, N.C. – Sleep and alcohol consumption in young adults seems to follow a “vicious cycle,” as one observer called it. Young adults those who drink more go to bed later, sleep less, and have worse-quality sleep than those who drink less, and those who went to bed earlier and slept longer tended to drink less the next day, a study of drinking and sleeping habits in 21- to 29-year-olds found.

“Sleep is a potential factor that we could intervene on to really identify how to improve drinking behaviors among young adults,” David Reichenberger, a graduate student at Penn State University, University Park, said in an interview after he presented his findings at the annual meeting of the Associated Professional Sleep Societies.

This is one of the few studies of alcohol consumption and sleep patterns that used an objective measure of alcohol consumption, Mr. Reichenberger said. The study evaluated sleep and alcohol consumption patterns in 222 regularly drinking young adults over 6 consecutive days. Study participants completed morning smartphone-based questionnaires, reporting their previous night’s bedtime, sleep duration, sleep quality, and number of drinks consumed. They also wore an alcohol monitor that continuously measured their transdermal alcohol consumption (TAC).

The study analyzed the data using two sets of multilevel models: A linear model that looked at how each drinking predictor was associated with each sleep variable and a Poisson model to determine how sleep predicted next-day alcohol use.

“We found that higher average peak TAC – that is, how intoxicated they got – was associated with a 19-minute later bedtime among young adults,” Mr. Reichenberger said. “Later bedtimes were then associated with a 26% greater TAC among those adults” (P < .02).
 

Patterns of alcohol consumption and sleep

On days when participants recorded a higher peak TAC, bedtime was delayed, sleep duration was shorter, and subjective sleep quality was worse, he said. However, none of the sleep variables predicted next-day peak TAC.

“We found an association between the duration of the drinking episode and later bedtimes among young adults,” he added. “And on days when the drinking episodes were longer, subsequent sleep was delayed and sleep quality was worse. But we also found that after nights when they had a later bedtime, next-day drinking episodes were about 7% longer.”

Conversely, young adults who had earlier bedtimes and longer sleep durations tended to consume fewer drinks and they achieved lower intoxication levels the next day, Mr. Reichenberger said.

Between-person results showed that young adults who tended to go to bed later drank on average 24% more the next day (P < .01). Also, each extra hour of sleep was associated with a 14% decrease in drinking the next day (P < .03).

Participants who drank more went to bed on average 12-19 minutes later (P < .01) and slept 5 fewer minutes (P < .01). Within-person results showed that on nights when participants drank more than usual they went to bed 8-13 minutes later (P < .01), slept 2-4 fewer minutes (P < .03), and had worse sleep quality (P < .01).

Mr. Reichenberger acknowledged one limitation of the study: Measuring sleep and alcohol consumption patterns over 6 days might not be long enough. Future studies should address that.
 

A ‘vicious cycle’

Hans P.A. Van Dongen, PhD, director of the Sleep and Performance Research Center at Washington State University, Spokane, said in an interview that the findings imply a “vicious cycle” between sleep and alcohol consumption. “You create a problem and then it perpetuates itself or reinforces itself.”

In older adults, alcohol tends to act as a “sleep aid,” Dr. Van Dongen noted. “Then it disrupts their sleep later on and then the next night they need to use the sleep aid again because they had a really poor night and they’re tired and they want to fall asleep.”

He added: “I think what is new here is that’s not very likely the mechanism that they’re using alcohol as a sleep aid in younger adults that we see in older adults, so I think there is a new element to it. Now does anybody know how that works exactly? No, that’s the next thing.”

The Penn State study identifies “a signal there that needs to be followed up on,” Dr. Van Dongen said. “There’s something nature’s trying to tell us but it’s not exactly clear what it’s trying to tell us.”

The National Institute on Drug Abuse provided funding for the study. Mr. Reichenberger has no relevant disclosures. Dr. Van Dongen has no disclosures to report.

CHARLOTTE, N.C. – Sleep and alcohol consumption in young adults seems to follow a “vicious cycle,” as one observer called it. Young adults those who drink more go to bed later, sleep less, and have worse-quality sleep than those who drink less, and those who went to bed earlier and slept longer tended to drink less the next day, a study of drinking and sleeping habits in 21- to 29-year-olds found.

“Sleep is a potential factor that we could intervene on to really identify how to improve drinking behaviors among young adults,” David Reichenberger, a graduate student at Penn State University, University Park, said in an interview after he presented his findings at the annual meeting of the Associated Professional Sleep Societies.

This is one of the few studies of alcohol consumption and sleep patterns that used an objective measure of alcohol consumption, Mr. Reichenberger said. The study evaluated sleep and alcohol consumption patterns in 222 regularly drinking young adults over 6 consecutive days. Study participants completed morning smartphone-based questionnaires, reporting their previous night’s bedtime, sleep duration, sleep quality, and number of drinks consumed. They also wore an alcohol monitor that continuously measured their transdermal alcohol consumption (TAC).

The study analyzed the data using two sets of multilevel models: A linear model that looked at how each drinking predictor was associated with each sleep variable and a Poisson model to determine how sleep predicted next-day alcohol use.

“We found that higher average peak TAC – that is, how intoxicated they got – was associated with a 19-minute later bedtime among young adults,” Mr. Reichenberger said. “Later bedtimes were then associated with a 26% greater TAC among those adults” (P < .02).
 

Patterns of alcohol consumption and sleep

On days when participants recorded a higher peak TAC, bedtime was delayed, sleep duration was shorter, and subjective sleep quality was worse, he said. However, none of the sleep variables predicted next-day peak TAC.

