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Early trials underway to test mushrooms as COVID treatment
The U.S. Food and Drug Administration (FDA) approved the MACH-19 trials (the acronym for Mushrooms and Chinese Herbs for COVID-19) after researchers applied for approval in April.
The first two phase 1 randomized, double-blind, placebo-controlled trials have begun at UCLA and the University of California San Diego to treat COVID-19 patients quarantining at home with mild to moderate symptoms. A third trial is investigating the use of medicinal mushrooms as an adjuvant to COVID-19 vaccines.
The researchers have also launched a fourth trial testing the mushrooms against placebo as an adjunct to a COVID booster shot. It looks at the effect in people who have comorbidities that would reduce their vaccine response. An article in JAMA described the trials.
The two mushroom varieties being tested — turkey tail and agarikon — are available as over-the-counter supplements, according to the report. They are a separate class from hallucinogenic or “magic” mushrooms being tested for other uses in medicine.
“They are not even as psychoactive as a cup of tea,” Gordon Saxe, MD, PhD, MPH, principal investigator for the MACH-19 trials, told this news organization.
For each of the MACH-19 treatment trials, researchers plan to recruit 66 people who are quarantined at home with mild to moderate COVID-19 symptoms. Participants will be randomly assigned either to receive the mushroom combination, the Chinese herbs, or a placebo for 2 weeks, according to the JAMA paper.
D. Craig Hopp, PhD, deputy director of the division of extramural research at the National Center for Complementary and Integrative Health (NCCIH), told JAMA in an interview that he was “mildly concerned” about using mushrooms to treat people with active SARS-CoV-2 infection.
“We know that a cytokine storm poses the greatest risk of COVID mortality, not the virus itself,” Dr. Hopp said. “The danger is that an immune-stimulating agent like mushrooms might supercharge an individual’s immune response, leading to a cytokine storm.”
Stephen Wilson, PhD, an immunologist who consulted on the trials when he was chief operating officer of the La Jolla Institute for Immunology, says in the JAMA article that a cytokine storm is unlikely for these patients because the mushroom components “don’t mimic inflammatory cytokines.” Dr. Wilson is now chief innovations officer at Statera Biopharma.
“We think the mushrooms increase the number of immunologic opportunities to better see and respond to a specific threat. In the doses used, the mushrooms perturb the immune system in a good way but fall far short of driving hyper or sustained inflammation,” Dr. Wilson said.
Dr. Saxe said the FDA process was extensive and rigorous and FDA investigators also asked about potential cytokine storms before approving the trials. Cytokine storm is not an issue with a healthy response, Dr. Saxe pointed out. It’s a response that’s not balanced or modulated.
“Mushrooms are immunomodulatory,” he said. “In some ways they very specifically enhance immunity. In other ways they calm down overimmunity.” Dr. Saxe noted that they did a sentinel study for the storm potential “and we didn’t see any evidence for it.”
“Not a crazy concept”
Dr. Saxe pointed out that one of the mushrooms in the combo they use — agarikon — was used to treat pulmonary infections 2,300 years ago.
“Hippocrates, the father of western medicine, used mushrooms,” he said. “Penicillin comes from fungi. It’s not a crazy concept. Most people who oppose this or are skeptics — to some extent, it’s a lack of information.”
Dr. Saxe explained that there are receptors on human cells that bind specific mushroom polysaccharides.
“There’s a hand-in-glove fit there,” Dr. Saxe said, and that’s one way mushrooms can modulate immune cell behavior, which could have an effect against SARS-CoV-2.
Daniel Kuritzkes, MD, chief of the division of infectious diseases at Brigham and Women’s Hospital in Boston, who was not part of the study, told this news organization that he wasn’t surprised the FDA approved moving forward with the trials.
“As long as you can demonstrate that there is a rationale for doing the trial and that you have some safety data or a plan to collect safety data, they are fairly liberal about doing early-phase studies. It would be a much different issue, I think, if they were proposing to do a study for actual licensing or approval of a drug,” Dr. Kuritzkes said.
As yet unanswered, he noted, is which component of the mushrooms or herbs is having the effect. It will be a challenge, he said, to know from one batch of the compound to the next that you have the same amount of material and that it’s going to have the same potency among lots.
Another challenge is how the mushrooms and herbs might interact with other therapies, Dr. Kuritzkes said.
He gave the example of St. John’s Wort, which has been problematic in HIV treatment.
“If someone is on certain HIV medicines and they also are taking St. John’s Wort, they basically are causing the liver to eat up the HIV drug and they don’t get adequate levels of the drug,” he said.
Though there are many challenges ahead, Dr. Kuritzkes acknowledged, but added that “this is a great starting point.”
He, too, pointed out that many traditional medicines were discovered from plants.
“The most famous of these is quinine, which came from cinchona bark that was used to treat malaria.” Dr. Kuritzkes said. Digitalis, often used to treat heart failure, comes from the fox glove plant, he added.
He said it’s important to remember that “people shouldn’t be seeking experimental therapies in place of proven therapies, they should be thinking of them in addition to proven therapies.»
A co-author reports an investment in the dietary supplement company Mycomedica Life Sciences, for which he also serves as an unpaid scientific adviser. Another co-author is a medical consultant for Evergreen Herbs and Medical Supplies. Dr. Hopp, Dr. Saxe, and Dr. Wilson have disclosed no relevant financial relationships. Dr. Kuritzkes consults for Merck, Gilead, and GlaxoSmithKline.
The U.S. Food and Drug Administration (FDA) approved the MACH-19 trials (the acronym for Mushrooms and Chinese Herbs for COVID-19) after researchers applied for approval in April.
The first two phase 1 randomized, double-blind, placebo-controlled trials have begun at UCLA and the University of California San Diego to treat COVID-19 patients quarantining at home with mild to moderate symptoms. A third trial is investigating the use of medicinal mushrooms as an adjuvant to COVID-19 vaccines.
The researchers have also launched a fourth trial testing the mushrooms against placebo as an adjunct to a COVID booster shot. It looks at the effect in people who have comorbidities that would reduce their vaccine response. An article in JAMA described the trials.
The two mushroom varieties being tested — turkey tail and agarikon — are available as over-the-counter supplements, according to the report. They are a separate class from hallucinogenic or “magic” mushrooms being tested for other uses in medicine.
“They are not even as psychoactive as a cup of tea,” Gordon Saxe, MD, PhD, MPH, principal investigator for the MACH-19 trials, told this news organization.
For each of the MACH-19 treatment trials, researchers plan to recruit 66 people who are quarantined at home with mild to moderate COVID-19 symptoms. Participants will be randomly assigned either to receive the mushroom combination, the Chinese herbs, or a placebo for 2 weeks, according to the JAMA paper.
D. Craig Hopp, PhD, deputy director of the division of extramural research at the National Center for Complementary and Integrative Health (NCCIH), told JAMA in an interview that he was “mildly concerned” about using mushrooms to treat people with active SARS-CoV-2 infection.
“We know that a cytokine storm poses the greatest risk of COVID mortality, not the virus itself,” Dr. Hopp said. “The danger is that an immune-stimulating agent like mushrooms might supercharge an individual’s immune response, leading to a cytokine storm.”
Stephen Wilson, PhD, an immunologist who consulted on the trials when he was chief operating officer of the La Jolla Institute for Immunology, says in the JAMA article that a cytokine storm is unlikely for these patients because the mushroom components “don’t mimic inflammatory cytokines.” Dr. Wilson is now chief innovations officer at Statera Biopharma.
“We think the mushrooms increase the number of immunologic opportunities to better see and respond to a specific threat. In the doses used, the mushrooms perturb the immune system in a good way but fall far short of driving hyper or sustained inflammation,” Dr. Wilson said.
Dr. Saxe said the FDA process was extensive and rigorous and FDA investigators also asked about potential cytokine storms before approving the trials. Cytokine storm is not an issue with a healthy response, Dr. Saxe pointed out. It’s a response that’s not balanced or modulated.
“Mushrooms are immunomodulatory,” he said. “In some ways they very specifically enhance immunity. In other ways they calm down overimmunity.” Dr. Saxe noted that they did a sentinel study for the storm potential “and we didn’t see any evidence for it.”
“Not a crazy concept”
Dr. Saxe pointed out that one of the mushrooms in the combo they use — agarikon — was used to treat pulmonary infections 2,300 years ago.
“Hippocrates, the father of western medicine, used mushrooms,” he said. “Penicillin comes from fungi. It’s not a crazy concept. Most people who oppose this or are skeptics — to some extent, it’s a lack of information.”
Dr. Saxe explained that there are receptors on human cells that bind specific mushroom polysaccharides.
“There’s a hand-in-glove fit there,” Dr. Saxe said, and that’s one way mushrooms can modulate immune cell behavior, which could have an effect against SARS-CoV-2.
Daniel Kuritzkes, MD, chief of the division of infectious diseases at Brigham and Women’s Hospital in Boston, who was not part of the study, told this news organization that he wasn’t surprised the FDA approved moving forward with the trials.
“As long as you can demonstrate that there is a rationale for doing the trial and that you have some safety data or a plan to collect safety data, they are fairly liberal about doing early-phase studies. It would be a much different issue, I think, if they were proposing to do a study for actual licensing or approval of a drug,” Dr. Kuritzkes said.
As yet unanswered, he noted, is which component of the mushrooms or herbs is having the effect. It will be a challenge, he said, to know from one batch of the compound to the next that you have the same amount of material and that it’s going to have the same potency among lots.
Another challenge is how the mushrooms and herbs might interact with other therapies, Dr. Kuritzkes said.
He gave the example of St. John’s Wort, which has been problematic in HIV treatment.
“If someone is on certain HIV medicines and they also are taking St. John’s Wort, they basically are causing the liver to eat up the HIV drug and they don’t get adequate levels of the drug,” he said.
Though there are many challenges ahead, Dr. Kuritzkes acknowledged, but added that “this is a great starting point.”
He, too, pointed out that many traditional medicines were discovered from plants.
“The most famous of these is quinine, which came from cinchona bark that was used to treat malaria.” Dr. Kuritzkes said. Digitalis, often used to treat heart failure, comes from the fox glove plant, he added.
He said it’s important to remember that “people shouldn’t be seeking experimental therapies in place of proven therapies, they should be thinking of them in addition to proven therapies.»
A co-author reports an investment in the dietary supplement company Mycomedica Life Sciences, for which he also serves as an unpaid scientific adviser. Another co-author is a medical consultant for Evergreen Herbs and Medical Supplies. Dr. Hopp, Dr. Saxe, and Dr. Wilson have disclosed no relevant financial relationships. Dr. Kuritzkes consults for Merck, Gilead, and GlaxoSmithKline.
The U.S. Food and Drug Administration (FDA) approved the MACH-19 trials (the acronym for Mushrooms and Chinese Herbs for COVID-19) after researchers applied for approval in April.
The first two phase 1 randomized, double-blind, placebo-controlled trials have begun at UCLA and the University of California San Diego to treat COVID-19 patients quarantining at home with mild to moderate symptoms. A third trial is investigating the use of medicinal mushrooms as an adjuvant to COVID-19 vaccines.
The researchers have also launched a fourth trial testing the mushrooms against placebo as an adjunct to a COVID booster shot. It looks at the effect in people who have comorbidities that would reduce their vaccine response. An article in JAMA described the trials.
The two mushroom varieties being tested — turkey tail and agarikon — are available as over-the-counter supplements, according to the report. They are a separate class from hallucinogenic or “magic” mushrooms being tested for other uses in medicine.
“They are not even as psychoactive as a cup of tea,” Gordon Saxe, MD, PhD, MPH, principal investigator for the MACH-19 trials, told this news organization.
For each of the MACH-19 treatment trials, researchers plan to recruit 66 people who are quarantined at home with mild to moderate COVID-19 symptoms. Participants will be randomly assigned either to receive the mushroom combination, the Chinese herbs, or a placebo for 2 weeks, according to the JAMA paper.
D. Craig Hopp, PhD, deputy director of the division of extramural research at the National Center for Complementary and Integrative Health (NCCIH), told JAMA in an interview that he was “mildly concerned” about using mushrooms to treat people with active SARS-CoV-2 infection.
“We know that a cytokine storm poses the greatest risk of COVID mortality, not the virus itself,” Dr. Hopp said. “The danger is that an immune-stimulating agent like mushrooms might supercharge an individual’s immune response, leading to a cytokine storm.”
Stephen Wilson, PhD, an immunologist who consulted on the trials when he was chief operating officer of the La Jolla Institute for Immunology, says in the JAMA article that a cytokine storm is unlikely for these patients because the mushroom components “don’t mimic inflammatory cytokines.” Dr. Wilson is now chief innovations officer at Statera Biopharma.
“We think the mushrooms increase the number of immunologic opportunities to better see and respond to a specific threat. In the doses used, the mushrooms perturb the immune system in a good way but fall far short of driving hyper or sustained inflammation,” Dr. Wilson said.
Dr. Saxe said the FDA process was extensive and rigorous and FDA investigators also asked about potential cytokine storms before approving the trials. Cytokine storm is not an issue with a healthy response, Dr. Saxe pointed out. It’s a response that’s not balanced or modulated.
“Mushrooms are immunomodulatory,” he said. “In some ways they very specifically enhance immunity. In other ways they calm down overimmunity.” Dr. Saxe noted that they did a sentinel study for the storm potential “and we didn’t see any evidence for it.”
“Not a crazy concept”
Dr. Saxe pointed out that one of the mushrooms in the combo they use — agarikon — was used to treat pulmonary infections 2,300 years ago.
“Hippocrates, the father of western medicine, used mushrooms,” he said. “Penicillin comes from fungi. It’s not a crazy concept. Most people who oppose this or are skeptics — to some extent, it’s a lack of information.”
Dr. Saxe explained that there are receptors on human cells that bind specific mushroom polysaccharides.
“There’s a hand-in-glove fit there,” Dr. Saxe said, and that’s one way mushrooms can modulate immune cell behavior, which could have an effect against SARS-CoV-2.
Daniel Kuritzkes, MD, chief of the division of infectious diseases at Brigham and Women’s Hospital in Boston, who was not part of the study, told this news organization that he wasn’t surprised the FDA approved moving forward with the trials.
“As long as you can demonstrate that there is a rationale for doing the trial and that you have some safety data or a plan to collect safety data, they are fairly liberal about doing early-phase studies. It would be a much different issue, I think, if they were proposing to do a study for actual licensing or approval of a drug,” Dr. Kuritzkes said.
As yet unanswered, he noted, is which component of the mushrooms or herbs is having the effect. It will be a challenge, he said, to know from one batch of the compound to the next that you have the same amount of material and that it’s going to have the same potency among lots.
Another challenge is how the mushrooms and herbs might interact with other therapies, Dr. Kuritzkes said.
He gave the example of St. John’s Wort, which has been problematic in HIV treatment.
“If someone is on certain HIV medicines and they also are taking St. John’s Wort, they basically are causing the liver to eat up the HIV drug and they don’t get adequate levels of the drug,” he said.
Though there are many challenges ahead, Dr. Kuritzkes acknowledged, but added that “this is a great starting point.”
He, too, pointed out that many traditional medicines were discovered from plants.
“The most famous of these is quinine, which came from cinchona bark that was used to treat malaria.” Dr. Kuritzkes said. Digitalis, often used to treat heart failure, comes from the fox glove plant, he added.
He said it’s important to remember that “people shouldn’t be seeking experimental therapies in place of proven therapies, they should be thinking of them in addition to proven therapies.»
A co-author reports an investment in the dietary supplement company Mycomedica Life Sciences, for which he also serves as an unpaid scientific adviser. Another co-author is a medical consultant for Evergreen Herbs and Medical Supplies. Dr. Hopp, Dr. Saxe, and Dr. Wilson have disclosed no relevant financial relationships. Dr. Kuritzkes consults for Merck, Gilead, and GlaxoSmithKline.
FROM JAMA
Antihypertensives tied to lower Alzheimer’s disease pathology
new research shows.
Investigators found that use of any antihypertensive was associated with an 18% decrease in Alzheimer’s disease neuropathology, a 22% decrease in Lewy bodies, and a 40% decrease in TAR DNA-binding protein 43 (TDP-43), a protein relevant to several neurodegenerative diseases. Diuretics in particular appear to be driving the association.
Although diuretics might be a better option for preventing brain neuropathology, it’s too early to make firm recommendations solely on the basis of these results as to what blood pressure–lowering agent to prescribe a particular patient, said study investigator Ahmad Sajjadi, MD, assistant professor of neurology, University of California, Irvine.
“This is early stages and preliminary results,” said Dr. Sajjadi, “but it’s food for thought.”
The findings were presented at the 2021 annual meeting of the American Neurological Association.
Autopsy data
The study included 3,315 individuals who had donated their brains to research. The National Alzheimer’s Coordinating Center maintains a database that includes data from 32 Alzheimer’s disease research centers in the United States. Participants in the study must have visited one of these centers within 4 years of death. Each person whose brain was included in the study underwent two or more BP measurements on at least 50% of visits.