“We found an association between the duration of the drinking episode and later bedtimes among young adults,” he added. “And on days when the drinking episodes were longer, subsequent sleep was delayed and sleep quality was worse. But we also found that after nights when they had a later bedtime, next-day drinking episodes were about 7% longer.”

Conversely, young adults who had earlier bedtimes and longer sleep durations tended to consume fewer drinks and they achieved lower intoxication levels the next day, Mr. Reichenberger said.

Between-person results showed that young adults who tended to go to bed later drank on average 24% more the next day (P < .01). Also, each extra hour of sleep was associated with a 14% decrease in drinking the next day (P < .03).

Participants who drank more went to bed on average 12-19 minutes later (P < .01) and slept 5 fewer minutes (P < .01). Within-person results showed that on nights when participants drank more than usual they went to bed 8-13 minutes later (P < .01), slept 2-4 fewer minutes (P < .03), and had worse sleep quality (P < .01).

Mr. Reichenberger acknowledged one limitation of the study: Measuring sleep and alcohol consumption patterns over 6 days might not be long enough. Future studies should address that.
 

A ‘vicious cycle’

Hans P.A. Van Dongen, PhD, director of the Sleep and Performance Research Center at Washington State University, Spokane, said in an interview that the findings imply a “vicious cycle” between sleep and alcohol consumption. “You create a problem and then it perpetuates itself or reinforces itself.”

In older adults, alcohol tends to act as a “sleep aid,” Dr. Van Dongen noted. “Then it disrupts their sleep later on and then the next night they need to use the sleep aid again because they had a really poor night and they’re tired and they want to fall asleep.”

He added: “I think what is new here is that’s not very likely the mechanism that they’re using alcohol as a sleep aid in younger adults that we see in older adults, so I think there is a new element to it. Now does anybody know how that works exactly? No, that’s the next thing.”

The Penn State study identifies “a signal there that needs to be followed up on,” Dr. Van Dongen said. “There’s something nature’s trying to tell us but it’s not exactly clear what it’s trying to tell us.”

The National Institute on Drug Abuse provided funding for the study. Mr. Reichenberger has no relevant disclosures. Dr. Van Dongen has no disclosures to report.

Living the dream, diagnosing the nightmare

Does a bad dream mean you should be consulting your doctor about an impending neurologic disease? Maybe.

New research published in eClinicalMedicine suggests that, for some people, bad dreams and nightmares have been associated with developing Parkinson’s disease later in life. Dr. Abidemi I. Otaiku of the University of Birmingham (England) analyzed data from a cohort study involving 3,818 older men, of whom 2.3% were diagnosed with Parkinson’s during the 12 years of follow-up.

©Wavebreakmedia Ltd/Thinkstock

Dr. Otaiku found those with frequent nightmares – at least once per week – were twice as likely to develop Parkinson’s than were those without, with most of the diagnoses coming in the first 5 years.

Although more research needs to be done, “identifying the significance of bad dreams and nightmares could indicate that individuals who experience changes to their dreams in older age – without any obvious trigger – should seek medical advice,” he said in a Eurekalert statement.

Dr. Otaiku pointed out that studying dreams can tell us a lot about how our brains work and are structured. By using electroencephalography, Dr. Otaiku plans to look into the biological reasons for why we dream the way we do.

So could it be that those killer clowns are actually giving you a heads up on your health?
 

Maybe next time try a paper route

There’s just no winning with teenagers sometimes. You tell them to go outside, they’ll sit in the dark playing video games all night. You tell them to get better grades, they’ll skip school. You tell them to get a hobby, they’ll scam the German government for millions of euros.

The COVID-19 pandemic has been tricky for governments to manage. Massive amounts of infrastructure needed to be set up, and that means corners got cut. Germany was no exception in this regard; the government entrusted the Kassenärztlichen Vereinigung, a doctor’s association, with overseeing COVID testing and payment at private test centers. To make things a bit easier, all they required private test centers to provide to receive reimbursement was an invoice.

AvailableLight/Getty Images

This is where our 17-year-old from Freiburg comes in. In a spark of entrepreneurial genius, he decided to falsify documents and create an entirely fictional COVID test center. The KV approved it, and between March and July of 2021, he sent in thousands of fake invoices. Over that 4-month period, he submitted 500,000 invoices and received 5.7 million euros as compensation. That’s a few thousand tests per day, which was absolutely absurd, but he avoided scrutiny for months.

In the end, it wasn’t even the KV that noticed the fraud, but the bank. A bank employee noticed millions flowing into the account of a teenager and suspected money laundering, alerting the government. Fortunately for our young friend, since he was under 18 when he hatched his scheme, he was tried as a minor, avoiding jail time. His ill-gotten gains were confiscated, he has to pay a relatively minimal fine, and he will be on probation for 1 year. And presumably, he’ll be on the receiving end of the grounding of a lifetime.
 

You look like I need more sleep

Like most people, not getting our beauty sleep can make us look tired and feel less attractive, but a new study from Sweden shows that the sleep deprived also are more likely to find others less attractive. That’s probably not a good finding for singles who often go out trying to meet someone after a long day of work.

PRImageFactory/iStock/Getty Images

For the study, 45 young men and women were required to spend one night with no sleep and then another night with the possibility of 8 hours of sleep. The following mornings, eye-tracking technology was used as they looked at images of happy, angry, fearful, and neutral faces. The subjects then rated the faces for attractiveness, trustworthiness, and healthiness.

“The finding that sleep-deprived subjects in our experiment rated angry faces as less trustworthy and healthy-looking and neutral and fearful faces as less attractive indicates that sleep loss is associated with more negative social impressions of others,” senior author Christian Benedict of Uppsala University said in a statement.

When we are sleep deprived, the researchers added, we might not stop to really look at someone else, which has a negative impact on how we perceive people because we are not focusing on what their facial expressions are really telling us.

We already knew that not sleeping well has many negative effects on us, but now – thank you very much, science – we have something else to think about. Better hope your crush at work gets enough sleep so you’ll be accurately noticed.
 

The expanding-hole illusion of science

Time for a LOTME-style reality check: I think, therefore I am.

So far, so good. Next step: I think, therefore I am. I think.

Works for us. Now for the biggie: I think I am seeing the black hole in the middle of this image expanding.

Laeng, Nabil, and Kitaoka

Does that work for you? Do you perceive the black hole as expanding? If you do, then you fit in with the 86% of subjects in a recent study who perceived the same thing.

Lead author Bruno Laeng of the University of Oslo explained the effect in a statement from Frontiers Science News. “The circular smear or shadow gradient of the central black hole evokes a marked impression of optic flow, as if the observer were heading forward into a hole or tunnel. ... The pupil reacts to how we perceive light – even if this ‘light’ is imaginary like in the illusion – and not just to the amount of light energy that actually enters the eye.”

The illusion is so good at deceiving the brain “that it even prompts a dilation reflex of the pupils to let in more light, just as would happen if we were really moving into a dark area,” the investigators said.

Of the 50 men and women who had their eye movements measured while looking at the illusion, only 14% didn’t perceive the illusion when the hole was black. When the hole was a color, that figure went up to 20%. There also was a strong dilation reflex with black holes, but colored holes caused the subjects’ pupils to constrict, they noted.

Dr. Laeng and his associates can’t explain why some people don’t see the movement, but they did offer this: “Pupils’ dilation or contraction reflex is not a closed-loop mechanism, like a photocell opening a door, impervious to any other information than the actual amount of light stimulating the photoreceptor. Rather, the eye adjusts to perceived and even imagined light, not simply to physical energy.”

And now, back to our reality check: We think we perceive the light of a cheeseburger, therefore it’s time for lunch.

Living the dream, diagnosing the nightmare

Does a bad dream mean you should be consulting your doctor about an impending neurologic disease? Maybe.

New research published in eClinicalMedicine suggests that, for some people, bad dreams and nightmares have been associated with developing Parkinson’s disease later in life. Dr. Abidemi I. Otaiku of the University of Birmingham (England) analyzed data from a cohort study involving 3,818 older men, of whom 2.3% were diagnosed with Parkinson’s during the 12 years of follow-up.

©Wavebreakmedia Ltd/Thinkstock

Dr. Otaiku found those with frequent nightmares – at least once per week – were twice as likely to develop Parkinson’s than were those without, with most of the diagnoses coming in the first 5 years.

Although more research needs to be done, “identifying the significance of bad dreams and nightmares could indicate that individuals who experience changes to their dreams in older age – without any obvious trigger – should seek medical advice,” he said in a Eurekalert statement.

Dr. Otaiku pointed out that studying dreams can tell us a lot about how our brains work and are structured. By using electroencephalography, Dr. Otaiku plans to look into the biological reasons for why we dream the way we do.

So could it be that those killer clowns are actually giving you a heads up on your health?
 

Maybe next time try a paper route

There’s just no winning with teenagers sometimes. You tell them to go outside, they’ll sit in the dark playing video games all night. You tell them to get better grades, they’ll skip school. You tell them to get a hobby, they’ll scam the German government for millions of euros.

The COVID-19 pandemic has been tricky for governments to manage. Massive amounts of infrastructure needed to be set up, and that means corners got cut. Germany was no exception in this regard; the government entrusted the Kassenärztlichen Vereinigung, a doctor’s association, with overseeing COVID testing and payment at private test centers. To make things a bit easier, all they required private test centers to provide to receive reimbursement was an invoice.

AvailableLight/Getty Images

This is where our 17-year-old from Freiburg comes in. In a spark of entrepreneurial genius, he decided to falsify documents and create an entirely fictional COVID test center. The KV approved it, and between March and July of 2021, he sent in thousands of fake invoices. Over that 4-month period, he submitted 500,000 invoices and received 5.7 million euros as compensation. That’s a few thousand tests per day, which was absolutely absurd, but he avoided scrutiny for months.

In the end, it wasn’t even the KV that noticed the fraud, but the bank. A bank employee noticed millions flowing into the account of a teenager and suspected money laundering, alerting the government. Fortunately for our young friend, since he was under 18 when he hatched his scheme, he was tried as a minor, avoiding jail time. His ill-gotten gains were confiscated, he has to pay a relatively minimal fine, and he will be on probation for 1 year. And presumably, he’ll be on the receiving end of the grounding of a lifetime.
 

You look like I need more sleep

Like most people, not getting our beauty sleep can make us look tired and feel less attractive, but a new study from Sweden shows that the sleep deprived also are more likely to find others less attractive. That’s probably not a good finding for singles who often go out trying to meet someone after a long day of work.

PRImageFactory/iStock/Getty Images

For the study, 45 young men and women were required to spend one night with no sleep and then another night with the possibility of 8 hours of sleep. The following mornings, eye-tracking technology was used as they looked at images of happy, angry, fearful, and neutral faces. The subjects then rated the faces for attractiveness, trustworthiness, and healthiness.

“The finding that sleep-deprived subjects in our experiment rated angry faces as less trustworthy and healthy-looking and neutral and fearful faces as less attractive indicates that sleep loss is associated with more negative social impressions of others,” senior author Christian Benedict of Uppsala University said in a statement.

When we are sleep deprived, the researchers added, we might not stop to really look at someone else, which has a negative impact on how we perceive people because we are not focusing on what their facial expressions are really telling us.