The mean age at death was 81.7 years, and the mean time between last visit and death was 13.1 months. About 44.4% of participants were women, 57.0% had at least a college degree, and 84.7% had cognitive impairment.
Researchers defined hypertension as systolic BP of at least 130 mm Hg, diastolic BP of at least 80 mm Hg, mean arterial pressure of at least 100 mm Hg, and pulse pressure of at least 60 mm Hg.
Antihypertensive medications that were evaluated included antiadrenergic agents, ACE inhibitors, angiotensin II receptor blockers, beta blockers, calcium channel blockers, diuretics, vasodilators, and combination therapies.
The investigators assessed the number of neuropathologies. In addition to Alzheimer’s disease neuropathology, which included amyloid-beta, tau, Lewy bodies, and TDP-43, they also assessed for atherosclerosis, arteriolosclerosis, cerebral amyloid angiopathy, frontotemporal lobar degeneration, and hippocampal sclerosis.
Results showed that use of any antihypertensive was associated with a lower likelihood of Alzheimer’s disease neuropathology (odds ratio, 0.822), Lewy bodies (OR, 0.786), and TDP 43 (OR, 0.597). Use of antihypertensives was also associated with increased odds of atherosclerosis (OR, 1.217) (all P < .5.)
The study showed that hypertensive systolic BP was associated with higher odds of Alzheimer’s disease neuropathology (OR, 1.28; P < .5).
Differences by drug type
Results differed in accordance with antihypertensive class. Angiotensin II receptor blockers decreased the odds of Alzheimer’s disease neuropathology by 40% (OR, 0.60; P < .5). Diuretics decreased the odds of Alzheimer’s disease by 36% (OR, 0.64; P < .001) and of hippocampal sclerosis by 32% (OR, 0.68; P < .5).
“We see diuretics are a main driver, especially for lower odds of Alzheimer’s disease and lower odds of hippocampal sclerosis,” said lead author Hanna L. Nguyen, a first-year medical student at the University of California, Irvine.
The results indicate that it is the medications, not BP levels, that account for these associations, she added.
One potential mechanism linking antihypertensives to brain pathology is that with these agents, BP is maintained in the target zone. Blood pressure that’s too high can damage blood vessels, whereas BP that’s too low may result in less than adequate perfusion, said Ms. Nguyen.
These medications may also alter pathways leading to degeneration and could, for example, affect the apo E mechanism of Alzheimer’s disease, she added.
The researchers plan to conduct subset analyses using apo E genetic status and age of death.
Although this is a “massive database,” it has limitations. For example, said Dr. Sajjadi, it does not reveal when patients started taking BP medication, how long they had been taking it, or why.
“We don’t know the exact the reason they were taking these medications. Was it just hypertension, or did they also have heart disease, stroke, a kidney problem, or was there another explanation,” he said.
Following the study presentation, session comoderator Krish Sathian, MBBS, PhD, professor of neurology, neural, and behavioral sciences, and psychology and director of the Neuroscience Institute, Penn State University, Hershey, called this work “fascinating. It provides a lot of data that really touches on everyday practice,” inasmuch as clinicians often prescribe antihypertensive medications and see patients with these kinds of brain disorders.
The investigators and Dr. Sathian reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
new research shows.
Investigators found that use of any antihypertensive was associated with an 18% decrease in Alzheimer’s disease neuropathology, a 22% decrease in Lewy bodies, and a 40% decrease in TAR DNA-binding protein 43 (TDP-43), a protein relevant to several neurodegenerative diseases. Diuretics in particular appear to be driving the association.
Although diuretics might be a better option for preventing brain neuropathology, it’s too early to make firm recommendations solely on the basis of these results as to what blood pressure–lowering agent to prescribe a particular patient, said study investigator Ahmad Sajjadi, MD, assistant professor of neurology, University of California, Irvine.
“This is early stages and preliminary results,” said Dr. Sajjadi, “but it’s food for thought.”
The findings were presented at the 2021 annual meeting of the American Neurological Association.
Autopsy data
The study included 3,315 individuals who had donated their brains to research. The National Alzheimer’s Coordinating Center maintains a database that includes data from 32 Alzheimer’s disease research centers in the United States. Participants in the study must have visited one of these centers within 4 years of death. Each person whose brain was included in the study underwent two or more BP measurements on at least 50% of visits.
The mean age at death was 81.7 years, and the mean time between last visit and death was 13.1 months. About 44.4% of participants were women, 57.0% had at least a college degree, and 84.7% had cognitive impairment.
Researchers defined hypertension as systolic BP of at least 130 mm Hg, diastolic BP of at least 80 mm Hg, mean arterial pressure of at least 100 mm Hg, and pulse pressure of at least 60 mm Hg.
Antihypertensive medications that were evaluated included antiadrenergic agents, ACE inhibitors, angiotensin II receptor blockers, beta blockers, calcium channel blockers, diuretics, vasodilators, and combination therapies.
The investigators assessed the number of neuropathologies. In addition to Alzheimer’s disease neuropathology, which included amyloid-beta, tau, Lewy bodies, and TDP-43, they also assessed for atherosclerosis, arteriolosclerosis, cerebral amyloid angiopathy, frontotemporal lobar degeneration, and hippocampal sclerosis.
Results showed that use of any antihypertensive was associated with a lower likelihood of Alzheimer’s disease neuropathology (odds ratio, 0.822), Lewy bodies (OR, 0.786), and TDP 43 (OR, 0.597). Use of antihypertensives was also associated with increased odds of atherosclerosis (OR, 1.217) (all P < .5.)
The study showed that hypertensive systolic BP was associated with higher odds of Alzheimer’s disease neuropathology (OR, 1.28; P < .5).
Differences by drug type
Results differed in accordance with antihypertensive class. Angiotensin II receptor blockers decreased the odds of Alzheimer’s disease neuropathology by 40% (OR, 0.60; P < .5). Diuretics decreased the odds of Alzheimer’s disease by 36% (OR, 0.64; P < .001) and of hippocampal sclerosis by 32% (OR, 0.68; P < .5).
“We see diuretics are a main driver, especially for lower odds of Alzheimer’s disease and lower odds of hippocampal sclerosis,” said lead author Hanna L. Nguyen, a first-year medical student at the University of California, Irvine.
The results indicate that it is the medications, not BP levels, that account for these associations, she added.
One potential mechanism linking antihypertensives to brain pathology is that with these agents, BP is maintained in the target zone. Blood pressure that’s too high can damage blood vessels, whereas BP that’s too low may result in less than adequate perfusion, said Ms. Nguyen.
These medications may also alter pathways leading to degeneration and could, for example, affect the apo E mechanism of Alzheimer’s disease, she added.
The researchers plan to conduct subset analyses using apo E genetic status and age of death.
Although this is a “massive database,” it has limitations. For example, said Dr. Sajjadi, it does not reveal when patients started taking BP medication, how long they had been taking it, or why.
“We don’t know the exact the reason they were taking these medications. Was it just hypertension, or did they also have heart disease, stroke, a kidney problem, or was there another explanation,” he said.
Following the study presentation, session comoderator Krish Sathian, MBBS, PhD, professor of neurology, neural, and behavioral sciences, and psychology and director of the Neuroscience Institute, Penn State University, Hershey, called this work “fascinating. It provides a lot of data that really touches on everyday practice,” inasmuch as clinicians often prescribe antihypertensive medications and see patients with these kinds of brain disorders.
The investigators and Dr. Sathian reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
new research shows.
Investigators found that use of any antihypertensive was associated with an 18% decrease in Alzheimer’s disease neuropathology, a 22% decrease in Lewy bodies, and a 40% decrease in TAR DNA-binding protein 43 (TDP-43), a protein relevant to several neurodegenerative diseases. Diuretics in particular appear to be driving the association.
Although diuretics might be a better option for preventing brain neuropathology, it’s too early to make firm recommendations solely on the basis of these results as to what blood pressure–lowering agent to prescribe a particular patient, said study investigator Ahmad Sajjadi, MD, assistant professor of neurology, University of California, Irvine.
“This is early stages and preliminary results,” said Dr. Sajjadi, “but it’s food for thought.”
The findings were presented at the 2021 annual meeting of the American Neurological Association.
Autopsy data
The study included 3,315 individuals who had donated their brains to research. The National Alzheimer’s Coordinating Center maintains a database that includes data from 32 Alzheimer’s disease research centers in the United States. Participants in the study must have visited one of these centers within 4 years of death. Each person whose brain was included in the study underwent two or more BP measurements on at least 50% of visits.
The mean age at death was 81.7 years, and the mean time between last visit and death was 13.1 months. About 44.4% of participants were women, 57.0% had at least a college degree, and 84.7% had cognitive impairment.
Researchers defined hypertension as systolic BP of at least 130 mm Hg, diastolic BP of at least 80 mm Hg, mean arterial pressure of at least 100 mm Hg, and pulse pressure of at least 60 mm Hg.
Antihypertensive medications that were evaluated included antiadrenergic agents, ACE inhibitors, angiotensin II receptor blockers, beta blockers, calcium channel blockers, diuretics, vasodilators, and combination therapies.
The investigators assessed the number of neuropathologies. In addition to Alzheimer’s disease neuropathology, which included amyloid-beta, tau, Lewy bodies, and TDP-43, they also assessed for atherosclerosis, arteriolosclerosis, cerebral amyloid angiopathy, frontotemporal lobar degeneration, and hippocampal sclerosis.
Results showed that use of any antihypertensive was associated with a lower likelihood of Alzheimer’s disease neuropathology (odds ratio, 0.822), Lewy bodies (OR, 0.786), and TDP 43 (OR, 0.597). Use of antihypertensives was also associated with increased odds of atherosclerosis (OR, 1.217) (all P < .5.)
The study showed that hypertensive systolic BP was associated with higher odds of Alzheimer’s disease neuropathology (OR, 1.28; P < .5).
Differences by drug type
Results differed in accordance with antihypertensive class. Angiotensin II receptor blockers decreased the odds of Alzheimer’s disease neuropathology by 40% (OR, 0.60; P < .5). Diuretics decreased the odds of Alzheimer’s disease by 36% (OR, 0.64; P < .001) and of hippocampal sclerosis by 32% (OR, 0.68; P < .5).
“We see diuretics are a main driver, especially for lower odds of Alzheimer’s disease and lower odds of hippocampal sclerosis,” said lead author Hanna L. Nguyen, a first-year medical student at the University of California, Irvine.
The results indicate that it is the medications, not BP levels, that account for these associations, she added.
One potential mechanism linking antihypertensives to brain pathology is that with these agents, BP is maintained in the target zone. Blood pressure that’s too high can damage blood vessels, whereas BP that’s too low may result in less than adequate perfusion, said Ms. Nguyen.
These medications may also alter pathways leading to degeneration and could, for example, affect the apo E mechanism of Alzheimer’s disease, she added.
The researchers plan to conduct subset analyses using apo E genetic status and age of death.
Although this is a “massive database,” it has limitations. For example, said Dr. Sajjadi, it does not reveal when patients started taking BP medication, how long they had been taking it, or why.
“We don’t know the exact the reason they were taking these medications. Was it just hypertension, or did they also have heart disease, stroke, a kidney problem, or was there another explanation,” he said.
Following the study presentation, session comoderator Krish Sathian, MBBS, PhD, professor of neurology, neural, and behavioral sciences, and psychology and director of the Neuroscience Institute, Penn State University, Hershey, called this work “fascinating. It provides a lot of data that really touches on everyday practice,” inasmuch as clinicians often prescribe antihypertensive medications and see patients with these kinds of brain disorders.
The investigators and Dr. Sathian reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
FROM ANA 2021
FDA not recognizing efficacy of psychopharmacologic therapies
Many years ago, drug development in psychiatry turned to control of specific symptoms across disorders rather than within disorders, but regulatory agencies are still not yet on board, according to an expert psychopharmacologist outlining the ongoing evolution at the virtual Psychopharmacology Update presented by Current Psychiatry and the American Academy of Clinical Psychiatrists, sponsored by Medscape Live.
If this reorientation is going to lead to the broad indications the newer drugs likely deserve, which is control of specific types of symptoms regardless of the diagnosis, “we have to move the [Food and Drug Administration] along,” said Stephen M. Stahl, MD, PhD, chairman of the Neuroscience Institute and an adjunct professor of psychiatry at the University of California, San Diego.
On the side of drug development and clinical practice, the reorientation has already taken place. Dr. Stahl described numerous brain circuits known to produce symptoms when function is altered that are now treatment targets. This includes the ventral medial prefrontal cortex where deficient information processing leads to depression and the orbital frontal cortex where altered function leads to impulsivity.
“It is not like each part of the brain does a little bit of everything. Rather, each part of the brain has an assignment and duty and function,” Dr. Stahl explained. By addressing the disturbed signaling in brain circuits that lead to depression, impulsivity, agitation, or other symptoms, there is an opportunity for control, regardless of the psychiatric diagnosis with which the symptom is associated.
For example, Dr. Stahl predicted that pimavanserin, a highly selective 5-HT2A inverse agonist that is already approved for psychosis in Parkinson’s disease, is now likely to be approved for psychosis associated with other conditions on the basis of recent positive clinical studies in these other disorders.
Brexpiprazole, a serotonin-dopamine activity modulator already known to be useful for control of the agitation characteristic of schizophrenia, is now showing the same type of activity against agitation when it is associated with Alzheimer’s disease. Again, Dr. Stahl thinks this drug is on course for an indication across diseases once studies are conducted in each disease individually.
Another drug being evaluated for agitation, the N-methyl-D-aspartate receptor antagonist dextromethorphan bupropion, is also being tested for treatment of symptoms across multiple disorders, he reported.
However, the FDA has so far taken the position that each drug must be tested separately for a given symptom in each disorder for which it is being considered despite the underlying premise that it is the symptom, not the disease, that is important.
Unlike physiological diseases where symptoms, like a fever or abdominal cramps, are the product of a disease, psychiatric symptoms are the disease and a fundamental target – regardless of the DSM-based diagnosis.
To some degree, the symptoms of psychiatric disorders have always been the focus of treatment, but a pivot toward developing therapies that will control a symptom regardless of the underlying diagnosis is an important conceptual change. It is being made possible by advances in the detail with which the neuropathology of these symptoms is understood .
“By my count, 79 symptoms are described in DSM-5, but they are spread across hundreds of syndromes because they are grouped together in different ways,” Dr. Stahl observed.
He noted that clinicians make a diagnosis on the basis symptom groupings, but their interventions are selected to address the manifestations of the disease, not the disease itself.
“If you are a real psychopharmacologist treating real patients, you are treating the specific symptoms of the specific patient,” according to Dr. Stahl.
So far, the FDA has not made this leap, insisting on trials in these categorical disorders rather than permitting trial designs that allow benefit to be demonstrated against a symptom regardless of the syndrome with which it is associated.
Of egregious examples, Dr. Stahl recounted a recent trial of a 5-HT2 antagonist that looked so promising against psychosis in Alzheimer’s disease that the trialists enrolled patients with psychosis regardless of type of dementia, such as vascular dementia and Lewy body disease. The efficacy was impressive.
“It worked so well that they stopped the trial, but the FDA declined to approve it,” Dr. Stahl recounted. Despite clear evidence of benefit, the regulators insisted that the investigators needed to show a significant benefit in each condition individually.
While the trial investigators acknowledged that there was not enough power in the trial to show a statistically significant benefit in each category, they argued that the overall benefit and the consistent response across categories required them to stop the trial for ethical reasons.
“That’s your problem, the FDA said to the investigators,” according to Dr. Stahl.
The failure of the FDA to recognize the efficacy of psychopharmacologic therapies across symptoms regardless of the associated disease is a failure to stay current with an important evolution in medicine, Dr. Stahl indicated.
“What we have come to understand is the neurobiology of any given symptom is likely to be the same across disorders,” he said.
Agency’s arbitrary decisions cited
“I completely agree with Dr. Stahl,” said Henry A. Nasrallah, MD, professor of psychiatry, neurology, and neuroscience, University of Cincinnati.
In addition to the fact that symptoms are present across multiple categories, many patients manifest multiple symptoms at one time, Dr. Nasrallah pointed out. For neurodegenerative disorders associated with psychosis, depression, anxiety, aggression, and other symptoms, it is already well known that the heterogeneous symptoms “cannot be treated with a single drug,” he said. Rather different drugs targeting each symptom individually is essential for effective management.
Dr. Nasrallah, who chaired the Psychopharmacology Update meeting, has made this point many times in the past, including in his role as the editor of Current Psychiatry. In one editorial 10 years ago, he wrote that “it makes little sense for the FDA to mandate that a drug must work for a DSM diagnosis instead of specific symptoms.”
“The FDA must update its old policy, which has led to the widespread off-label use of psychiatric drugs, an artificial concept, simply because the FDA arbitrarily decided a long time ago that new drugs must be approved for a specific DSM diagnosis,” Dr. Nasrallah said.
Dr. Stahl reported financial relationships with more than 20 pharmaceutical companies, including those that are involved in the development of drugs included in his talk. Medscape Live and this news organization are owned by the same parent company.