We already knew that not sleeping well has many negative effects on us, but now – thank you very much, science – we have something else to think about. Better hope your crush at work gets enough sleep so you’ll be accurately noticed.
 

The expanding-hole illusion of science

Time for a LOTME-style reality check: I think, therefore I am.

So far, so good. Next step: I think, therefore I am. I think.

Works for us. Now for the biggie: I think I am seeing the black hole in the middle of this image expanding.

Laeng, Nabil, and Kitaoka

Does that work for you? Do you perceive the black hole as expanding? If you do, then you fit in with the 86% of subjects in a recent study who perceived the same thing.

Lead author Bruno Laeng of the University of Oslo explained the effect in a statement from Frontiers Science News. “The circular smear or shadow gradient of the central black hole evokes a marked impression of optic flow, as if the observer were heading forward into a hole or tunnel. ... The pupil reacts to how we perceive light – even if this ‘light’ is imaginary like in the illusion – and not just to the amount of light energy that actually enters the eye.”

The illusion is so good at deceiving the brain “that it even prompts a dilation reflex of the pupils to let in more light, just as would happen if we were really moving into a dark area,” the investigators said.

Of the 50 men and women who had their eye movements measured while looking at the illusion, only 14% didn’t perceive the illusion when the hole was black. When the hole was a color, that figure went up to 20%. There also was a strong dilation reflex with black holes, but colored holes caused the subjects’ pupils to constrict, they noted.

Dr. Laeng and his associates can’t explain why some people don’t see the movement, but they did offer this: “Pupils’ dilation or contraction reflex is not a closed-loop mechanism, like a photocell opening a door, impervious to any other information than the actual amount of light stimulating the photoreceptor. Rather, the eye adjusts to perceived and even imagined light, not simply to physical energy.”

And now, back to our reality check: We think we perceive the light of a cheeseburger, therefore it’s time for lunch.

Living the dream, diagnosing the nightmare

Does a bad dream mean you should be consulting your doctor about an impending neurologic disease? Maybe.

New research published in eClinicalMedicine suggests that, for some people, bad dreams and nightmares have been associated with developing Parkinson’s disease later in life. Dr. Abidemi I. Otaiku of the University of Birmingham (England) analyzed data from a cohort study involving 3,818 older men, of whom 2.3% were diagnosed with Parkinson’s during the 12 years of follow-up.

©Wavebreakmedia Ltd/Thinkstock

Dr. Otaiku found those with frequent nightmares – at least once per week – were twice as likely to develop Parkinson’s than were those without, with most of the diagnoses coming in the first 5 years.

Although more research needs to be done, “identifying the significance of bad dreams and nightmares could indicate that individuals who experience changes to their dreams in older age – without any obvious trigger – should seek medical advice,” he said in a Eurekalert statement.

Dr. Otaiku pointed out that studying dreams can tell us a lot about how our brains work and are structured. By using electroencephalography, Dr. Otaiku plans to look into the biological reasons for why we dream the way we do.

So could it be that those killer clowns are actually giving you a heads up on your health?
 

Maybe next time try a paper route

There’s just no winning with teenagers sometimes. You tell them to go outside, they’ll sit in the dark playing video games all night. You tell them to get better grades, they’ll skip school. You tell them to get a hobby, they’ll scam the German government for millions of euros.

The COVID-19 pandemic has been tricky for governments to manage. Massive amounts of infrastructure needed to be set up, and that means corners got cut. Germany was no exception in this regard; the government entrusted the Kassenärztlichen Vereinigung, a doctor’s association, with overseeing COVID testing and payment at private test centers. To make things a bit easier, all they required private test centers to provide to receive reimbursement was an invoice.

AvailableLight/Getty Images

This is where our 17-year-old from Freiburg comes in. In a spark of entrepreneurial genius, he decided to falsify documents and create an entirely fictional COVID test center. The KV approved it, and between March and July of 2021, he sent in thousands of fake invoices. Over that 4-month period, he submitted 500,000 invoices and received 5.7 million euros as compensation. That’s a few thousand tests per day, which was absolutely absurd, but he avoided scrutiny for months.

In the end, it wasn’t even the KV that noticed the fraud, but the bank. A bank employee noticed millions flowing into the account of a teenager and suspected money laundering, alerting the government. Fortunately for our young friend, since he was under 18 when he hatched his scheme, he was tried as a minor, avoiding jail time. His ill-gotten gains were confiscated, he has to pay a relatively minimal fine, and he will be on probation for 1 year. And presumably, he’ll be on the receiving end of the grounding of a lifetime.
 

You look like I need more sleep

Like most people, not getting our beauty sleep can make us look tired and feel less attractive, but a new study from Sweden shows that the sleep deprived also are more likely to find others less attractive. That’s probably not a good finding for singles who often go out trying to meet someone after a long day of work.

PRImageFactory/iStock/Getty Images

For the study, 45 young men and women were required to spend one night with no sleep and then another night with the possibility of 8 hours of sleep. The following mornings, eye-tracking technology was used as they looked at images of happy, angry, fearful, and neutral faces. The subjects then rated the faces for attractiveness, trustworthiness, and healthiness.

“The finding that sleep-deprived subjects in our experiment rated angry faces as less trustworthy and healthy-looking and neutral and fearful faces as less attractive indicates that sleep loss is associated with more negative social impressions of others,” senior author Christian Benedict of Uppsala University said in a statement.

When we are sleep deprived, the researchers added, we might not stop to really look at someone else, which has a negative impact on how we perceive people because we are not focusing on what their facial expressions are really telling us.

We already knew that not sleeping well has many negative effects on us, but now – thank you very much, science – we have something else to think about. Better hope your crush at work gets enough sleep so you’ll be accurately noticed.
 