Many years ago, drug development in psychiatry turned to control of specific symptoms across disorders rather than within disorders, but regulatory agencies are still not yet on board, according to an expert psychopharmacologist outlining the ongoing evolution at the virtual Psychopharmacology Update presented by Current Psychiatry and the American Academy of Clinical Psychiatrists, sponsored by Medscape Live.
If this reorientation is going to lead to the broad indications the newer drugs likely deserve, which is control of specific types of symptoms regardless of the diagnosis, “we have to move the [Food and Drug Administration] along,” said Stephen M. Stahl, MD, PhD, chairman of the Neuroscience Institute and an adjunct professor of psychiatry at the University of California, San Diego.
On the side of drug development and clinical practice, the reorientation has already taken place. Dr. Stahl described numerous brain circuits known to produce symptoms when function is altered that are now treatment targets. This includes the ventral medial prefrontal cortex where deficient information processing leads to depression and the orbital frontal cortex where altered function leads to impulsivity.
“It is not like each part of the brain does a little bit of everything. Rather, each part of the brain has an assignment and duty and function,” Dr. Stahl explained. By addressing the disturbed signaling in brain circuits that lead to depression, impulsivity, agitation, or other symptoms, there is an opportunity for control, regardless of the psychiatric diagnosis with which the symptom is associated.
For example, Dr. Stahl predicted that pimavanserin, a highly selective 5-HT2A inverse agonist that is already approved for psychosis in Parkinson’s disease, is now likely to be approved for psychosis associated with other conditions on the basis of recent positive clinical studies in these other disorders.
Brexpiprazole, a serotonin-dopamine activity modulator already known to be useful for control of the agitation characteristic of schizophrenia, is now showing the same type of activity against agitation when it is associated with Alzheimer’s disease. Again, Dr. Stahl thinks this drug is on course for an indication across diseases once studies are conducted in each disease individually.
Another drug being evaluated for agitation, the N-methyl-D-aspartate receptor antagonist dextromethorphan bupropion, is also being tested for treatment of symptoms across multiple disorders, he reported.
However, the FDA has so far taken the position that each drug must be tested separately for a given symptom in each disorder for which it is being considered despite the underlying premise that it is the symptom, not the disease, that is important.
Unlike physiological diseases where symptoms, like a fever or abdominal cramps, are the product of a disease, psychiatric symptoms are the disease and a fundamental target – regardless of the DSM-based diagnosis.
To some degree, the symptoms of psychiatric disorders have always been the focus of treatment, but a pivot toward developing therapies that will control a symptom regardless of the underlying diagnosis is an important conceptual change. It is being made possible by advances in the detail with which the neuropathology of these symptoms is understood .
“By my count, 79 symptoms are described in DSM-5, but they are spread across hundreds of syndromes because they are grouped together in different ways,” Dr. Stahl observed.
He noted that clinicians make a diagnosis on the basis symptom groupings, but their interventions are selected to address the manifestations of the disease, not the disease itself.
“If you are a real psychopharmacologist treating real patients, you are treating the specific symptoms of the specific patient,” according to Dr. Stahl.
So far, the FDA has not made this leap, insisting on trials in these categorical disorders rather than permitting trial designs that allow benefit to be demonstrated against a symptom regardless of the syndrome with which it is associated.
Of egregious examples, Dr. Stahl recounted a recent trial of a 5-HT2 antagonist that looked so promising against psychosis in Alzheimer’s disease that the trialists enrolled patients with psychosis regardless of type of dementia, such as vascular dementia and Lewy body disease. The efficacy was impressive.
“It worked so well that they stopped the trial, but the FDA declined to approve it,” Dr. Stahl recounted. Despite clear evidence of benefit, the regulators insisted that the investigators needed to show a significant benefit in each condition individually.
While the trial investigators acknowledged that there was not enough power in the trial to show a statistically significant benefit in each category, they argued that the overall benefit and the consistent response across categories required them to stop the trial for ethical reasons.
“That’s your problem, the FDA said to the investigators,” according to Dr. Stahl.
The failure of the FDA to recognize the efficacy of psychopharmacologic therapies across symptoms regardless of the associated disease is a failure to stay current with an important evolution in medicine, Dr. Stahl indicated.
“What we have come to understand is the neurobiology of any given symptom is likely to be the same across disorders,” he said.
Agency’s arbitrary decisions cited
“I completely agree with Dr. Stahl,” said Henry A. Nasrallah, MD, professor of psychiatry, neurology, and neuroscience, University of Cincinnati.
In addition to the fact that symptoms are present across multiple categories, many patients manifest multiple symptoms at one time, Dr. Nasrallah pointed out. For neurodegenerative disorders associated with psychosis, depression, anxiety, aggression, and other symptoms, it is already well known that the heterogeneous symptoms “cannot be treated with a single drug,” he said. Rather different drugs targeting each symptom individually is essential for effective management.
Dr. Nasrallah, who chaired the Psychopharmacology Update meeting, has made this point many times in the past, including in his role as the editor of Current Psychiatry. In one editorial 10 years ago, he wrote that “it makes little sense for the FDA to mandate that a drug must work for a DSM diagnosis instead of specific symptoms.”
“The FDA must update its old policy, which has led to the widespread off-label use of psychiatric drugs, an artificial concept, simply because the FDA arbitrarily decided a long time ago that new drugs must be approved for a specific DSM diagnosis,” Dr. Nasrallah said.
Dr. Stahl reported financial relationships with more than 20 pharmaceutical companies, including those that are involved in the development of drugs included in his talk. Medscape Live and this news organization are owned by the same parent company.
Many years ago, drug development in psychiatry turned to control of specific symptoms across disorders rather than within disorders, but regulatory agencies are still not yet on board, according to an expert psychopharmacologist outlining the ongoing evolution at the virtual Psychopharmacology Update presented by Current Psychiatry and the American Academy of Clinical Psychiatrists, sponsored by Medscape Live.
If this reorientation is going to lead to the broad indications the newer drugs likely deserve, which is control of specific types of symptoms regardless of the diagnosis, “we have to move the [Food and Drug Administration] along,” said Stephen M. Stahl, MD, PhD, chairman of the Neuroscience Institute and an adjunct professor of psychiatry at the University of California, San Diego.
On the side of drug development and clinical practice, the reorientation has already taken place. Dr. Stahl described numerous brain circuits known to produce symptoms when function is altered that are now treatment targets. This includes the ventral medial prefrontal cortex where deficient information processing leads to depression and the orbital frontal cortex where altered function leads to impulsivity.
“It is not like each part of the brain does a little bit of everything. Rather, each part of the brain has an assignment and duty and function,” Dr. Stahl explained. By addressing the disturbed signaling in brain circuits that lead to depression, impulsivity, agitation, or other symptoms, there is an opportunity for control, regardless of the psychiatric diagnosis with which the symptom is associated.
For example, Dr. Stahl predicted that pimavanserin, a highly selective 5-HT2A inverse agonist that is already approved for psychosis in Parkinson’s disease, is now likely to be approved for psychosis associated with other conditions on the basis of recent positive clinical studies in these other disorders.
Brexpiprazole, a serotonin-dopamine activity modulator already known to be useful for control of the agitation characteristic of schizophrenia, is now showing the same type of activity against agitation when it is associated with Alzheimer’s disease. Again, Dr. Stahl thinks this drug is on course for an indication across diseases once studies are conducted in each disease individually.
Another drug being evaluated for agitation, the N-methyl-D-aspartate receptor antagonist dextromethorphan bupropion, is also being tested for treatment of symptoms across multiple disorders, he reported.
However, the FDA has so far taken the position that each drug must be tested separately for a given symptom in each disorder for which it is being considered despite the underlying premise that it is the symptom, not the disease, that is important.
Unlike physiological diseases where symptoms, like a fever or abdominal cramps, are the product of a disease, psychiatric symptoms are the disease and a fundamental target – regardless of the DSM-based diagnosis.
To some degree, the symptoms of psychiatric disorders have always been the focus of treatment, but a pivot toward developing therapies that will control a symptom regardless of the underlying diagnosis is an important conceptual change. It is being made possible by advances in the detail with which the neuropathology of these symptoms is understood .
“By my count, 79 symptoms are described in DSM-5, but they are spread across hundreds of syndromes because they are grouped together in different ways,” Dr. Stahl observed.
He noted that clinicians make a diagnosis on the basis symptom groupings, but their interventions are selected to address the manifestations of the disease, not the disease itself.
“If you are a real psychopharmacologist treating real patients, you are treating the specific symptoms of the specific patient,” according to Dr. Stahl.
So far, the FDA has not made this leap, insisting on trials in these categorical disorders rather than permitting trial designs that allow benefit to be demonstrated against a symptom regardless of the syndrome with which it is associated.
Of egregious examples, Dr. Stahl recounted a recent trial of a 5-HT2 antagonist that looked so promising against psychosis in Alzheimer’s disease that the trialists enrolled patients with psychosis regardless of type of dementia, such as vascular dementia and Lewy body disease. The efficacy was impressive.
“It worked so well that they stopped the trial, but the FDA declined to approve it,” Dr. Stahl recounted. Despite clear evidence of benefit, the regulators insisted that the investigators needed to show a significant benefit in each condition individually.
While the trial investigators acknowledged that there was not enough power in the trial to show a statistically significant benefit in each category, they argued that the overall benefit and the consistent response across categories required them to stop the trial for ethical reasons.
“That’s your problem, the FDA said to the investigators,” according to Dr. Stahl.
The failure of the FDA to recognize the efficacy of psychopharmacologic therapies across symptoms regardless of the associated disease is a failure to stay current with an important evolution in medicine, Dr. Stahl indicated.
“What we have come to understand is the neurobiology of any given symptom is likely to be the same across disorders,” he said.
Agency’s arbitrary decisions cited
“I completely agree with Dr. Stahl,” said Henry A. Nasrallah, MD, professor of psychiatry, neurology, and neuroscience, University of Cincinnati.
In addition to the fact that symptoms are present across multiple categories, many patients manifest multiple symptoms at one time, Dr. Nasrallah pointed out. For neurodegenerative disorders associated with psychosis, depression, anxiety, aggression, and other symptoms, it is already well known that the heterogeneous symptoms “cannot be treated with a single drug,” he said. Rather different drugs targeting each symptom individually is essential for effective management.
Dr. Nasrallah, who chaired the Psychopharmacology Update meeting, has made this point many times in the past, including in his role as the editor of Current Psychiatry. In one editorial 10 years ago, he wrote that “it makes little sense for the FDA to mandate that a drug must work for a DSM diagnosis instead of specific symptoms.”
“The FDA must update its old policy, which has led to the widespread off-label use of psychiatric drugs, an artificial concept, simply because the FDA arbitrarily decided a long time ago that new drugs must be approved for a specific DSM diagnosis,” Dr. Nasrallah said.
Dr. Stahl reported financial relationships with more than 20 pharmaceutical companies, including those that are involved in the development of drugs included in his talk. Medscape Live and this news organization are owned by the same parent company.
FROM PSYCHOPHARMACOLOGY UPDATE
Patients given NSAIDs over antiemetics for headaches spend less time in the ED
based on data from approximately 7,000 patients.
Headache is the fourth-most common chief complaint in the ED, accounting for approximately 3% of all ED visits, said Philip Wang, a medical student at the Cleveland Clinic, in a presentation at the annual meeting of the American College of Emergency Physicians.
A variety of pharmacotherapies are used to manage headache, which leads to a range of resource use, he said.
To understand the association between route of drug administration and length of ED stay, Mr. Wang and colleagues reviewed data from 7,233 visits by 6,715 patients at any of the 21 Cleveland Clinic Health System EDs in 2018 with headache as the primary discharge diagnosis. Patients admitted to the hospital were excluded; those treated with opioids, antiemetics, and/or NSAIDs were included. The average age of the study population was 31 years, 57% were White, and approximately half were Medicaid or Medicare patients.
Approximately 68% of patients received antiemetics, 66.8% received NSAIDs, and 9.8% received opioids. Approximately 42% of patients received parenteral-only treatment and 42% received oral-only treatment; 15% received mixed treatment. The average length of ED stay was 202 minutes.
In a multivariate analysis adjusted for sex, age, income, race, insurance status, ED type, and arrival time, treatment with oral drugs only was associated with an 11% reduction of length of stay, compared with treatment with parenteral medication only (P < .001). However, the length of stay for patients treated with mixed route of administration was 10% longer, compared with parenteral only (P < .001).
In terms of drug class (a secondary outcome), patients treated with opioids had a 10% increase in length of stay (P < .01) and those treated with antiemetics had a 14% increase in length of stay; however, patients treated with NSAIDs had a 7% decrease in length of stay.
The study findings were limited in part by the challenge of isolating patients presenting with a primary headache diagnosis, Mr. Wang noted in the presentation.
The challenge of controlling for all the potential factors impacting length of stay, which is “provider, resource, and situation dependent,” is an additional limitation, he said.
However, the results show that route of administration has a significant impact on length of ED stay in patients presenting with headache, he concluded.
The study received no outside funding. The researchers disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
based on data from approximately 7,000 patients.
Headache is the fourth-most common chief complaint in the ED, accounting for approximately 3% of all ED visits, said Philip Wang, a medical student at the Cleveland Clinic, in a presentation at the annual meeting of the American College of Emergency Physicians.
A variety of pharmacotherapies are used to manage headache, which leads to a range of resource use, he said.
To understand the association between route of drug administration and length of ED stay, Mr. Wang and colleagues reviewed data from 7,233 visits by 6,715 patients at any of the 21 Cleveland Clinic Health System EDs in 2018 with headache as the primary discharge diagnosis. Patients admitted to the hospital were excluded; those treated with opioids, antiemetics, and/or NSAIDs were included. The average age of the study population was 31 years, 57% were White, and approximately half were Medicaid or Medicare patients.
Approximately 68% of patients received antiemetics, 66.8% received NSAIDs, and 9.8% received opioids. Approximately 42% of patients received parenteral-only treatment and 42% received oral-only treatment; 15% received mixed treatment. The average length of ED stay was 202 minutes.
In a multivariate analysis adjusted for sex, age, income, race, insurance status, ED type, and arrival time, treatment with oral drugs only was associated with an 11% reduction of length of stay, compared with treatment with parenteral medication only (P < .001). However, the length of stay for patients treated with mixed route of administration was 10% longer, compared with parenteral only (P < .001).
In terms of drug class (a secondary outcome), patients treated with opioids had a 10% increase in length of stay (P < .01) and those treated with antiemetics had a 14% increase in length of stay; however, patients treated with NSAIDs had a 7% decrease in length of stay.
The study findings were limited in part by the challenge of isolating patients presenting with a primary headache diagnosis, Mr. Wang noted in the presentation.
The challenge of controlling for all the potential factors impacting length of stay, which is “provider, resource, and situation dependent,” is an additional limitation, he said.
However, the results show that route of administration has a significant impact on length of ED stay in patients presenting with headache, he concluded.
The study received no outside funding. The researchers disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
based on data from approximately 7,000 patients.
Headache is the fourth-most common chief complaint in the ED, accounting for approximately 3% of all ED visits, said Philip Wang, a medical student at the Cleveland Clinic, in a presentation at the annual meeting of the American College of Emergency Physicians.
A variety of pharmacotherapies are used to manage headache, which leads to a range of resource use, he said.
To understand the association between route of drug administration and length of ED stay, Mr. Wang and colleagues reviewed data from 7,233 visits by 6,715 patients at any of the 21 Cleveland Clinic Health System EDs in 2018 with headache as the primary discharge diagnosis. Patients admitted to the hospital were excluded; those treated with opioids, antiemetics, and/or NSAIDs were included. The average age of the study population was 31 years, 57% were White, and approximately half were Medicaid or Medicare patients.
Approximately 68% of patients received antiemetics, 66.8% received NSAIDs, and 9.8% received opioids. Approximately 42% of patients received parenteral-only treatment and 42% received oral-only treatment; 15% received mixed treatment. The average length of ED stay was 202 minutes.
In a multivariate analysis adjusted for sex, age, income, race, insurance status, ED type, and arrival time, treatment with oral drugs only was associated with an 11% reduction of length of stay, compared with treatment with parenteral medication only (P < .001). However, the length of stay for patients treated with mixed route of administration was 10% longer, compared with parenteral only (P < .001).
In terms of drug class (a secondary outcome), patients treated with opioids had a 10% increase in length of stay (P < .01) and those treated with antiemetics had a 14% increase in length of stay; however, patients treated with NSAIDs had a 7% decrease in length of stay.
The study findings were limited in part by the challenge of isolating patients presenting with a primary headache diagnosis, Mr. Wang noted in the presentation.
The challenge of controlling for all the potential factors impacting length of stay, which is “provider, resource, and situation dependent,” is an additional limitation, he said.
However, the results show that route of administration has a significant impact on length of ED stay in patients presenting with headache, he concluded.
The study received no outside funding. The researchers disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
FDA posts new websites on accelerated approvals for cancer drugs
, including a public list detailing cases where accelerated approvals have been rescinded for lack of evidence.
On Oct. 29, the Food and Drug Administration posted new websites detailing the status of oncology medicines given these special clearances:
- Ongoing | Cancer Accelerated Approvals
- Verified Clinical Benefit | Cancer Accelerated Approvals
- Withdrawn | Cancer Accelerated Approvals
The FDA’s cancer center also has created a web page called Project Confirm to provide more information on the way it uses accelerated approvals.
There has been increased concern about medicines cleared by accelerated approvals in recent years, culminating in an uproar over the controversial June approval of aducanumab (Aduhelm) for Alzheimer’s disease. This drew more attention to a debate already underway about how much data supports some of the indications for some cancer drugs.
Federal and state officials and advisers are putting more pressure on pharmaceutical companies to prove that medicines that are put on the market through accelerated approval do deliver meaningful benefits for patients.
In addition, earlier this month two of the top health advisers in Barack Obama’s administration proposed a new model through which Medicare could reduce payments for certain cancer drugs cleared through accelerated approvals – and even cut off reimbursements in cases where companies fail to deliver confirmatory evidence for expected benefits.
This “Pay for Drugs That Work Model” was proposed by Richard Frank, PhD, and Ezekiel Emanuel, MD, PhD, in a recent JAMA article. In their view, the FDA’s accelerated drug approval process allows for too many delays in obtaining answers as to whether medicines cleared this way provide expected benefits.
“The proposed Pay for Drugs That Work model could test a modified approach for incentivizing rapid completion of confirmatory trials to inform clinicians and patients about the true risks and benefits of new drugs and improve the value for money of cancer drugs that receive accelerated approval,” they wrote.
Excel files, regular updates
For the FDA, accelerated approvals require balancing an estimated potential benefit for people facing serious diseases (for example, cancer) against serious risks, including potentially exposing patients to costly, toxic drugs that will later be shown not to work for their conditions.
For many years, there has been significant pressure on the FDA to lean toward speedier approvals, with members of Congress, advocacy groups, and drugmakers advocating for broad use of surrogate data in deciding on clearances. The FDA posts biannual reports on its website that highlight how quickly approvals have been granted. But these biannual reports don’t provide much information on the status of accelerated-approval drugs, other than to say if they have been given full approval or withdrawn.
The newly created websites from the FDA’s oncology division appear to reflect growing public interest in knowing what standards the agency sets for confirmatory trials and what deadlines companies face to deliver evidence of significant benefit for their drugs.
The new sortable websites also include details on trials and have links to Excel files which will help researchers and others seeking to track patterns with accelerated approvals. The FDA said in an interview that it intends to update these sites when there are developments with accelerated approvals for cancer drugs, such as new clearances of this type, conversions to regular approvals, and withdrawn approvals.
Julia Beaver, MD, chief of medical oncology at the FDA’s Oncology Center of Excellence, and acting deputy director of the Office of Oncologic Diseases of the FDA’s Center for Drug Evaluation and Research, described the new websites as part of a “commitment to preserve the integrity” of the accelerated approval program.
“These new web pages will make information on our accelerated approvals more transparent,” Dr. Beaver said in an email to this news organization.
The FDA has been able to speed many medicines to market and clear additional uses for drugs already sold through the program, giving people earlier access in many cases to critical medicines, Dr. Beaver said.
More than 165 oncology indications have received accelerated approval, with almost half converted to regular approval in a median of 3 years. Less than 10% of these indications were withdrawn, Dr. Beaver said.
“Of those accelerated approvals that were converted to regular approval, many demonstrated survival advantages to patients with several types of cancer or provided meaningful therapeutic options where none previously existed,” she said.
However, Dr. Beaver also has made public the FDA’s concerns with what she and Richard Pazdur, MD, director of the Oncology Center of Excellence, have described as “dangling” accelerated approvals.
These are cases where the required trials did not end up confirming benefit for a medicine, yet the manufacturer did not move to withdraw an accelerated approval. The FDA’s cancer center has already announced that it is doing an “industry-wide evaluation of accelerated approvals in oncology in which confirmatory trials did not confirm clinical benefit.”
This stems in part from what can be called the FDA’s “growing pains” in its efforts to manage the rapidly changing landscape for these immunotherapy checkpoint inhibitors. This field of medicine has experienced an “unprecedented level of drug development” in recent years, FDA officials said in briefing materials for an Oncologic Drugs Advisory Committee (ODAC) meeting last April on dangling accelerated approvals.
A newly posted chart on withdrawn oncology accelerated approvals, posted by the FDA’s cancer division, makes it clear that the pace of these rescinded clearances has picked up. The chart lists a total 14 withdrawn indications of oncology accelerated approvals.
Six of these withdrawals happened this year.
There were two withdrawals in 2020, including the December withdrawal of nivolumab, (Opdivo) for a form of metastatic lung cancer.
Then there was a significant gap, with no withdrawals going back to 2013 (when there was one). There were two withdrawals in 2012 and three in 2011.
A version of this article first appeared on Medscape.com.
, including a public list detailing cases where accelerated approvals have been rescinded for lack of evidence.
On Oct. 29, the Food and Drug Administration posted new websites detailing the status of oncology medicines given these special clearances:
- Ongoing | Cancer Accelerated Approvals
- Verified Clinical Benefit | Cancer Accelerated Approvals
- Withdrawn | Cancer Accelerated Approvals
The FDA’s cancer center also has created a web page called Project Confirm to provide more information on the way it uses accelerated approvals.
There has been increased concern about medicines cleared by accelerated approvals in recent years, culminating in an uproar over the controversial June approval of aducanumab (Aduhelm) for Alzheimer’s disease. This drew more attention to a debate already underway about how much data supports some of the indications for some cancer drugs.
Federal and state officials and advisers are putting more pressure on pharmaceutical companies to prove that medicines that are put on the market through accelerated approval do deliver meaningful benefits for patients.
In addition, earlier this month two of the top health advisers in Barack Obama’s administration proposed a new model through which Medicare could reduce payments for certain cancer drugs cleared through accelerated approvals – and even cut off reimbursements in cases where companies fail to deliver confirmatory evidence for expected benefits.
This “Pay for Drugs That Work Model” was proposed by Richard Frank, PhD, and Ezekiel Emanuel, MD, PhD, in a recent JAMA article. In their view, the FDA’s accelerated drug approval process allows for too many delays in obtaining answers as to whether medicines cleared this way provide expected benefits.
“The proposed Pay for Drugs That Work model could test a modified approach for incentivizing rapid completion of confirmatory trials to inform clinicians and patients about the true risks and benefits of new drugs and improve the value for money of cancer drugs that receive accelerated approval,” they wrote.
Excel files, regular updates
For the FDA, accelerated approvals require balancing an estimated potential benefit for people facing serious diseases (for example, cancer) against serious risks, including potentially exposing patients to costly, toxic drugs that will later be shown not to work for their conditions.
For many years, there has been significant pressure on the FDA to lean toward speedier approvals, with members of Congress, advocacy groups, and drugmakers advocating for broad use of surrogate data in deciding on clearances. The FDA posts biannual reports on its website that highlight how quickly approvals have been granted. But these biannual reports don’t provide much information on the status of accelerated-approval drugs, other than to say if they have been given full approval or withdrawn.
The newly created websites from the FDA’s oncology division appear to reflect growing public interest in knowing what standards the agency sets for confirmatory trials and what deadlines companies face to deliver evidence of significant benefit for their drugs.
The new sortable websites also include details on trials and have links to Excel files which will help researchers and others seeking to track patterns with accelerated approvals. The FDA said in an interview that it intends to update these sites when there are developments with accelerated approvals for cancer drugs, such as new clearances of this type, conversions to regular approvals, and withdrawn approvals.
Julia Beaver, MD, chief of medical oncology at the FDA’s Oncology Center of Excellence, and acting deputy director of the Office of Oncologic Diseases of the FDA’s Center for Drug Evaluation and Research, described the new websites as part of a “commitment to preserve the integrity” of the accelerated approval program.
“These new web pages will make information on our accelerated approvals more transparent,” Dr. Beaver said in an email to this news organization.
The FDA has been able to speed many medicines to market and clear additional uses for drugs already sold through the program, giving people earlier access in many cases to critical medicines, Dr. Beaver said.
More than 165 oncology indications have received accelerated approval, with almost half converted to regular approval in a median of 3 years. Less than 10% of these indications were withdrawn, Dr. Beaver said.
“Of those accelerated approvals that were converted to regular approval, many demonstrated survival advantages to patients with several types of cancer or provided meaningful therapeutic options where none previously existed,” she said.
However, Dr. Beaver also has made public the FDA’s concerns with what she and Richard Pazdur, MD, director of the Oncology Center of Excellence, have described as “dangling” accelerated approvals.
These are cases where the required trials did not end up confirming benefit for a medicine, yet the manufacturer did not move to withdraw an accelerated approval. The FDA’s cancer center has already announced that it is doing an “industry-wide evaluation of accelerated approvals in oncology in which confirmatory trials did not confirm clinical benefit.”
This stems in part from what can be called the FDA’s “growing pains” in its efforts to manage the rapidly changing landscape for these immunotherapy checkpoint inhibitors. This field of medicine has experienced an “unprecedented level of drug development” in recent years, FDA officials said in briefing materials for an Oncologic Drugs Advisory Committee (ODAC) meeting last April on dangling accelerated approvals.
A newly posted chart on withdrawn oncology accelerated approvals, posted by the FDA’s cancer division, makes it clear that the pace of these rescinded clearances has picked up. The chart lists a total 14 withdrawn indications of oncology accelerated approvals.
Six of these withdrawals happened this year.
There were two withdrawals in 2020, including the December withdrawal of nivolumab, (Opdivo) for a form of metastatic lung cancer.
Then there was a significant gap, with no withdrawals going back to 2013 (when there was one). There were two withdrawals in 2012 and three in 2011.
A version of this article first appeared on Medscape.com.
, including a public list detailing cases where accelerated approvals have been rescinded for lack of evidence.
On Oct. 29, the Food and Drug Administration posted new websites detailing the status of oncology medicines given these special clearances:
- Ongoing | Cancer Accelerated Approvals
- Verified Clinical Benefit | Cancer Accelerated Approvals
- Withdrawn | Cancer Accelerated Approvals
The FDA’s cancer center also has created a web page called Project Confirm to provide more information on the way it uses accelerated approvals.
There has been increased concern about medicines cleared by accelerated approvals in recent years, culminating in an uproar over the controversial June approval of aducanumab (Aduhelm) for Alzheimer’s disease. This drew more attention to a debate already underway about how much data supports some of the indications for some cancer drugs.
Federal and state officials and advisers are putting more pressure on pharmaceutical companies to prove that medicines that are put on the market through accelerated approval do deliver meaningful benefits for patients.
In addition, earlier this month two of the top health advisers in Barack Obama’s administration proposed a new model through which Medicare could reduce payments for certain cancer drugs cleared through accelerated approvals – and even cut off reimbursements in cases where companies fail to deliver confirmatory evidence for expected benefits.
This “Pay for Drugs That Work Model” was proposed by Richard Frank, PhD, and Ezekiel Emanuel, MD, PhD, in a recent JAMA article. In their view, the FDA’s accelerated drug approval process allows for too many delays in obtaining answers as to whether medicines cleared this way provide expected benefits.
“The proposed Pay for Drugs That Work model could test a modified approach for incentivizing rapid completion of confirmatory trials to inform clinicians and patients about the true risks and benefits of new drugs and improve the value for money of cancer drugs that receive accelerated approval,” they wrote.
Excel files, regular updates
For the FDA, accelerated approvals require balancing an estimated potential benefit for people facing serious diseases (for example, cancer) against serious risks, including potentially exposing patients to costly, toxic drugs that will later be shown not to work for their conditions.
For many years, there has been significant pressure on the FDA to lean toward speedier approvals, with members of Congress, advocacy groups, and drugmakers advocating for broad use of surrogate data in deciding on clearances. The FDA posts biannual reports on its website that highlight how quickly approvals have been granted. But these biannual reports don’t provide much information on the status of accelerated-approval drugs, other than to say if they have been given full approval or withdrawn.
The newly created websites from the FDA’s oncology division appear to reflect growing public interest in knowing what standards the agency sets for confirmatory trials and what deadlines companies face to deliver evidence of significant benefit for their drugs.
The new sortable websites also include details on trials and have links to Excel files which will help researchers and others seeking to track patterns with accelerated approvals. The FDA said in an interview that it intends to update these sites when there are developments with accelerated approvals for cancer drugs, such as new clearances of this type, conversions to regular approvals, and withdrawn approvals.
Julia Beaver, MD, chief of medical oncology at the FDA’s Oncology Center of Excellence, and acting deputy director of the Office of Oncologic Diseases of the FDA’s Center for Drug Evaluation and Research, described the new websites as part of a “commitment to preserve the integrity” of the accelerated approval program.
“These new web pages will make information on our accelerated approvals more transparent,” Dr. Beaver said in an email to this news organization.
The FDA has been able to speed many medicines to market and clear additional uses for drugs already sold through the program, giving people earlier access in many cases to critical medicines, Dr. Beaver said.
More than 165 oncology indications have received accelerated approval, with almost half converted to regular approval in a median of 3 years. Less than 10% of these indications were withdrawn, Dr. Beaver said.
“Of those accelerated approvals that were converted to regular approval, many demonstrated survival advantages to patients with several types of cancer or provided meaningful therapeutic options where none previously existed,” she said.
However, Dr. Beaver also has made public the FDA’s concerns with what she and Richard Pazdur, MD, director of the Oncology Center of Excellence, have described as “dangling” accelerated approvals.
These are cases where the required trials did not end up confirming benefit for a medicine, yet the manufacturer did not move to withdraw an accelerated approval. The FDA’s cancer center has already announced that it is doing an “industry-wide evaluation of accelerated approvals in oncology in which confirmatory trials did not confirm clinical benefit.”
This stems in part from what can be called the FDA’s “growing pains” in its efforts to manage the rapidly changing landscape for these immunotherapy checkpoint inhibitors. This field of medicine has experienced an “unprecedented level of drug development” in recent years, FDA officials said in briefing materials for an Oncologic Drugs Advisory Committee (ODAC) meeting last April on dangling accelerated approvals.
A newly posted chart on withdrawn oncology accelerated approvals, posted by the FDA’s cancer division, makes it clear that the pace of these rescinded clearances has picked up. The chart lists a total 14 withdrawn indications of oncology accelerated approvals.
Six of these withdrawals happened this year.
There were two withdrawals in 2020, including the December withdrawal of nivolumab, (Opdivo) for a form of metastatic lung cancer.
Then there was a significant gap, with no withdrawals going back to 2013 (when there was one). There were two withdrawals in 2012 and three in 2011.
A version of this article first appeared on Medscape.com.
Antibiotic and glucocorticoid use before cancer therapy could have detrimental effect on outcomes
“Our results confirm the detrimental impact on oncological outcomes of antibiotics and glucocorticoids at a dosage ≥10 mg/day when given within 1 month before or after ICI onset,” Marie Kostine, MD, of Bordeaux (France) University Hospital, and colleagues wrote in the European Journal of Cancer. “Moreover, we show that other comedications may significantly alter the antitumoral response of ICI, such as proton pump inhibitors, psychotropic drugs, morphine, aspirin, and insulin, whereas others seem to have no impact.”
While immune checkpoint inhibitors are transforming the treatment of advanced cancers, gut microbiota composition is an important determinant of response to ICIs. Antibiotic treatments are known to alter the gut microbiota. Other drugs, such as proton pump inhibitors, antidiabetic agents, aspirin, NSAIDs, glucocorticoids, immunomodulators, psychotropic drugs, and analgesics, have been associated with changes in microbiome composition. Since many patients with advanced cancer are exposed to such drugs, this study looked at the possible influence of these comedications on the antitumor effect and safety of ICIs.
The observational study included 635 patients with advanced cancer treated with ICIs between May 2015 and September 2017. Comedications given within 1 month before or 1 month after the first administration of an ICI were reviewed from medical records. Psychotropic drugs, proton pump inhibitors, ACE inhibitors and/or angiotensin II receptor blockers (ARBs), glucocorticoids, antibiotics, statins, and morphine were the most prescribed comedications.
Baseline use of antibiotics, glucocorticoids greater than 10 mg/day, proton pump inhibitors, psychotropic drugs, morphine, and insulin was associated with decreased overall survival and tumor response. However, the coadministration of statins, ACE inhibitors and/or ARBs, NSAIDs, aspirin, and oral diabetes drugs did not impact patient outcomes. Additionally, treatments that altered the response to ICIs were associated with a decreased incidence of immune-related adverse events.
“These results suggest some practical advice in a patient candidate to ICIs,” the authors wrote. “First, antibiotic treatment should be limited to documented infections,” and “withdrawal of proton pump inhibitors and psychotropic drugs should be considered.