The expanding-hole illusion of science

Time for a LOTME-style reality check: I think, therefore I am.

So far, so good. Next step: I think, therefore I am. I think.

Works for us. Now for the biggie: I think I am seeing the black hole in the middle of this image expanding.

Laeng, Nabil, and Kitaoka

Does that work for you? Do you perceive the black hole as expanding? If you do, then you fit in with the 86% of subjects in a recent study who perceived the same thing.

Lead author Bruno Laeng of the University of Oslo explained the effect in a statement from Frontiers Science News. “The circular smear or shadow gradient of the central black hole evokes a marked impression of optic flow, as if the observer were heading forward into a hole or tunnel. ... The pupil reacts to how we perceive light – even if this ‘light’ is imaginary like in the illusion – and not just to the amount of light energy that actually enters the eye.”

The illusion is so good at deceiving the brain “that it even prompts a dilation reflex of the pupils to let in more light, just as would happen if we were really moving into a dark area,” the investigators said.

Of the 50 men and women who had their eye movements measured while looking at the illusion, only 14% didn’t perceive the illusion when the hole was black. When the hole was a color, that figure went up to 20%. There also was a strong dilation reflex with black holes, but colored holes caused the subjects’ pupils to constrict, they noted.

Dr. Laeng and his associates can’t explain why some people don’t see the movement, but they did offer this: “Pupils’ dilation or contraction reflex is not a closed-loop mechanism, like a photocell opening a door, impervious to any other information than the actual amount of light stimulating the photoreceptor. Rather, the eye adjusts to perceived and even imagined light, not simply to physical energy.”

And now, back to our reality check: We think we perceive the light of a cheeseburger, therefore it’s time for lunch.

A person’s ‘genetic’ height – the height they are predicted to reach independent of environmental influences – may be an underappreciated risk factor for a wide range of chronic conditions, according to a study published in PLOS Genetics.

Prior studies have investigated height as a risk factor for chronic diseases, such as a higher risk for atrial fibrillation and a reduced risk of cardiovascular disease. It’s been consistently difficult, however, to eliminate the confounding influences of diet, socioeconomics, lifestyle behaviors, and other environmental factors that may interfere with a person’s reaching their expected height based on their genes.

This study, however, was able to better parse those differences by using Mendelian randomization within the comprehensive clinical and genetic dataset of a national health care system biobank. Mendelian randomization uses “genetic instruments for exposures of interest under the assumption that genotype is less susceptible to confounding than measured exposures,” the authors explained. The findings confirmed previously suspected associations between height and a range of cardiovascular and metabolic conditions as well as revealing new associations with several other conditions.
 

Prior associations confirmed, new associations uncovered

The results confirmed that being tall is linked to a higher risk of atrial fibrillation and varicose veins, and a lower risk of coronary heart disease, high blood pressure, and high cholesterol. The study also uncovered new associations between greater height and a higher risk of peripheral neuropathy, which is caused by damage to nerves on the extremities, as well as skin and bone infections, such as leg and foot ulcers.

The meta-analysis “identified five additional traits associated with genetically-predicted height,” wrote Sridharan Raghavan, MD, assistant professor of medicine at the University of Colorado Anschutz Medical Campus, and colleagues. “Two were genitourinary conditions – erectile dysfunction and urinary retention – that can be associated with neuropathy, and a third was a phecode for nonspecific skin disorders that may be related to skin infections – consistent with the race/ethnicity stratified results.”
 

Removing potential confounders

F. Perry Wilson, MD, associate professor of medicine at Yale University, New Haven, Conn., who was not involved in the study, said the findings were not particularly surprising overall, but it’s striking that the researchers had ”such a large cohort with such detailed electronic health records allowing for the comparison of genetic height with a variety of clinical outcomes.” He also noted the study’s strength in using Mendelian randomization so that the exposure is the predicted genetic height instead of a person’s measured height.

“This is key, since lots of things affect actual height – nutrition is an important one that could certainly be linked to disease as well,” Dr. Wilson said. ”By using genetic height, the authors remove these potential confounders. Since genetic height is “assigned” at birth (or conception), there is little opportunity for confounding. Of course, it is possible that some of the gene variants used to predict genetic height actually do something else, such as make you seek out less nutritious meals, but by and large this is how these types of studies need to be done.”
 

Height may impact over 100 clinical traits

The study relied on data from the U.S. Veteran Affairs Million Veteran Program with 222,300 non-Hispanic White and 58,151 non-Hispanic Black participants. The researchers first estimated the likelihood of participants’ genetic height based on 3,290 genetic variants determined to affect genetic height in a recent European-ancestry genome-wide meta-analysis. Then they compared these estimates with participants’ actual height in the VA medical record, adjusting for age, sex, and other genetic characteristics.

In doing so, the researchers found 345 clinical traits that were associated with the actual measured height in White participants plus another 17 clinical trials linked to actual measured height in Black participants. An overall 127 of these clinical traits were significantly associated with White participants’ genetically predicted height, and two of them were significantly associated with Black participants’ genetically predicted height.

In analyzing all these data together, the researchers were largely able to separate out those associations between genetically predicted height and certain health conditions from those associations between health conditions and a person’s actual measured height. They also determined that including body mass index as a covariate had little impact on the results. The researchers conducted the appropriate statistical correction to ensure the use of so many variables did not result in spurious statistical significance in some associations.

“Using genetic methods applied to the VA Million Veteran Program, we found evidence that adult height may impact over 100 clinical traits, including several conditions associated with poor outcomes and quality of life – peripheral neuropathy, lower extremity ulcers, and chronic venous insufficiency. We conclude that height may be an unrecognized nonmodifiable risk factor for several common conditions in adults.”
 