“Regarding baseline glucocorticoids use, the cutoff of 10 mg/day should be respected, considering the deleterious effect of higher dosage. Moreover, because of the lack of impact of inhaled or topical glucocorticoids, local routes should be preferred,” the authors wrote. “Conversely, our study brings reassuring data regarding the use of glucocorticoids for the management of immune-related adverse events, which did not alter ICI efficacy, confirming previous reports.”
The authors noted that the observational nature of the study does not allow any causal conclusion, adding that it remains unknown whether the effect of comedications “on cancer outcomes is thoroughly mediated by changes in microbiota or other immunomodulatory properties.”
Along with the retrospective design, study limitations included reporting bias and missing data on baseline comedications, specific prognostic factors and cancer outcomes.
The authors noted no conflicts of interest.
“Our results confirm the detrimental impact on oncological outcomes of antibiotics and glucocorticoids at a dosage ≥10 mg/day when given within 1 month before or after ICI onset,” Marie Kostine, MD, of Bordeaux (France) University Hospital, and colleagues wrote in the European Journal of Cancer. “Moreover, we show that other comedications may significantly alter the antitumoral response of ICI, such as proton pump inhibitors, psychotropic drugs, morphine, aspirin, and insulin, whereas others seem to have no impact.”
While immune checkpoint inhibitors are transforming the treatment of advanced cancers, gut microbiota composition is an important determinant of response to ICIs. Antibiotic treatments are known to alter the gut microbiota. Other drugs, such as proton pump inhibitors, antidiabetic agents, aspirin, NSAIDs, glucocorticoids, immunomodulators, psychotropic drugs, and analgesics, have been associated with changes in microbiome composition. Since many patients with advanced cancer are exposed to such drugs, this study looked at the possible influence of these comedications on the antitumor effect and safety of ICIs.
The observational study included 635 patients with advanced cancer treated with ICIs between May 2015 and September 2017. Comedications given within 1 month before or 1 month after the first administration of an ICI were reviewed from medical records. Psychotropic drugs, proton pump inhibitors, ACE inhibitors and/or angiotensin II receptor blockers (ARBs), glucocorticoids, antibiotics, statins, and morphine were the most prescribed comedications.
Baseline use of antibiotics, glucocorticoids greater than 10 mg/day, proton pump inhibitors, psychotropic drugs, morphine, and insulin was associated with decreased overall survival and tumor response. However, the coadministration of statins, ACE inhibitors and/or ARBs, NSAIDs, aspirin, and oral diabetes drugs did not impact patient outcomes. Additionally, treatments that altered the response to ICIs were associated with a decreased incidence of immune-related adverse events.
“These results suggest some practical advice in a patient candidate to ICIs,” the authors wrote. “First, antibiotic treatment should be limited to documented infections,” and “withdrawal of proton pump inhibitors and psychotropic drugs should be considered.
“Regarding baseline glucocorticoids use, the cutoff of 10 mg/day should be respected, considering the deleterious effect of higher dosage. Moreover, because of the lack of impact of inhaled or topical glucocorticoids, local routes should be preferred,” the authors wrote. “Conversely, our study brings reassuring data regarding the use of glucocorticoids for the management of immune-related adverse events, which did not alter ICI efficacy, confirming previous reports.”
The authors noted that the observational nature of the study does not allow any causal conclusion, adding that it remains unknown whether the effect of comedications “on cancer outcomes is thoroughly mediated by changes in microbiota or other immunomodulatory properties.”
Along with the retrospective design, study limitations included reporting bias and missing data on baseline comedications, specific prognostic factors and cancer outcomes.
The authors noted no conflicts of interest.
“Our results confirm the detrimental impact on oncological outcomes of antibiotics and glucocorticoids at a dosage ≥10 mg/day when given within 1 month before or after ICI onset,” Marie Kostine, MD, of Bordeaux (France) University Hospital, and colleagues wrote in the European Journal of Cancer. “Moreover, we show that other comedications may significantly alter the antitumoral response of ICI, such as proton pump inhibitors, psychotropic drugs, morphine, aspirin, and insulin, whereas others seem to have no impact.”
While immune checkpoint inhibitors are transforming the treatment of advanced cancers, gut microbiota composition is an important determinant of response to ICIs. Antibiotic treatments are known to alter the gut microbiota. Other drugs, such as proton pump inhibitors, antidiabetic agents, aspirin, NSAIDs, glucocorticoids, immunomodulators, psychotropic drugs, and analgesics, have been associated with changes in microbiome composition. Since many patients with advanced cancer are exposed to such drugs, this study looked at the possible influence of these comedications on the antitumor effect and safety of ICIs.
The observational study included 635 patients with advanced cancer treated with ICIs between May 2015 and September 2017. Comedications given within 1 month before or 1 month after the first administration of an ICI were reviewed from medical records. Psychotropic drugs, proton pump inhibitors, ACE inhibitors and/or angiotensin II receptor blockers (ARBs), glucocorticoids, antibiotics, statins, and morphine were the most prescribed comedications.
Baseline use of antibiotics, glucocorticoids greater than 10 mg/day, proton pump inhibitors, psychotropic drugs, morphine, and insulin was associated with decreased overall survival and tumor response. However, the coadministration of statins, ACE inhibitors and/or ARBs, NSAIDs, aspirin, and oral diabetes drugs did not impact patient outcomes. Additionally, treatments that altered the response to ICIs were associated with a decreased incidence of immune-related adverse events.
“These results suggest some practical advice in a patient candidate to ICIs,” the authors wrote. “First, antibiotic treatment should be limited to documented infections,” and “withdrawal of proton pump inhibitors and psychotropic drugs should be considered.
“Regarding baseline glucocorticoids use, the cutoff of 10 mg/day should be respected, considering the deleterious effect of higher dosage. Moreover, because of the lack of impact of inhaled or topical glucocorticoids, local routes should be preferred,” the authors wrote. “Conversely, our study brings reassuring data regarding the use of glucocorticoids for the management of immune-related adverse events, which did not alter ICI efficacy, confirming previous reports.”
The authors noted that the observational nature of the study does not allow any causal conclusion, adding that it remains unknown whether the effect of comedications “on cancer outcomes is thoroughly mediated by changes in microbiota or other immunomodulatory properties.”
Along with the retrospective design, study limitations included reporting bias and missing data on baseline comedications, specific prognostic factors and cancer outcomes.
The authors noted no conflicts of interest.
FROM THE EUROPEAN JOURNAL OF CANCER
Itepekimab reduces loss of asthma control
For patients with moderate to severe asthma, blockade with itepekimab, a new human IgG4P monoclonal antibody against the upstream alarmin interleukin-33, led to a reduction in events that indicate loss of asthma control. Treatment with itepekimab also led to an improvement in lung function compared with placebo, according to results of a phase 2 trial.
However, findings for a subgroup of patients treated with itepekimab in combination with dupilumab, an anti–interleukin-4–receptor alpha subunit and IL-13 monoclonal antibody, were not favorable in comparison with placebo, noted M. E. Wechsler, MD, and colleagues in an article published online in the New England Journal of Medicine.
New target
Despite the demonstrated efficacy of available biologic therapies targeting IgE, interleukin-4, interleukin-13, and interleukin-5 for treating moderate to severe type 2 asthma, many patients with type 2 or non–type 2 asthma continue to have symptoms, exacerbations, and reduced lung function. New therapies targeting alternative pathophysiologic pathways are needed.
Genomewide studies show that type 2 and non–type 2 inflammation that contributes to asthma and chronic obstructive pulmonary disease (COPD) are genetically associated with interleukin-33. This inflammation occurs when interleukin-33 binds to its cognate receptor (ST2) and engages the coreceptor interleukin-1 receptor accessory protein to initiate downstream signaling, activating cells of both the innate and adaptive immune systems.
Study details
The investigators conducted a multicenter, randomized, double-blind, placebo-controlled, parallel-group (four groups), proof-of-concept trial to evaluate the efficacy and safety of the interleukin-33 targeting itepekimab in comparison with placebo for adults with moderate to severe asthma. Dupilumab, which was the active comparator, was administered in combination with itepekimab to evaluate potential additive effects. Dupilumab’s efficacy in this population had been demonstrated previously.
All 296 patients (mean age, 49.1 years; 64% women) were receiving inhaled glucocorticoids plus long-acting beta-agonists (LABAs). They were randomly assigned in a 1:1:1:1 ratio to receive subcutaneous itepekimab (300 mg), itepekimab plus dupilumab (both at 300 mg; combination therapy), dupilumab (300 mg), or placebo every 2 weeks for 12 weeks. LABAs were discontinued at week 4, and inhaled glucocorticoids were tapered over weeks 6 through 9. The primary endpoint was the occurrence of an event indicating the loss of asthma control.
Promising results
Primary endpoint analysis at 12 weeks revealed a lower rate of asthma control–loss events in the itepekimab and dupilumab monotherapy groups but not in the combination group, compared with patients who received placebo. Events occurred in 22% of patients in the itepekimab group, in 27% of those in the combination group, in 19% of the dupilumab group, and in 41% of the placebo group. The odds ratios for comparisons with placebo were 0.42 for the itepekimab group (95% confidence interval, 0.20-0.88; P = .02); 0.33 in the dupilumab group (95% CI, 0.15-.70); and 0.52 in the combination group (95% CI, 0.26-1.06; P = .07) .
Following a similar pattern, forced expiratory volume in 1 second before use of a bronchodilator increased with both monotherapies but not with the combination or placebo. Although the trial was not powered to determine differences between itepekimab and dupilumab, the effects of dupilumab therapy were generally greater than those observed with itepekimab, especially for patients with type 2 asthma.
Also, asthma control and quality of life were improved with itepekimab and dupilumab monotherapy in comparison with placebo. There were also greater reductions in the mean blood eosinophil count.
The authors urge further research into the complexities of asthma physiology and encourage researchers to look for predictive biomarkers of anti–interleukin-33 blockade response. They conclude, “In this trial, we found that itepekimab monotherapy led to a lower incidence of events indicating loss of asthma control and to improved lung function, findings that are consistent with a role for interleukin-33 in the pathogenesis of exacerbations and airflow limitation in asthma.”
Examining results
In an accompanying editorial, Philip G. Bardin, PhD, and Paul S. Foster, DSc, ask why itepekimab and dupilumab, a combination based on a sound scientific rationale, failed. As monotherapies, both itepekimab and dupilumab are roughly similar in reducing asthma events and improving lung function; thus, is unlikely that inadequate dosing led to the failure of itepekimab.
Interleukin-33 is an attractive target because the cells it promotes secrete cytokines that induce asthma’s pathognomonic features, and biologic agents that target those cytokines (interleukin-5/-5R/-4/-13 axes) have been highly effective. They do not, however, prevent exacerbations after treatment.
Alternative pathways within or outside that paradigm are operant, and other epithelial alarmins, such as interleukin-25 and thymic stromal lymphopoietin, promote type 2 inflammation, Dr. Bardin and Dr. Foster state.
“Combination therapy with itepekimab and dupilumab may have failed because these pathways bypass interleukin-33,” they write. Also, preexisting ILC2 and TH2 cells may have residual capacity to release mediators. The short-term trial design, the editorialists write, may have contributed to the failure of the itepekimab/dupilumab combination; interleukin-33 may be appropriate as a target in a longer-term exacerbation-type trial “in which epithelial infection and other relevant stimuli instigate exacerbated disease. Combination therapy may be capable of lowering exacerbations rather than preventing loss of control in chronic disease.
“Clinical translation of basic science in asthma remains a challenge to be pursued. ... It is imperative to harness scientific insights from translational studies that frustrate our hopeful expectations – so that something can also be gained,” they conclude.
The role of interleukin-33
“Our study of itepekimab provides valuable insight into pathophysiology of severe asthma,” said Dr. Wechsler, professor of medicine at the NJH Cohen Family Asthma Institute, Denver, in an interview. “As blocking IL-33 reduced asthma worsening and improved lung function compared to placebo, it suggests that IL-33 plays an important role in asthma pathophysiology and may be a valuable target for a subset of patients with severe asthma,” he stated.
“Since the effect of itepekimab is comparable to that of dupilumab, it is suggested that patients may benefit from blockade of this pathway, but what remains to be seen is identifying which patients are more likely to respond better to one therapy vs. another. The future of blocking IL-33 remains exciting, and studies are being planned to evaluate its efficacy in airways diseases, including COPD,” he concluded.
A version of this article first appeared on Medscape.com.
For patients with moderate to severe asthma, blockade with itepekimab, a new human IgG4P monoclonal antibody against the upstream alarmin interleukin-33, led to a reduction in events that indicate loss of asthma control. Treatment with itepekimab also led to an improvement in lung function compared with placebo, according to results of a phase 2 trial.
However, findings for a subgroup of patients treated with itepekimab in combination with dupilumab, an anti–interleukin-4–receptor alpha subunit and IL-13 monoclonal antibody, were not favorable in comparison with placebo, noted M. E. Wechsler, MD, and colleagues in an article published online in the New England Journal of Medicine.
New target
Despite the demonstrated efficacy of available biologic therapies targeting IgE, interleukin-4, interleukin-13, and interleukin-5 for treating moderate to severe type 2 asthma, many patients with type 2 or non–type 2 asthma continue to have symptoms, exacerbations, and reduced lung function. New therapies targeting alternative pathophysiologic pathways are needed.
Genomewide studies show that type 2 and non–type 2 inflammation that contributes to asthma and chronic obstructive pulmonary disease (COPD) are genetically associated with interleukin-33. This inflammation occurs when interleukin-33 binds to its cognate receptor (ST2) and engages the coreceptor interleukin-1 receptor accessory protein to initiate downstream signaling, activating cells of both the innate and adaptive immune systems.
Study details
The investigators conducted a multicenter, randomized, double-blind, placebo-controlled, parallel-group (four groups), proof-of-concept trial to evaluate the efficacy and safety of the interleukin-33 targeting itepekimab in comparison with placebo for adults with moderate to severe asthma. Dupilumab, which was the active comparator, was administered in combination with itepekimab to evaluate potential additive effects. Dupilumab’s efficacy in this population had been demonstrated previously.
All 296 patients (mean age, 49.1 years; 64% women) were receiving inhaled glucocorticoids plus long-acting beta-agonists (LABAs). They were randomly assigned in a 1:1:1:1 ratio to receive subcutaneous itepekimab (300 mg), itepekimab plus dupilumab (both at 300 mg; combination therapy), dupilumab (300 mg), or placebo every 2 weeks for 12 weeks. LABAs were discontinued at week 4, and inhaled glucocorticoids were tapered over weeks 6 through 9. The primary endpoint was the occurrence of an event indicating the loss of asthma control.
Promising results
Primary endpoint analysis at 12 weeks revealed a lower rate of asthma control–loss events in the itepekimab and dupilumab monotherapy groups but not in the combination group, compared with patients who received placebo. Events occurred in 22% of patients in the itepekimab group, in 27% of those in the combination group, in 19% of the dupilumab group, and in 41% of the placebo group. The odds ratios for comparisons with placebo were 0.42 for the itepekimab group (95% confidence interval, 0.20-0.88; P = .02); 0.33 in the dupilumab group (95% CI, 0.15-.70); and 0.52 in the combination group (95% CI, 0.26-1.06; P = .07) .
Following a similar pattern, forced expiratory volume in 1 second before use of a bronchodilator increased with both monotherapies but not with the combination or placebo. Although the trial was not powered to determine differences between itepekimab and dupilumab, the effects of dupilumab therapy were generally greater than those observed with itepekimab, especially for patients with type 2 asthma.
Also, asthma control and quality of life were improved with itepekimab and dupilumab monotherapy in comparison with placebo. There were also greater reductions in the mean blood eosinophil count.
The authors urge further research into the complexities of asthma physiology and encourage researchers to look for predictive biomarkers of anti–interleukin-33 blockade response. They conclude, “In this trial, we found that itepekimab monotherapy led to a lower incidence of events indicating loss of asthma control and to improved lung function, findings that are consistent with a role for interleukin-33 in the pathogenesis of exacerbations and airflow limitation in asthma.”
Examining results
In an accompanying editorial, Philip G. Bardin, PhD, and Paul S. Foster, DSc, ask why itepekimab and dupilumab, a combination based on a sound scientific rationale, failed. As monotherapies, both itepekimab and dupilumab are roughly similar in reducing asthma events and improving lung function; thus, is unlikely that inadequate dosing led to the failure of itepekimab.
Interleukin-33 is an attractive target because the cells it promotes secrete cytokines that induce asthma’s pathognomonic features, and biologic agents that target those cytokines (interleukin-5/-5R/-4/-13 axes) have been highly effective. They do not, however, prevent exacerbations after treatment.
Alternative pathways within or outside that paradigm are operant, and other epithelial alarmins, such as interleukin-25 and thymic stromal lymphopoietin, promote type 2 inflammation, Dr. Bardin and Dr. Foster state.
“Combination therapy with itepekimab and dupilumab may have failed because these pathways bypass interleukin-33,” they write. Also, preexisting ILC2 and TH2 cells may have residual capacity to release mediators. The short-term trial design, the editorialists write, may have contributed to the failure of the itepekimab/dupilumab combination; interleukin-33 may be appropriate as a target in a longer-term exacerbation-type trial “in which epithelial infection and other relevant stimuli instigate exacerbated disease. Combination therapy may be capable of lowering exacerbations rather than preventing loss of control in chronic disease.
“Clinical translation of basic science in asthma remains a challenge to be pursued. ... It is imperative to harness scientific insights from translational studies that frustrate our hopeful expectations – so that something can also be gained,” they conclude.
The role of interleukin-33
“Our study of itepekimab provides valuable insight into pathophysiology of severe asthma,” said Dr. Wechsler, professor of medicine at the NJH Cohen Family Asthma Institute, Denver, in an interview. “As blocking IL-33 reduced asthma worsening and improved lung function compared to placebo, it suggests that IL-33 plays an important role in asthma pathophysiology and may be a valuable target for a subset of patients with severe asthma,” he stated.
“Since the effect of itepekimab is comparable to that of dupilumab, it is suggested that patients may benefit from blockade of this pathway, but what remains to be seen is identifying which patients are more likely to respond better to one therapy vs. another. The future of blocking IL-33 remains exciting, and studies are being planned to evaluate its efficacy in airways diseases, including COPD,” he concluded.
A version of this article first appeared on Medscape.com.
For patients with moderate to severe asthma, blockade with itepekimab, a new human IgG4P monoclonal antibody against the upstream alarmin interleukin-33, led to a reduction in events that indicate loss of asthma control. Treatment with itepekimab also led to an improvement in lung function compared with placebo, according to results of a phase 2 trial.
However, findings for a subgroup of patients treated with itepekimab in combination with dupilumab, an anti–interleukin-4–receptor alpha subunit and IL-13 monoclonal antibody, were not favorable in comparison with placebo, noted M. E. Wechsler, MD, and colleagues in an article published online in the New England Journal of Medicine.
New target
Despite the demonstrated efficacy of available biologic therapies targeting IgE, interleukin-4, interleukin-13, and interleukin-5 for treating moderate to severe type 2 asthma, many patients with type 2 or non–type 2 asthma continue to have symptoms, exacerbations, and reduced lung function. New therapies targeting alternative pathophysiologic pathways are needed.
Genomewide studies show that type 2 and non–type 2 inflammation that contributes to asthma and chronic obstructive pulmonary disease (COPD) are genetically associated with interleukin-33. This inflammation occurs when interleukin-33 binds to its cognate receptor (ST2) and engages the coreceptor interleukin-1 receptor accessory protein to initiate downstream signaling, activating cells of both the innate and adaptive immune systems.
Study details
The investigators conducted a multicenter, randomized, double-blind, placebo-controlled, parallel-group (four groups), proof-of-concept trial to evaluate the efficacy and safety of the interleukin-33 targeting itepekimab in comparison with placebo for adults with moderate to severe asthma. Dupilumab, which was the active comparator, was administered in combination with itepekimab to evaluate potential additive effects. Dupilumab’s efficacy in this population had been demonstrated previously.
All 296 patients (mean age, 49.1 years; 64% women) were receiving inhaled glucocorticoids plus long-acting beta-agonists (LABAs). They were randomly assigned in a 1:1:1:1 ratio to receive subcutaneous itepekimab (300 mg), itepekimab plus dupilumab (both at 300 mg; combination therapy), dupilumab (300 mg), or placebo every 2 weeks for 12 weeks. LABAs were discontinued at week 4, and inhaled glucocorticoids were tapered over weeks 6 through 9. The primary endpoint was the occurrence of an event indicating the loss of asthma control.
Promising results
Primary endpoint analysis at 12 weeks revealed a lower rate of asthma control–loss events in the itepekimab and dupilumab monotherapy groups but not in the combination group, compared with patients who received placebo. Events occurred in 22% of patients in the itepekimab group, in 27% of those in the combination group, in 19% of the dupilumab group, and in 41% of the placebo group. The odds ratios for comparisons with placebo were 0.42 for the itepekimab group (95% confidence interval, 0.20-0.88; P = .02); 0.33 in the dupilumab group (95% CI, 0.15-.70); and 0.52 in the combination group (95% CI, 0.26-1.06; P = .07) .
Following a similar pattern, forced expiratory volume in 1 second before use of a bronchodilator increased with both monotherapies but not with the combination or placebo. Although the trial was not powered to determine differences between itepekimab and dupilumab, the effects of dupilumab therapy were generally greater than those observed with itepekimab, especially for patients with type 2 asthma.
Also, asthma control and quality of life were improved with itepekimab and dupilumab monotherapy in comparison with placebo. There were also greater reductions in the mean blood eosinophil count.
The authors urge further research into the complexities of asthma physiology and encourage researchers to look for predictive biomarkers of anti–interleukin-33 blockade response. They conclude, “In this trial, we found that itepekimab monotherapy led to a lower incidence of events indicating loss of asthma control and to improved lung function, findings that are consistent with a role for interleukin-33 in the pathogenesis of exacerbations and airflow limitation in asthma.”
Examining results
In an accompanying editorial, Philip G. Bardin, PhD, and Paul S. Foster, DSc, ask why itepekimab and dupilumab, a combination based on a sound scientific rationale, failed. As monotherapies, both itepekimab and dupilumab are roughly similar in reducing asthma events and improving lung function; thus, is unlikely that inadequate dosing led to the failure of itepekimab.
Interleukin-33 is an attractive target because the cells it promotes secrete cytokines that induce asthma’s pathognomonic features, and biologic agents that target those cytokines (interleukin-5/-5R/-4/-13 axes) have been highly effective. They do not, however, prevent exacerbations after treatment.
Alternative pathways within or outside that paradigm are operant, and other epithelial alarmins, such as interleukin-25 and thymic stromal lymphopoietin, promote type 2 inflammation, Dr. Bardin and Dr. Foster state.
“Combination therapy with itepekimab and dupilumab may have failed because these pathways bypass interleukin-33,” they write. Also, preexisting ILC2 and TH2 cells may have residual capacity to release mediators. The short-term trial design, the editorialists write, may have contributed to the failure of the itepekimab/dupilumab combination; interleukin-33 may be appropriate as a target in a longer-term exacerbation-type trial “in which epithelial infection and other relevant stimuli instigate exacerbated disease. Combination therapy may be capable of lowering exacerbations rather than preventing loss of control in chronic disease.
“Clinical translation of basic science in asthma remains a challenge to be pursued. ... It is imperative to harness scientific insights from translational studies that frustrate our hopeful expectations – so that something can also be gained,” they conclude.
The role of interleukin-33
“Our study of itepekimab provides valuable insight into pathophysiology of severe asthma,” said Dr. Wechsler, professor of medicine at the NJH Cohen Family Asthma Institute, Denver, in an interview. “As blocking IL-33 reduced asthma worsening and improved lung function compared to placebo, it suggests that IL-33 plays an important role in asthma pathophysiology and may be a valuable target for a subset of patients with severe asthma,” he stated.
“Since the effect of itepekimab is comparable to that of dupilumab, it is suggested that patients may benefit from blockade of this pathway, but what remains to be seen is identifying which patients are more likely to respond better to one therapy vs. another. The future of blocking IL-33 remains exciting, and studies are being planned to evaluate its efficacy in airways diseases, including COPD,” he concluded.
A version of this article first appeared on Medscape.com.
Placebo beat risankizumab in adults with severe asthma
Placebo treatment was found to be superior to treatment with risankizumab with respect to time to first asthma worsening and annualized rate of asthma worsening for adults with severe persistent asthma in a phase 2a clinical trial.
The randomized, double-blind, 24-week, parallel group, multicenter trial assessed risankizumab efficacy and safety in 214 adults with severe persistent asthma. The results were reported in The New England Journal of Medicine.
Risankizumab is a humanized, monoclonal antibody directed against subunit p19 of interleukin-23. It is approved for the treatment of moderate to severe psoriasis.
Interleukin-23 has been implicated in airway inflammation mediated by type 2 and type 17 cytokines. Noting that inhibition of interleukin-23 is effective in the treatment of psoriasis and Crohn’s disease, Christopher E. Brightling, MD, and colleagues investigated whether targeting interleukin-23 in asthma patients would improve disease control and reduce airway inflammation.
Study details
Patients received either 90 mg of risankizumab (subcutaneous) (n = 105) or placebo (n = 109) once every 4 weeks. Time to first asthma worsening was the primary endpoint. Worsening was defined as decline from baseline on 2 or more consecutive days. Deterioration was defined as a decrease of at least 30% in the morning peak expiratory flow or an increase from baseline of at least 50% in rescue medication puffs over 24 hours. In addition, a severe asthma exacerbation or an increase of 0.75 or more points on the five-item Asthma Control Questionnaire (scores range from 0 to 6, with higher scores indicating less control) were considered to be evidence of worsening. Annualized rate of asthma worsening was a secondary endpoint.
The mean age of the patients was 53 years; 66.5% of the patients were women.
Disappointing results
In the risankizumab group, median time to first asthma worsening was 40 days, significantly worse than the 86 days reported for the placebo group (hazard ratio, 1.46; 95% confidence interval, 1.05-2.04; P = .03). For annualized asthma worsening, the rate ratio for the comparison of risankizumab with placebo was 1.49 (95% CI, 1.12-1.99).
Among key secondary endpoints, the adjusted mean change in trough forced expiratory volume in 1 second (FEV1) from baseline to week 24 was –0.05 L in the risankizumab group and –0.01 L in the placebo group. The adjusted mean change in FEV1 after bronchodilator use from baseline to week 24 was –0.10 L in the risankizumab group and –0.03 L in the placebo group. Sputum transcriptomic pathway analysis showed that genes involved in the activation of natural killer cells and cytotoxic T cells and the activation of type 1 helper T and type 17 helper T transcription factors were downregulated by risankizumab. Rates of adverse events were similar among patients receiving risankizumab and those taking placebo.
Further trials unwarranted
“The findings not only failed to show benefit for any outcome but also showed asthma worsening occurred earlier and more frequently in those treated with risankizumab versus placebo,” Dr. Brightling, professor in the department of respiratory sciences at University of Leicester, England, said in an interview. “This study does not support any further trials for anti-IL23 in asthma.” Dr. Brightling speculated on the cause of accelerated asthma worsening with risankizumab.
“We found that the gene expression of key molecules involved in our response to infection was decreased in airway samples in those treated with risankizumab versus placebo. It is possible that the increased asthma worsening following risankizumab was related to this suppression of antimicrobial immunity,” he said.
He noted that risankizumab did not affect type-2/eosinophilic inflammation, which is the target for current asthma biologics, or gene expression of T2 molecules. “That suggests that this type of inflammation would have continued in the asthma patients during the trial irrespective of receiving risankizumab or placebo,” he said.
Caution with investigating biologicals
Downstream biologic responses to risankizumab were detectable, Philip G. Bardin, PhD, and Paul S. Foster, DSc, observed in an accompanying editorial, but there was no discernible clinical benefit, implying attenuation of apposite pathways. Current understanding of the basic science relevant to asthma, they stated, offers clues to the failure of risankizumab to benefit these patients with severe asthma. Although targeting the interleukin-23 and Th17 axis with risankizumab can reduce development of pathogenic Th17 cells, interleukin-23 is not critical for the development of Th17 cells.
“In contrast to pathways operated by interleukin-5 and interleukin-4R alpha, interleukin-23 has only a limited auxiliary role in amplifying type 2 responses. It is possible that the trial conducted by Brightling and colleagues failed because signaling through alternative disease pathways nullified inhibition of inter-leukin-23,” the editorialists wrote.
Dr. Bardin and Dr. Foster further speculate that because interleukin-23 is vital for effective mucosal immunity, risankizumab may have conferred to patients a predisposition to more severe or more frequent virus-induced exacerbations. They stated that generally, however, the reasons for risankizumab’s poorer outcomes compared to placebo are unclear. “Overall, these findings support a cautious approach in future research investigating biologic therapies in asthma,” they concluded.
The clinical trial was sponsored and funded by BI/AbbVie.
A version of this article first appeared on Medscape.com.
Placebo treatment was found to be superior to treatment with risankizumab with respect to time to first asthma worsening and annualized rate of asthma worsening for adults with severe persistent asthma in a phase 2a clinical trial.
The randomized, double-blind, 24-week, parallel group, multicenter trial assessed risankizumab efficacy and safety in 214 adults with severe persistent asthma. The results were reported in The New England Journal of Medicine.
Risankizumab is a humanized, monoclonal antibody directed against subunit p19 of interleukin-23. It is approved for the treatment of moderate to severe psoriasis.
Interleukin-23 has been implicated in airway inflammation mediated by type 2 and type 17 cytokines. Noting that inhibition of interleukin-23 is effective in the treatment of psoriasis and Crohn’s disease, Christopher E. Brightling, MD, and colleagues investigated whether targeting interleukin-23 in asthma patients would improve disease control and reduce airway inflammation.
Study details
Patients received either 90 mg of risankizumab (subcutaneous) (n = 105) or placebo (n = 109) once every 4 weeks. Time to first asthma worsening was the primary endpoint. Worsening was defined as decline from baseline on 2 or more consecutive days. Deterioration was defined as a decrease of at least 30% in the morning peak expiratory flow or an increase from baseline of at least 50% in rescue medication puffs over 24 hours. In addition, a severe asthma exacerbation or an increase of 0.75 or more points on the five-item Asthma Control Questionnaire (scores range from 0 to 6, with higher scores indicating less control) were considered to be evidence of worsening. Annualized rate of asthma worsening was a secondary endpoint.
The mean age of the patients was 53 years; 66.5% of the patients were women.
Disappointing results
In the risankizumab group, median time to first asthma worsening was 40 days, significantly worse than the 86 days reported for the placebo group (hazard ratio, 1.46; 95% confidence interval, 1.05-2.04; P = .03). For annualized asthma worsening, the rate ratio for the comparison of risankizumab with placebo was 1.49 (95% CI, 1.12-1.99).
Among key secondary endpoints, the adjusted mean change in trough forced expiratory volume in 1 second (FEV1) from baseline to week 24 was –0.05 L in the risankizumab group and –0.01 L in the placebo group. The adjusted mean change in FEV1 after bronchodilator use from baseline to week 24 was –0.10 L in the risankizumab group and –0.03 L in the placebo group. Sputum transcriptomic pathway analysis showed that genes involved in the activation of natural killer cells and cytotoxic T cells and the activation of type 1 helper T and type 17 helper T transcription factors were downregulated by risankizumab. Rates of adverse events were similar among patients receiving risankizumab and those taking placebo.
Further trials unwarranted
“The findings not only failed to show benefit for any outcome but also showed asthma worsening occurred earlier and more frequently in those treated with risankizumab versus placebo,” Dr. Brightling, professor in the department of respiratory sciences at University of Leicester, England, said in an interview. “This study does not support any further trials for anti-IL23 in asthma.” Dr. Brightling speculated on the cause of accelerated asthma worsening with risankizumab.
“We found that the gene expression of key molecules involved in our response to infection was decreased in airway samples in those treated with risankizumab versus placebo. It is possible that the increased asthma worsening following risankizumab was related to this suppression of antimicrobial immunity,” he said.
He noted that risankizumab did not affect type-2/eosinophilic inflammation, which is the target for current asthma biologics, or gene expression of T2 molecules. “That suggests that this type of inflammation would have continued in the asthma patients during the trial irrespective of receiving risankizumab or placebo,” he said.
Caution with investigating biologicals
Downstream biologic responses to risankizumab were detectable, Philip G. Bardin, PhD, and Paul S. Foster, DSc, observed in an accompanying editorial, but there was no discernible clinical benefit, implying attenuation of apposite pathways. Current understanding of the basic science relevant to asthma, they stated, offers clues to the failure of risankizumab to benefit these patients with severe asthma. Although targeting the interleukin-23 and Th17 axis with risankizumab can reduce development of pathogenic Th17 cells, interleukin-23 is not critical for the development of Th17 cells.
“In contrast to pathways operated by interleukin-5 and interleukin-4R alpha, interleukin-23 has only a limited auxiliary role in amplifying type 2 responses. It is possible that the trial conducted by Brightling and colleagues failed because signaling through alternative disease pathways nullified inhibition of inter-leukin-23,” the editorialists wrote.
Dr. Bardin and Dr. Foster further speculate that because interleukin-23 is vital for effective mucosal immunity, risankizumab may have conferred to patients a predisposition to more severe or more frequent virus-induced exacerbations. They stated that generally, however, the reasons for risankizumab’s poorer outcomes compared to placebo are unclear. “Overall, these findings support a cautious approach in future research investigating biologic therapies in asthma,” they concluded.
The clinical trial was sponsored and funded by BI/AbbVie.
A version of this article first appeared on Medscape.com.
Placebo treatment was found to be superior to treatment with risankizumab with respect to time to first asthma worsening and annualized rate of asthma worsening for adults with severe persistent asthma in a phase 2a clinical trial.
The randomized, double-blind, 24-week, parallel group, multicenter trial assessed risankizumab efficacy and safety in 214 adults with severe persistent asthma. The results were reported in The New England Journal of Medicine.