Height linked with health conditions

Genetically predicted height predicted a reduced risk of hyperlipidemia and hypertension independent of coronary heart disease, the analysis revealed. Genetically predicted height was also linked to an approximately 51% increased risk of atrial fibrillation in participants without coronary heart disease but, paradoxically, only a 39% increased risk in those with coronary heart disease, despite coronary heart disease being a risk factor for atrial fibrillation. Genetically predicted height was also associated with a greater risk of varicose veins in the legs and deep vein thrombosis.

Another novel association uncovered by the analysis was between women’s genetically predicted height and both asthma and nonspecific peripheral nerve disorders. “Whether these associations reflect differences by sex in disease pathophysiology related to height may warrant exploration in a sample with better balance between men and women,” the authors wrote. “In sum, our results suggest that an individual’s height may warrant consideration as a nonmodifiable predictor for several common conditions, particularly those affecting peripheral/distal extremities that are most physically impacted by tall stature.”

A substantial limitation of the study was its homogeneity of participants, who were 92% male with an average height of 176 cm and an average BMI of 30.1. The Black participants tended to be younger, with an average age of 58 compared with 64 years in the White participants, but the groups were otherwise similar in height and weight.* The database included data from Hispanic participants, but the researchers excluded these data because of the small sample size.

The smaller dataset for Black participants was a limitation as well as the fact that the genome-wide association study the researchers relied on came from a European population, which may not be as accurate in people with other ancestry, Dr. Wilson said. The bigger limitation, however, is what the findings’ clinical relevance is.
 

What does it all mean?

“Genetic height is in your genes – there is nothing to be done about it – so it is more of academic interest than clinical interest,” Dr. Wilson said. It’s not even clear whether incorporating a person’s height – actual or genetically predicted, if it could be easily determined for each person – into risk calculators. ”To know whether it would be beneficial to use height (or genetic height) as a risk factor, you’d need to examine each condition of interest, adjusting for all known risk factors, to see if height improved the prediction,” Dr. Wilson said. “I suspect for most conditions, the well-known risk factors would swamp height. For example, high genetic height might truly increase risk for neuropathy. But diabetes might increase the risk so much more that height is not particularly relevant.”

On the other hand, the fact that height in general has any potential influence at all on disease risk may inspire physicians to consider other risk factors in especially tall individuals.

”Physicians may find it interesting that we have some confirmation that height does increase the risk of certain conditions,” Dr. Wilson said. “While this is unlikely to dramatically change practice, they may be a bit more diligent in looking for other relevant risk factors for the diseases found in this study in their very tall patients.”

The research was funded by the U.S. Department of Veteran Affairs, the Boettcher Foundation’s Webb-Waring Biomedical Research Program, the National Institutes of Health, and a Linda Pechenik Montague Investigator award. One study coauthor is a full-time employee of Novartis Institutes of Biomedical Research. The other authors and Dr. Wilson had no disclosures.

*Correction, 6/29/22: An earlier version of this article misstated the average age of Black participants.

A person’s ‘genetic’ height – the height they are predicted to reach independent of environmental influences – may be an underappreciated risk factor for a wide range of chronic conditions, according to a study published in PLOS Genetics.

Prior studies have investigated height as a risk factor for chronic diseases, such as a higher risk for atrial fibrillation and a reduced risk of cardiovascular disease. It’s been consistently difficult, however, to eliminate the confounding influences of diet, socioeconomics, lifestyle behaviors, and other environmental factors that may interfere with a person’s reaching their expected height based on their genes.

This study, however, was able to better parse those differences by using Mendelian randomization within the comprehensive clinical and genetic dataset of a national health care system biobank. Mendelian randomization uses “genetic instruments for exposures of interest under the assumption that genotype is less susceptible to confounding than measured exposures,” the authors explained. The findings confirmed previously suspected associations between height and a range of cardiovascular and metabolic conditions as well as revealing new associations with several other conditions.
 

Prior associations confirmed, new associations uncovered

The results confirmed that being tall is linked to a higher risk of atrial fibrillation and varicose veins, and a lower risk of coronary heart disease, high blood pressure, and high cholesterol. The study also uncovered new associations between greater height and a higher risk of peripheral neuropathy, which is caused by damage to nerves on the extremities, as well as skin and bone infections, such as leg and foot ulcers.

The meta-analysis “identified five additional traits associated with genetically-predicted height,” wrote Sridharan Raghavan, MD, assistant professor of medicine at the University of Colorado Anschutz Medical Campus, and colleagues. “Two were genitourinary conditions – erectile dysfunction and urinary retention – that can be associated with neuropathy, and a third was a phecode for nonspecific skin disorders that may be related to skin infections – consistent with the race/ethnicity stratified results.”
 

Removing potential confounders

F. Perry Wilson, MD, associate professor of medicine at Yale University, New Haven, Conn., who was not involved in the study, said the findings were not particularly surprising overall, but it’s striking that the researchers had ”such a large cohort with such detailed electronic health records allowing for the comparison of genetic height with a variety of clinical outcomes.” He also noted the study’s strength in using Mendelian randomization so that the exposure is the predicted genetic height instead of a person’s measured height.

“This is key, since lots of things affect actual height – nutrition is an important one that could certainly be linked to disease as well,” Dr. Wilson said. ”By using genetic height, the authors remove these potential confounders. Since genetic height is “assigned” at birth (or conception), there is little opportunity for confounding. Of course, it is possible that some of the gene variants used to predict genetic height actually do something else, such as make you seek out less nutritious meals, but by and large this is how these types of studies need to be done.”
 