Risankizumab is a humanized, monoclonal antibody directed against subunit p19 of interleukin-23. It is approved for the treatment of moderate to severe psoriasis.
Interleukin-23 has been implicated in airway inflammation mediated by type 2 and type 17 cytokines. Noting that inhibition of interleukin-23 is effective in the treatment of psoriasis and Crohn’s disease, Christopher E. Brightling, MD, and colleagues investigated whether targeting interleukin-23 in asthma patients would improve disease control and reduce airway inflammation.
Study details
Patients received either 90 mg of risankizumab (subcutaneous) (n = 105) or placebo (n = 109) once every 4 weeks. Time to first asthma worsening was the primary endpoint. Worsening was defined as decline from baseline on 2 or more consecutive days. Deterioration was defined as a decrease of at least 30% in the morning peak expiratory flow or an increase from baseline of at least 50% in rescue medication puffs over 24 hours. In addition, a severe asthma exacerbation or an increase of 0.75 or more points on the five-item Asthma Control Questionnaire (scores range from 0 to 6, with higher scores indicating less control) were considered to be evidence of worsening. Annualized rate of asthma worsening was a secondary endpoint.
The mean age of the patients was 53 years; 66.5% of the patients were women.
Disappointing results
In the risankizumab group, median time to first asthma worsening was 40 days, significantly worse than the 86 days reported for the placebo group (hazard ratio, 1.46; 95% confidence interval, 1.05-2.04; P = .03). For annualized asthma worsening, the rate ratio for the comparison of risankizumab with placebo was 1.49 (95% CI, 1.12-1.99).
Among key secondary endpoints, the adjusted mean change in trough forced expiratory volume in 1 second (FEV1) from baseline to week 24 was –0.05 L in the risankizumab group and –0.01 L in the placebo group. The adjusted mean change in FEV1 after bronchodilator use from baseline to week 24 was –0.10 L in the risankizumab group and –0.03 L in the placebo group. Sputum transcriptomic pathway analysis showed that genes involved in the activation of natural killer cells and cytotoxic T cells and the activation of type 1 helper T and type 17 helper T transcription factors were downregulated by risankizumab. Rates of adverse events were similar among patients receiving risankizumab and those taking placebo.
Further trials unwarranted
“The findings not only failed to show benefit for any outcome but also showed asthma worsening occurred earlier and more frequently in those treated with risankizumab versus placebo,” Dr. Brightling, professor in the department of respiratory sciences at University of Leicester, England, said in an interview. “This study does not support any further trials for anti-IL23 in asthma.” Dr. Brightling speculated on the cause of accelerated asthma worsening with risankizumab.
“We found that the gene expression of key molecules involved in our response to infection was decreased in airway samples in those treated with risankizumab versus placebo. It is possible that the increased asthma worsening following risankizumab was related to this suppression of antimicrobial immunity,” he said.
He noted that risankizumab did not affect type-2/eosinophilic inflammation, which is the target for current asthma biologics, or gene expression of T2 molecules. “That suggests that this type of inflammation would have continued in the asthma patients during the trial irrespective of receiving risankizumab or placebo,” he said.
Caution with investigating biologicals
Downstream biologic responses to risankizumab were detectable, Philip G. Bardin, PhD, and Paul S. Foster, DSc, observed in an accompanying editorial, but there was no discernible clinical benefit, implying attenuation of apposite pathways. Current understanding of the basic science relevant to asthma, they stated, offers clues to the failure of risankizumab to benefit these patients with severe asthma. Although targeting the interleukin-23 and Th17 axis with risankizumab can reduce development of pathogenic Th17 cells, interleukin-23 is not critical for the development of Th17 cells.
“In contrast to pathways operated by interleukin-5 and interleukin-4R alpha, interleukin-23 has only a limited auxiliary role in amplifying type 2 responses. It is possible that the trial conducted by Brightling and colleagues failed because signaling through alternative disease pathways nullified inhibition of inter-leukin-23,” the editorialists wrote.
Dr. Bardin and Dr. Foster further speculate that because interleukin-23 is vital for effective mucosal immunity, risankizumab may have conferred to patients a predisposition to more severe or more frequent virus-induced exacerbations. They stated that generally, however, the reasons for risankizumab’s poorer outcomes compared to placebo are unclear. “Overall, these findings support a cautious approach in future research investigating biologic therapies in asthma,” they concluded.
The clinical trial was sponsored and funded by BI/AbbVie.
A version of this article first appeared on Medscape.com.
Dupilumab shows long-term efficacy in EoE
LAS VEGAS –Data from the 28-week extension of the Liberty EoE TREET phase 3 clinical trial showed that the anti–interleukin-4/IL-13 antibody dupilumab led to long-term improvement in eosinophil count, histology, and patient-reported symptoms of eosinophilic esophagitis (EoE) out to 28 weeks. Dupilumab is Food and Drug Administration approved for the treatment of atopic dermatitis, asthma, and chronic rhinosinusitis with nasal polyposis.
Many patients don’t respond to the standard therapies of proton pump inhibitors, steroids, or diet. Some evidence suggests that EoE might be driven by type 2 inflammation, and dupilumab’s effect on the shared receptor of IL-4 and IL-13 directly counters that pathway.
“The current treatments are [proton pump inhibitors], steroids, or diet – a good proportion of patients don’t respond to them. And they’re also not targeted,” Evan Dellon, MD, professor of medicine and epidemiology at the University of North Carolina at Chapel Hill, said in an interview. Dr. Dellon presented the research at the annual meeting of the American College of Gastroenterology.
“The bottom line is that people who responded up front to dupilumab maintain that response to a year, and the people on placebo gained a similar response as the people who were treated. It looked good. It was histologic, symptomatic, and endoscopic outcomes,” said Dr. Dellon.
Many of the patients in the new study were steroid refractory, making it a difficult population to treat, according to Dr. Dellon. “You can’t compare to the steroid-treated patients, but the 6-month data showed about a 60% response rate histologically, which is right up there with where steroids and diet are for easier to treat patients. So the fact that it’s a harder to treat cohort is pretty impressive from that standpoint,” said Dr. Dellon.
Data from the first 24 weeks was previously reported at UEG Week 2020 and showed that dupilumab outperformed placebo in EoE patients aged 12 years and older, with dupilumab producing better outcomes in peak esophageal intraepithelial eosinophil count and change in Dysphagia Symptom Questionnaire (DSQ) Score at 24 weeks.
At ACG 2021, Dr. Dellon reported on 52-week results, where all patients from both treated and placebo groups received dupilumab after the initial 24-week phase. Dupilumab reduced dysphagia symptoms as measured by the absolute change in DSQ score at 24 weeks (–21.9 vs. –9.6; P < .001). At 52 weeks, the dupilumab group showed a change of –23.4 from the start of the study, and the placebo-to-dupilumab group had a DSQ score change of –21.7. Dupilumab also led to a greater percentage reduction in DSQ score by 24 weeks (69.2% versus 31.7%; P < .001); at 52 weeks, the dupilumab group had a 75.9% reduction and the placebo-to-dupilumab group had a 65.9% reduction (no significant difference).
The dupilumab group had a greater proportion of patients who achieved peak esophageal eosinophil count of 6 eosinophils or less per high power field at 24 weeks (59.5% vs. 5.1%); at 52 weeks, 55.9% had achieved this measure, versus 60.0% of the placebo-to-dupilumab group. At 24 weeks, the dupilumab group had a 71.2% reduction in peak eosinophil count from baseline versus –3.0% in placebo (P < .001). At week 52, the reductions were 88.6% and 83.8%, respectively.
Histology features were improved with dupilumab. At week 24, the absolute change in histology scoring system mean grade score (histologic severity) from initial baseline was greater in the dupilumab group (least squares mean, –0.761 vs. –0.001; P < .001). The improvement continued at week 52 (LS mean, –0.87) and occurred in the placebo-to-dupilumab group (LS mean, –0.87). The dupilumab group had a greater absolute change in mean stage score at 24 weeks (histologic extent, LS mean, –0.753 vs. –0.012; P < .001) and 52 weeks (LS mean, –0.89), while the placebo-to-dupilumab group achieved a similar change at 52 weeks (LS mean, –0.87).
Endoscopic features improved in the dupilumab group as measured by endoscopic reference score at 24 weeks (LS mean, –3.2 versus –0.3; P <.001) and at 52 weeks (LS mean, –4.1). The placebo-to-dupilumab group had a similar outcome at 52 weeks (LS mean, –3.9).
Dupilumab was well tolerated, with the only significant difference in treatment-emergent adverse events being injection-site reactions and injection-site erythema.
“I thought the data was really impressive and compelling,” said Amy Oxentenko, MD, chair of medicine at the Mayo Clinic in Phoenix, who comoderated the session. “It’d be nice to have something like this that is a targeted therapy that clearly shows improvement in not only some of the symptoms and histology, but also having an impact possibly on that fibrotic piece, which I think is really the area of morbidity in these patients long term.”
If approved, dupilumab could improve compliance among patients, who sometimes struggle with taking topical steroids properly, said comoderator David Hass, MD, who is an associate clinical professor at Yale University, New Haven, Conn. He also agreed that the potential for remodeling would be a significant benefit over steroids.
One concern with dupilumab would be any potential for immune suppression. “It’s always something to think about,” Dr. Hass said.
LIBERTY EoE TREET was funded by Sanofi and Regeneron. Dr. Dellon has consulted and received research support from numerous pharmaceutical companies. Dr. Oxentenko and Dr. Hass have no relevant financial disclosures.
This article was updated Nov. 4, 2021.
LAS VEGAS –Data from the 28-week extension of the Liberty EoE TREET phase 3 clinical trial showed that the anti–interleukin-4/IL-13 antibody dupilumab led to long-term improvement in eosinophil count, histology, and patient-reported symptoms of eosinophilic esophagitis (EoE) out to 28 weeks. Dupilumab is Food and Drug Administration approved for the treatment of atopic dermatitis, asthma, and chronic rhinosinusitis with nasal polyposis.
Many patients don’t respond to the standard therapies of proton pump inhibitors, steroids, or diet. Some evidence suggests that EoE might be driven by type 2 inflammation, and dupilumab’s effect on the shared receptor of IL-4 and IL-13 directly counters that pathway.
“The current treatments are [proton pump inhibitors], steroids, or diet – a good proportion of patients don’t respond to them. And they’re also not targeted,” Evan Dellon, MD, professor of medicine and epidemiology at the University of North Carolina at Chapel Hill, said in an interview. Dr. Dellon presented the research at the annual meeting of the American College of Gastroenterology.
“The bottom line is that people who responded up front to dupilumab maintain that response to a year, and the people on placebo gained a similar response as the people who were treated. It looked good. It was histologic, symptomatic, and endoscopic outcomes,” said Dr. Dellon.
Many of the patients in the new study were steroid refractory, making it a difficult population to treat, according to Dr. Dellon. “You can’t compare to the steroid-treated patients, but the 6-month data showed about a 60% response rate histologically, which is right up there with where steroids and diet are for easier to treat patients. So the fact that it’s a harder to treat cohort is pretty impressive from that standpoint,” said Dr. Dellon.
Data from the first 24 weeks was previously reported at UEG Week 2020 and showed that dupilumab outperformed placebo in EoE patients aged 12 years and older, with dupilumab producing better outcomes in peak esophageal intraepithelial eosinophil count and change in Dysphagia Symptom Questionnaire (DSQ) Score at 24 weeks.
At ACG 2021, Dr. Dellon reported on 52-week results, where all patients from both treated and placebo groups received dupilumab after the initial 24-week phase. Dupilumab reduced dysphagia symptoms as measured by the absolute change in DSQ score at 24 weeks (–21.9 vs. –9.6; P < .001). At 52 weeks, the dupilumab group showed a change of –23.4 from the start of the study, and the placebo-to-dupilumab group had a DSQ score change of –21.7. Dupilumab also led to a greater percentage reduction in DSQ score by 24 weeks (69.2% versus 31.7%; P < .001); at 52 weeks, the dupilumab group had a 75.9% reduction and the placebo-to-dupilumab group had a 65.9% reduction (no significant difference).
The dupilumab group had a greater proportion of patients who achieved peak esophageal eosinophil count of 6 eosinophils or less per high power field at 24 weeks (59.5% vs. 5.1%); at 52 weeks, 55.9% had achieved this measure, versus 60.0% of the placebo-to-dupilumab group. At 24 weeks, the dupilumab group had a 71.2% reduction in peak eosinophil count from baseline versus –3.0% in placebo (P < .001). At week 52, the reductions were 88.6% and 83.8%, respectively.
Histology features were improved with dupilumab. At week 24, the absolute change in histology scoring system mean grade score (histologic severity) from initial baseline was greater in the dupilumab group (least squares mean, –0.761 vs. –0.001; P < .001). The improvement continued at week 52 (LS mean, –0.87) and occurred in the placebo-to-dupilumab group (LS mean, –0.87). The dupilumab group had a greater absolute change in mean stage score at 24 weeks (histologic extent, LS mean, –0.753 vs. –0.012; P < .001) and 52 weeks (LS mean, –0.89), while the placebo-to-dupilumab group achieved a similar change at 52 weeks (LS mean, –0.87).
Endoscopic features improved in the dupilumab group as measured by endoscopic reference score at 24 weeks (LS mean, –3.2 versus –0.3; P <.001) and at 52 weeks (LS mean, –4.1). The placebo-to-dupilumab group had a similar outcome at 52 weeks (LS mean, –3.9).
Dupilumab was well tolerated, with the only significant difference in treatment-emergent adverse events being injection-site reactions and injection-site erythema.
“I thought the data was really impressive and compelling,” said Amy Oxentenko, MD, chair of medicine at the Mayo Clinic in Phoenix, who comoderated the session. “It’d be nice to have something like this that is a targeted therapy that clearly shows improvement in not only some of the symptoms and histology, but also having an impact possibly on that fibrotic piece, which I think is really the area of morbidity in these patients long term.”
If approved, dupilumab could improve compliance among patients, who sometimes struggle with taking topical steroids properly, said comoderator David Hass, MD, who is an associate clinical professor at Yale University, New Haven, Conn. He also agreed that the potential for remodeling would be a significant benefit over steroids.
One concern with dupilumab would be any potential for immune suppression. “It’s always something to think about,” Dr. Hass said.
LIBERTY EoE TREET was funded by Sanofi and Regeneron. Dr. Dellon has consulted and received research support from numerous pharmaceutical companies. Dr. Oxentenko and Dr. Hass have no relevant financial disclosures.
This article was updated Nov. 4, 2021.
LAS VEGAS –Data from the 28-week extension of the Liberty EoE TREET phase 3 clinical trial showed that the anti–interleukin-4/IL-13 antibody dupilumab led to long-term improvement in eosinophil count, histology, and patient-reported symptoms of eosinophilic esophagitis (EoE) out to 28 weeks. Dupilumab is Food and Drug Administration approved for the treatment of atopic dermatitis, asthma, and chronic rhinosinusitis with nasal polyposis.
Many patients don’t respond to the standard therapies of proton pump inhibitors, steroids, or diet. Some evidence suggests that EoE might be driven by type 2 inflammation, and dupilumab’s effect on the shared receptor of IL-4 and IL-13 directly counters that pathway.
“The current treatments are [proton pump inhibitors], steroids, or diet – a good proportion of patients don’t respond to them. And they’re also not targeted,” Evan Dellon, MD, professor of medicine and epidemiology at the University of North Carolina at Chapel Hill, said in an interview. Dr. Dellon presented the research at the annual meeting of the American College of Gastroenterology.
“The bottom line is that people who responded up front to dupilumab maintain that response to a year, and the people on placebo gained a similar response as the people who were treated. It looked good. It was histologic, symptomatic, and endoscopic outcomes,” said Dr. Dellon.
Many of the patients in the new study were steroid refractory, making it a difficult population to treat, according to Dr. Dellon. “You can’t compare to the steroid-treated patients, but the 6-month data showed about a 60% response rate histologically, which is right up there with where steroids and diet are for easier to treat patients. So the fact that it’s a harder to treat cohort is pretty impressive from that standpoint,” said Dr. Dellon.
Data from the first 24 weeks was previously reported at UEG Week 2020 and showed that dupilumab outperformed placebo in EoE patients aged 12 years and older, with dupilumab producing better outcomes in peak esophageal intraepithelial eosinophil count and change in Dysphagia Symptom Questionnaire (DSQ) Score at 24 weeks.
At ACG 2021, Dr. Dellon reported on 52-week results, where all patients from both treated and placebo groups received dupilumab after the initial 24-week phase. Dupilumab reduced dysphagia symptoms as measured by the absolute change in DSQ score at 24 weeks (–21.9 vs. –9.6; P < .001). At 52 weeks, the dupilumab group showed a change of –23.4 from the start of the study, and the placebo-to-dupilumab group had a DSQ score change of –21.7. Dupilumab also led to a greater percentage reduction in DSQ score by 24 weeks (69.2% versus 31.7%; P < .001); at 52 weeks, the dupilumab group had a 75.9% reduction and the placebo-to-dupilumab group had a 65.9% reduction (no significant difference).
The dupilumab group had a greater proportion of patients who achieved peak esophageal eosinophil count of 6 eosinophils or less per high power field at 24 weeks (59.5% vs. 5.1%); at 52 weeks, 55.9% had achieved this measure, versus 60.0% of the placebo-to-dupilumab group. At 24 weeks, the dupilumab group had a 71.2% reduction in peak eosinophil count from baseline versus –3.0% in placebo (P < .001). At week 52, the reductions were 88.6% and 83.8%, respectively.
Histology features were improved with dupilumab. At week 24, the absolute change in histology scoring system mean grade score (histologic severity) from initial baseline was greater in the dupilumab group (least squares mean, –0.761 vs. –0.001; P < .001). The improvement continued at week 52 (LS mean, –0.87) and occurred in the placebo-to-dupilumab group (LS mean, –0.87). The dupilumab group had a greater absolute change in mean stage score at 24 weeks (histologic extent, LS mean, –0.753 vs. –0.012; P < .001) and 52 weeks (LS mean, –0.89), while the placebo-to-dupilumab group achieved a similar change at 52 weeks (LS mean, –0.87).
Endoscopic features improved in the dupilumab group as measured by endoscopic reference score at 24 weeks (LS mean, –3.2 versus –0.3; P <.001) and at 52 weeks (LS mean, –4.1). The placebo-to-dupilumab group had a similar outcome at 52 weeks (LS mean, –3.9).
Dupilumab was well tolerated, with the only significant difference in treatment-emergent adverse events being injection-site reactions and injection-site erythema.
“I thought the data was really impressive and compelling,” said Amy Oxentenko, MD, chair of medicine at the Mayo Clinic in Phoenix, who comoderated the session. “It’d be nice to have something like this that is a targeted therapy that clearly shows improvement in not only some of the symptoms and histology, but also having an impact possibly on that fibrotic piece, which I think is really the area of morbidity in these patients long term.”
If approved, dupilumab could improve compliance among patients, who sometimes struggle with taking topical steroids properly, said comoderator David Hass, MD, who is an associate clinical professor at Yale University, New Haven, Conn. He also agreed that the potential for remodeling would be a significant benefit over steroids.
One concern with dupilumab would be any potential for immune suppression. “It’s always something to think about,” Dr. Hass said.
LIBERTY EoE TREET was funded by Sanofi and Regeneron. Dr. Dellon has consulted and received research support from numerous pharmaceutical companies. Dr. Oxentenko and Dr. Hass have no relevant financial disclosures.
This article was updated Nov. 4, 2021.
AT AGC 2021
SGLT2 inhibitors for diabetes: No link to fractures in older adults
Use of sodium-glucose cotransporter-2 (SGLT2) inhibitors does not appear to raise the risk for fractures in older adults, new research suggests.
The data come from a nationwide propensity score-matched study of U.S. Medicare recipients with type 2 diabetes who were new users of either an SGLT2 inhibitor, a dipeptidyl peptidase 4 (DPP-4) inhibitor, or a glucagon-like peptide (GLP-1) receptor agonist.
“The use of SGLT2 inhibitors was not associated with an increased risk of nontraumatic fractures compared with DPP-4 inhibitors or GLP-1 agonists. Results were consistent across categories of sex, frailty, age, and insulin use,” say Min Zhuo, MD, of Harvard Medical School, Boston, and colleagues, who published their work online October 27 in JAMA Network Open.
“Our results add to the evidence base evaluating the safety profile of SGLT2 inhibitors in older adults outside of [randomized controlled trials] and further characterize the risk-benefit balance of SGLT2 inhibitors in clinical practice,” they write.
Asked to comment, Simeon I. Taylor, MD, PhD, told this news organization, “This is a high-quality study that is generally reassuring that relatively short, less than 1 year, treatment with an SGLT2 inhibitor does not appear to significantly increase the risk of bone fractures.”
However, Dr. Taylor, of the Division of Endocrinology, Diabetes, and Nutrition, University of Maryland School of Medicine, Baltimore, also noted: “Notwithstanding these reassuring data, the paper also does a good job of pointing out important limitations.”
“Most importantly, these data do not address questions related to the risk of long-term chronic therapy. It is instructive to refer back to the published data demonstrating an approximately 2-year lag before a significant increase in the risk of fracture was observed in rosiglitazone-treated patients in the ADOPT study. The length of the lag is likely related to the baseline bone mineral density at the time drug therapy is initiated. These considerations may contribute to the observed variation in bone-related outcomes in different studies.”
Concern about SGLT2 inhibitors and fractures first arose in 2017 from the CANVAS study, in which the overall fracture risk with canagliflozin was a significant 26% higher than placebo. However, subsequent larger randomized trials of canagliflozin and other SGLT2 inhibitors did not find the same risk.
In addition, previous observational studies in younger adults have also not found use of SGLT2 inhibitors to be associated with increased fracture risk compared with DPP-4 inhibitors or GLP-1 agonists.
Understanding fracture risk with SGLT2 inhibitors is ‘critical’
Older adults with type 2 diabetes may benefit from reductions in atherosclerotic cardiovascular events, hospitalization for heart failure, end-stage kidney disease, and death associated with SGLT2 inhibitors, but the fact that aging may have negative effects on bone metabolism means “understanding the fracture risk associated with SGLT2 inhibitors in older adults with type 2 diabetes is critical,” say Dr. Zhuo and colleagues.
In the current study, they analyzed claims data for Medicare beneficiaries aged 66 years and older (1 year past Medicare eligibility) who were newly prescribed an SGLT2 inhibitor, DPP-4 inhibitor, or GLP-1 agonist between April 1, 2013 and Dec. 31, 2017.
A total of 45,889 patients from each treatment group were propensity-matched using 58 baseline characteristics, for a total of 137,667 patients.
After matching, there were 501 events of the primary composite outcome (nontraumatic pelvic fracture, hip fracture requiring surgery, or humerus, radius, or ulna fracture requiring intervention) within 30 days. By treatment group, fracture rates per 1,000 person-years were 4.69, 5.26, and 4.71 for SGLT2 inhibitors, DPP-4 inhibitors, and GLP-1 agonists respectively.
The differences between patients taking DPP-4 inhibitors or GLP-1 agonists compared with SGLT2 inhibitors were not significant, with hazard ratios of 0.90 and 1.00, respectively.
Results remained consistent in various sensitivity and subgroup analyses, including limiting the data to just the canagliflozin group. Overall, the fracture rate was greater with female sex, frailty, older age, and insulin use, consistent across drug classes.
The risks for falls and hypoglycemia were lower in the SGLT2 inhibitor versus matched DPP-4 inhibitor groups (hazard ratio, 0.82), and there was no difference in syncope. None of those differences were significant for the SGLT2 inhibitor group compared with the GLP-1 agonist group.
Consistent with previous data, the risk for diabetic ketoacidosis was higher with SGLT2 inhibitors versus DPP-4 inhibitors and GLP-1 agonists (HR, 1.29 and 1.58), and the risk for heart failure hospitalization was lower (HR, 0.42 and 0.69).
The study was funded by the Division of Pharmacoepidemiology and Pharmacoeconomics, department of medicine, Brigham and Women’s Hospital, Harvard Medical School. Dr. Zhuo was supported by the National Institutes of Health National Institute of Diabetes and Digestive and Kidney Diseases. Dr. Taylor is a consultant for Ionis Pharmaceuticals.
A version of this article first appeared on Medscape.com.
Use of sodium-glucose cotransporter-2 (SGLT2) inhibitors does not appear to raise the risk for fractures in older adults, new research suggests.
The data come from a nationwide propensity score-matched study of U.S. Medicare recipients with type 2 diabetes who were new users of either an SGLT2 inhibitor, a dipeptidyl peptidase 4 (DPP-4) inhibitor, or a glucagon-like peptide (GLP-1) receptor agonist.
“The use of SGLT2 inhibitors was not associated with an increased risk of nontraumatic fractures compared with DPP-4 inhibitors or GLP-1 agonists. Results were consistent across categories of sex, frailty, age, and insulin use,” say Min Zhuo, MD, of Harvard Medical School, Boston, and colleagues, who published their work online October 27 in JAMA Network Open.
“Our results add to the evidence base evaluating the safety profile of SGLT2 inhibitors in older adults outside of [randomized controlled trials] and further characterize the risk-benefit balance of SGLT2 inhibitors in clinical practice,” they write.
Asked to comment, Simeon I. Taylor, MD, PhD, told this news organization, “This is a high-quality study that is generally reassuring that relatively short, less than 1 year, treatment with an SGLT2 inhibitor does not appear to significantly increase the risk of bone fractures.”
However, Dr. Taylor, of the Division of Endocrinology, Diabetes, and Nutrition, University of Maryland School of Medicine, Baltimore, also noted: “Notwithstanding these reassuring data, the paper also does a good job of pointing out important limitations.”
“Most importantly, these data do not address questions related to the risk of long-term chronic therapy. It is instructive to refer back to the published data demonstrating an approximately 2-year lag before a significant increase in the risk of fracture was observed in rosiglitazone-treated patients in the ADOPT study. The length of the lag is likely related to the baseline bone mineral density at the time drug therapy is initiated. These considerations may contribute to the observed variation in bone-related outcomes in different studies.”
Concern about SGLT2 inhibitors and fractures first arose in 2017 from the CANVAS study, in which the overall fracture risk with canagliflozin was a significant 26% higher than placebo. However, subsequent larger randomized trials of canagliflozin and other SGLT2 inhibitors did not find the same risk.
In addition, previous observational studies in younger adults have also not found use of SGLT2 inhibitors to be associated with increased fracture risk compared with DPP-4 inhibitors or GLP-1 agonists.
Understanding fracture risk with SGLT2 inhibitors is ‘critical’
Older adults with type 2 diabetes may benefit from reductions in atherosclerotic cardiovascular events, hospitalization for heart failure, end-stage kidney disease, and death associated with SGLT2 inhibitors, but the fact that aging may have negative effects on bone metabolism means “understanding the fracture risk associated with SGLT2 inhibitors in older adults with type 2 diabetes is critical,” say Dr. Zhuo and colleagues.
In the current study, they analyzed claims data for Medicare beneficiaries aged 66 years and older (1 year past Medicare eligibility) who were newly prescribed an SGLT2 inhibitor, DPP-4 inhibitor, or GLP-1 agonist between April 1, 2013 and Dec. 31, 2017.
A total of 45,889 patients from each treatment group were propensity-matched using 58 baseline characteristics, for a total of 137,667 patients.
After matching, there were 501 events of the primary composite outcome (nontraumatic pelvic fracture, hip fracture requiring surgery, or humerus, radius, or ulna fracture requiring intervention) within 30 days. By treatment group, fracture rates per 1,000 person-years were 4.69, 5.26, and 4.71 for SGLT2 inhibitors, DPP-4 inhibitors, and GLP-1 agonists respectively.
The differences between patients taking DPP-4 inhibitors or GLP-1 agonists compared with SGLT2 inhibitors were not significant, with hazard ratios of 0.90 and 1.00, respectively.
Results remained consistent in various sensitivity and subgroup analyses, including limiting the data to just the canagliflozin group. Overall, the fracture rate was greater with female sex, frailty, older age, and insulin use, consistent across drug classes.
The risks for falls and hypoglycemia were lower in the SGLT2 inhibitor versus matched DPP-4 inhibitor groups (hazard ratio, 0.82), and there was no difference in syncope. None of those differences were significant for the SGLT2 inhibitor group compared with the GLP-1 agonist group.
Consistent with previous data, the risk for diabetic ketoacidosis was higher with SGLT2 inhibitors versus DPP-4 inhibitors and GLP-1 agonists (HR, 1.29 and 1.58), and the risk for heart failure hospitalization was lower (HR, 0.42 and 0.69).
The study was funded by the Division of Pharmacoepidemiology and Pharmacoeconomics, department of medicine, Brigham and Women’s Hospital, Harvard Medical School. Dr. Zhuo was supported by the National Institutes of Health National Institute of Diabetes and Digestive and Kidney Diseases. Dr. Taylor is a consultant for Ionis Pharmaceuticals.
A version of this article first appeared on Medscape.com.
Use of sodium-glucose cotransporter-2 (SGLT2) inhibitors does not appear to raise the risk for fractures in older adults, new research suggests.
The data come from a nationwide propensity score-matched study of U.S. Medicare recipients with type 2 diabetes who were new users of either an SGLT2 inhibitor, a dipeptidyl peptidase 4 (DPP-4) inhibitor, or a glucagon-like peptide (GLP-1) receptor agonist.
“The use of SGLT2 inhibitors was not associated with an increased risk of nontraumatic fractures compared with DPP-4 inhibitors or GLP-1 agonists. Results were consistent across categories of sex, frailty, age, and insulin use,” say Min Zhuo, MD, of Harvard Medical School, Boston, and colleagues, who published their work online October 27 in JAMA Network Open.
“Our results add to the evidence base evaluating the safety profile of SGLT2 inhibitors in older adults outside of [randomized controlled trials] and further characterize the risk-benefit balance of SGLT2 inhibitors in clinical practice,” they write.
Asked to comment, Simeon I. Taylor, MD, PhD, told this news organization, “This is a high-quality study that is generally reassuring that relatively short, less than 1 year, treatment with an SGLT2 inhibitor does not appear to significantly increase the risk of bone fractures.”
However, Dr. Taylor, of the Division of Endocrinology, Diabetes, and Nutrition, University of Maryland School of Medicine, Baltimore, also noted: “Notwithstanding these reassuring data, the paper also does a good job of pointing out important limitations.”
“Most importantly, these data do not address questions related to the risk of long-term chronic therapy. It is instructive to refer back to the published data demonstrating an approximately 2-year lag before a significant increase in the risk of fracture was observed in rosiglitazone-treated patients in the ADOPT study. The length of the lag is likely related to the baseline bone mineral density at the time drug therapy is initiated. These considerations may contribute to the observed variation in bone-related outcomes in different studies.”
Concern about SGLT2 inhibitors and fractures first arose in 2017 from the CANVAS study, in which the overall fracture risk with canagliflozin was a significant 26% higher than placebo. However, subsequent larger randomized trials of canagliflozin and other SGLT2 inhibitors did not find the same risk.
In addition, previous observational studies in younger adults have also not found use of SGLT2 inhibitors to be associated with increased fracture risk compared with DPP-4 inhibitors or GLP-1 agonists.
Understanding fracture risk with SGLT2 inhibitors is ‘critical’
Older adults with type 2 diabetes may benefit from reductions in atherosclerotic cardiovascular events, hospitalization for heart failure, end-stage kidney disease, and death associated with SGLT2 inhibitors, but the fact that aging may have negative effects on bone metabolism means “understanding the fracture risk associated with SGLT2 inhibitors in older adults with type 2 diabetes is critical,” say Dr. Zhuo and colleagues.
In the current study, they analyzed claims data for Medicare beneficiaries aged 66 years and older (1 year past Medicare eligibility) who were newly prescribed an SGLT2 inhibitor, DPP-4 inhibitor, or GLP-1 agonist between April 1, 2013 and Dec. 31, 2017.
A total of 45,889 patients from each treatment group were propensity-matched using 58 baseline characteristics, for a total of 137,667 patients.
After matching, there were 501 events of the primary composite outcome (nontraumatic pelvic fracture, hip fracture requiring surgery, or humerus, radius, or ulna fracture requiring intervention) within 30 days. By treatment group, fracture rates per 1,000 person-years were 4.69, 5.26, and 4.71 for SGLT2 inhibitors, DPP-4 inhibitors, and GLP-1 agonists respectively.
The differences between patients taking DPP-4 inhibitors or GLP-1 agonists compared with SGLT2 inhibitors were not significant, with hazard ratios of 0.90 and 1.00, respectively.
Results remained consistent in various sensitivity and subgroup analyses, including limiting the data to just the canagliflozin group. Overall, the fracture rate was greater with female sex, frailty, older age, and insulin use, consistent across drug classes.
The risks for falls and hypoglycemia were lower in the SGLT2 inhibitor versus matched DPP-4 inhibitor groups (hazard ratio, 0.82), and there was no difference in syncope. None of those differences were significant for the SGLT2 inhibitor group compared with the GLP-1 agonist group.
Consistent with previous data, the risk for diabetic ketoacidosis was higher with SGLT2 inhibitors versus DPP-4 inhibitors and GLP-1 agonists (HR, 1.29 and 1.58), and the risk for heart failure hospitalization was lower (HR, 0.42 and 0.69).
The study was funded by the Division of Pharmacoepidemiology and Pharmacoeconomics, department of medicine, Brigham and Women’s Hospital, Harvard Medical School. Dr. Zhuo was supported by the National Institutes of Health National Institute of Diabetes and Digestive and Kidney Diseases. Dr. Taylor is a consultant for Ionis Pharmaceuticals.
A version of this article first appeared on Medscape.com.