Height may impact over 100 clinical traits

The study relied on data from the U.S. Veteran Affairs Million Veteran Program with 222,300 non-Hispanic White and 58,151 non-Hispanic Black participants. The researchers first estimated the likelihood of participants’ genetic height based on 3,290 genetic variants determined to affect genetic height in a recent European-ancestry genome-wide meta-analysis. Then they compared these estimates with participants’ actual height in the VA medical record, adjusting for age, sex, and other genetic characteristics.

In doing so, the researchers found 345 clinical traits that were associated with the actual measured height in White participants plus another 17 clinical trials linked to actual measured height in Black participants. An overall 127 of these clinical traits were significantly associated with White participants’ genetically predicted height, and two of them were significantly associated with Black participants’ genetically predicted height.

In analyzing all these data together, the researchers were largely able to separate out those associations between genetically predicted height and certain health conditions from those associations between health conditions and a person’s actual measured height. They also determined that including body mass index as a covariate had little impact on the results. The researchers conducted the appropriate statistical correction to ensure the use of so many variables did not result in spurious statistical significance in some associations.

“Using genetic methods applied to the VA Million Veteran Program, we found evidence that adult height may impact over 100 clinical traits, including several conditions associated with poor outcomes and quality of life – peripheral neuropathy, lower extremity ulcers, and chronic venous insufficiency. We conclude that height may be an unrecognized nonmodifiable risk factor for several common conditions in adults.”
 

Height linked with health conditions

Genetically predicted height predicted a reduced risk of hyperlipidemia and hypertension independent of coronary heart disease, the analysis revealed. Genetically predicted height was also linked to an approximately 51% increased risk of atrial fibrillation in participants without coronary heart disease but, paradoxically, only a 39% increased risk in those with coronary heart disease, despite coronary heart disease being a risk factor for atrial fibrillation. Genetically predicted height was also associated with a greater risk of varicose veins in the legs and deep vein thrombosis.

Another novel association uncovered by the analysis was between women’s genetically predicted height and both asthma and nonspecific peripheral nerve disorders. “Whether these associations reflect differences by sex in disease pathophysiology related to height may warrant exploration in a sample with better balance between men and women,” the authors wrote. “In sum, our results suggest that an individual’s height may warrant consideration as a nonmodifiable predictor for several common conditions, particularly those affecting peripheral/distal extremities that are most physically impacted by tall stature.”

A substantial limitation of the study was its homogeneity of participants, who were 92% male with an average height of 176 cm and an average BMI of 30.1. The Black participants tended to be younger, with an average age of 58 compared with 64 years in the White participants, but the groups were otherwise similar in height and weight.* The database included data from Hispanic participants, but the researchers excluded these data because of the small sample size.

The smaller dataset for Black participants was a limitation as well as the fact that the genome-wide association study the researchers relied on came from a European population, which may not be as accurate in people with other ancestry, Dr. Wilson said. The bigger limitation, however, is what the findings’ clinical relevance is.
 

What does it all mean?

“Genetic height is in your genes – there is nothing to be done about it – so it is more of academic interest than clinical interest,” Dr. Wilson said. It’s not even clear whether incorporating a person’s height – actual or genetically predicted, if it could be easily determined for each person – into risk calculators. ”To know whether it would be beneficial to use height (or genetic height) as a risk factor, you’d need to examine each condition of interest, adjusting for all known risk factors, to see if height improved the prediction,” Dr. Wilson said. “I suspect for most conditions, the well-known risk factors would swamp height. For example, high genetic height might truly increase risk for neuropathy. But diabetes might increase the risk so much more that height is not particularly relevant.”

On the other hand, the fact that height in general has any potential influence at all on disease risk may inspire physicians to consider other risk factors in especially tall individuals.

”Physicians may find it interesting that we have some confirmation that height does increase the risk of certain conditions,” Dr. Wilson said. “While this is unlikely to dramatically change practice, they may be a bit more diligent in looking for other relevant risk factors for the diseases found in this study in their very tall patients.”

The research was funded by the U.S. Department of Veteran Affairs, the Boettcher Foundation’s Webb-Waring Biomedical Research Program, the National Institutes of Health, and a Linda Pechenik Montague Investigator award. One study coauthor is a full-time employee of Novartis Institutes of Biomedical Research. The other authors and Dr. Wilson had no disclosures.

*Correction, 6/29/22: An earlier version of this article misstated the average age of Black participants.

A person’s ‘genetic’ height – the height they are predicted to reach independent of environmental influences – may be an underappreciated risk factor for a wide range of chronic conditions, according to a study published in PLOS Genetics.

Prior studies have investigated height as a risk factor for chronic diseases, such as a higher risk for atrial fibrillation and a reduced risk of cardiovascular disease. It’s been consistently difficult, however, to eliminate the confounding influences of diet, socioeconomics, lifestyle behaviors, and other environmental factors that may interfere with a person’s reaching their expected height based on their genes.

This study, however, was able to better parse those differences by using Mendelian randomization within the comprehensive clinical and genetic dataset of a national health care system biobank. Mendelian randomization uses “genetic instruments for exposures of interest under the assumption that genotype is less susceptible to confounding than measured exposures,” the authors explained. The findings confirmed previously suspected associations between height and a range of cardiovascular and metabolic conditions as well as revealing new associations with several other conditions.
 

Prior associations confirmed, new associations uncovered

The results confirmed that being tall is linked to a higher risk of atrial fibrillation and varicose veins, and a lower risk of coronary heart disease, high blood pressure, and high cholesterol. The study also uncovered new associations between greater height and a higher risk of peripheral neuropathy, which is caused by damage to nerves on the extremities, as well as skin and bone infections, such as leg and foot ulcers.

The meta-analysis “identified five additional traits associated with genetically-predicted height,” wrote Sridharan Raghavan, MD, assistant professor of medicine at the University of Colorado Anschutz Medical Campus, and colleagues. “Two were genitourinary conditions – erectile dysfunction and urinary retention – that can be associated with neuropathy, and a third was a phecode for nonspecific skin disorders that may be related to skin infections – consistent with the race/ethnicity stratified results.”
 

Removing potential confounders

F. Perry Wilson, MD, associate professor of medicine at Yale University, New Haven, Conn., who was not involved in the study, said the findings were not particularly surprising overall, but it’s striking that the researchers had ”such a large cohort with such detailed electronic health records allowing for the comparison of genetic height with a variety of clinical outcomes.” He also noted the study’s strength in using Mendelian randomization so that the exposure is the predicted genetic height instead of a person’s measured height.

“This is key, since lots of things affect actual height – nutrition is an important one that could certainly be linked to disease as well,” Dr. Wilson said. ”By using genetic height, the authors remove these potential confounders. Since genetic height is “assigned” at birth (or conception), there is little opportunity for confounding. Of course, it is possible that some of the gene variants used to predict genetic height actually do something else, such as make you seek out less nutritious meals, but by and large this is how these types of studies need to be done.”
 

Height may impact over 100 clinical traits

The study relied on data from the U.S. Veteran Affairs Million Veteran Program with 222,300 non-Hispanic White and 58,151 non-Hispanic Black participants. The researchers first estimated the likelihood of participants’ genetic height based on 3,290 genetic variants determined to affect genetic height in a recent European-ancestry genome-wide meta-analysis. Then they compared these estimates with participants’ actual height in the VA medical record, adjusting for age, sex, and other genetic characteristics.

In doing so, the researchers found 345 clinical traits that were associated with the actual measured height in White participants plus another 17 clinical trials linked to actual measured height in Black participants. An overall 127 of these clinical traits were significantly associated with White participants’ genetically predicted height, and two of them were significantly associated with Black participants’ genetically predicted height.

In analyzing all these data together, the researchers were largely able to separate out those associations between genetically predicted height and certain health conditions from those associations between health conditions and a person’s actual measured height. They also determined that including body mass index as a covariate had little impact on the results. The researchers conducted the appropriate statistical correction to ensure the use of so many variables did not result in spurious statistical significance in some associations.

“Using genetic methods applied to the VA Million Veteran Program, we found evidence that adult height may impact over 100 clinical traits, including several conditions associated with poor outcomes and quality of life – peripheral neuropathy, lower extremity ulcers, and chronic venous insufficiency. We conclude that height may be an unrecognized nonmodifiable risk factor for several common conditions in adults.”
 

Height linked with health conditions

Genetically predicted height predicted a reduced risk of hyperlipidemia and hypertension independent of coronary heart disease, the analysis revealed. Genetically predicted height was also linked to an approximately 51% increased risk of atrial fibrillation in participants without coronary heart disease but, paradoxically, only a 39% increased risk in those with coronary heart disease, despite coronary heart disease being a risk factor for atrial fibrillation. Genetically predicted height was also associated with a greater risk of varicose veins in the legs and deep vein thrombosis.

Another novel association uncovered by the analysis was between women’s genetically predicted height and both asthma and nonspecific peripheral nerve disorders. “Whether these associations reflect differences by sex in disease pathophysiology related to height may warrant exploration in a sample with better balance between men and women,” the authors wrote. “In sum, our results suggest that an individual’s height may warrant consideration as a nonmodifiable predictor for several common conditions, particularly those affecting peripheral/distal extremities that are most physically impacted by tall stature.”

A substantial limitation of the study was its homogeneity of participants, who were 92% male with an average height of 176 cm and an average BMI of 30.1. The Black participants tended to be younger, with an average age of 58 compared with 64 years in the White participants, but the groups were otherwise similar in height and weight.* The database included data from Hispanic participants, but the researchers excluded these data because of the small sample size.

The smaller dataset for Black participants was a limitation as well as the fact that the genome-wide association study the researchers relied on came from a European population, which may not be as accurate in people with other ancestry, Dr. Wilson said. The bigger limitation, however, is what the findings’ clinical relevance is.
 

What does it all mean?

“Genetic height is in your genes – there is nothing to be done about it – so it is more of academic interest than clinical interest,” Dr. Wilson said. It’s not even clear whether incorporating a person’s height – actual or genetically predicted, if it could be easily determined for each person – into risk calculators. ”To know whether it would be beneficial to use height (or genetic height) as a risk factor, you’d need to examine each condition of interest, adjusting for all known risk factors, to see if height improved the prediction,” Dr. Wilson said. “I suspect for most conditions, the well-known risk factors would swamp height. For example, high genetic height might truly increase risk for neuropathy. But diabetes might increase the risk so much more that height is not particularly relevant.”

On the other hand, the fact that height in general has any potential influence at all on disease risk may inspire physicians to consider other risk factors in especially tall individuals.

”Physicians may find it interesting that we have some confirmation that height does increase the risk of certain conditions,” Dr. Wilson said. “While this is unlikely to dramatically change practice, they may be a bit more diligent in looking for other relevant risk factors for the diseases found in this study in their very tall patients.”

The research was funded by the U.S. Department of Veteran Affairs, the Boettcher Foundation’s Webb-Waring Biomedical Research Program, the National Institutes of Health, and a Linda Pechenik Montague Investigator award. One study coauthor is a full-time employee of Novartis Institutes of Biomedical Research. The other authors and Dr. Wilson had no disclosures.

*Correction, 6/29/22: An earlier version of this article misstated the average age of Black participants.