MDedge Neurology

PCSK9 inhibitors, which are among the most effective therapies for reducing LDL cholesterol (LDL-C), are associated with a neutral effect on cognitive function, according to a genetics-based Mendelian randomization study intended to sort out through the complexity of confounders.

The same study linked HMG-Co A reductase inhibitors (statins) with the potential for modest adverse neurocognitive effects, although these are likely to be outweighed by cardiovascular benefits, according to a collaborating team of investigators from the U.S. National Institutes of Health and the University of Oxford (England).

For clinicians and patients who continue to harbor concerns that cognitive function is threatened by very low LDL-C, this novel approach to evaluating risk is “reassuring,” according to the authors.

Early in clinical testing of PCSK9 inhibitors, a potential signal for adverse effects on cognitive function was reported but unconfirmed. This signal raised concern that extremely low levels of LDL-C, such as < 25 mg/dL, achieved with PCSK9 inhibitors might pose a risk to neurocognitive function.

Of several factors that provided a basis for concern, the PCSK9 enzyme is known to participate in brain development, according to the authors of this newly published study.
 

Mendelian randomization addresses complex issue

The objective of this Mendelian randomization analysis was to evaluate the relationship of PCSK9 inhibitors and statins on long-term neurocognitive function. Used previously to address other clinical issues, a drug-effect Mendelian randomization analysis evaluates genetic variants to determine whether there is a causal relationship between a risk, which in this case was lipid-lowering drugs, to a specific outcome, which was cognitive performance.

By looking directly at genetic variants that simulate the pharmacological inhibition of drug gene targets, the bias of confounders of clinical effects, such as baseline cognitive function, are avoided, according to the authors.

The message from this drug-effect Mendelian analysis was simple, according to the senior author of the study, Falk W. Lohoff, MD, chief of the section on clinical genomics and experimental therapeutics, National Institute of Alcohol Abuse and Alcoholism.

“Based on our data, we do not see a significant cognitive risk profile with PCSK9 inhibition associated with low LDL-C,” Dr. Lohoff said in an interview. He cautioned that “future long-term clinical studies are needed to confirm the absence of this effect,” but he and his coauthors noted that these data concur with the clinical studies.

From genome-wide association studies, single-nucleotide polymorphisms in PCSK9 and HMG-Co A reductase were extracted from a sample of more than 700,000 individuals of predominantly European ancestry. In the analysis, the investigators evaluated whether inhibition of PCSK9 or HMG-Co A reductase had an effect on seven clinical outcomes that relate to neurocognitive function, including memory, verbal intelligence, and reaction time, as well as biomarkers of cognitive function, such as cortical surface area.

The genetic effect of PCSK9 inhibition was “null for every cognitive-related outcome evaluated,” the investigators reported. The genetic effect of HMG-Co A reductase inhibition had a statistically significant but modest effect on cognitive performance (P = .03) and cortical surface area (P = .03). While the impact of HMG-Co A reductase inhibition on reaction time was stronger on a statistical basis (P = .0002), the investigators reported that it translated into a decrease of only 0.067 milliseconds per 38.7 mg/dL. They characterized this as a “small impact” unlikely to outweigh clinical benefits.

In an editorial that accompanied publication of this study, Brian A. Ference, MD, MPhil, provided context for the suitability of a Mendelian randomization analysis to address this or other questions regarding the impact of lipid-lowering therapies on clinical outcomes, and he ultimately concurred with the major conclusions

Ultimately, this analysis is consistent with other evidence that PCSK9 inhibition does not pose a risk of impaired cognitive function, he wrote. For statins, he concluded that this study “does not provide compelling evidence” to challenge their current clinical use.


 

Data do not support low LDL-C as cognitive risk factor

Moreover, this study – as well as other evidence – argues strongly against very low levels of LDL-C, regardless of how they are achieved, as a risk factor for diminished cognitive function, Dr. Ference, director of research in the division of translational therapeutics, University of Cambridge (England), said in an interview.

“There is no evidence from Mendelian randomization studies that lifelong exposure to lower LDL-C increases the risk of cognitive impairment,” he said. “This is true when evaluating lifelong exposure to lower LDL-C due to genetic variants in a wide variety of different genes or the genes that encode the target PCKS9 inhibitors, statins, or other lipid-lowering therapies.”

In other words, this study “adds to the accumulating evidence” that LDL-C lowering by itself does not contribute to an adverse impact on cognitive function despite persistent concern. This should not be surprising. Dr. Ference emphasized that there has never been strong evidence for an association.

“As I point out in the editorial, there is no biologically plausible mechanism by which reducing peripheral LDL-C should impact neurological function in any way, because the therapies do not cross the blood brain barrier, and because the nervous system produces its own cholesterol to maintain the integrity of membranes in nervous system cells,” he explained.

Dr. Lohoff reports no potential conflicts of interest. Dr. Ference has financial relationships with numerous pharmaceutical companies including those that make lipid-lowering therapies.

PCSK9 inhibitors, which are among the most effective therapies for reducing LDL cholesterol (LDL-C), are associated with a neutral effect on cognitive function, according to a genetics-based Mendelian randomization study intended to sort out through the complexity of confounders.

The same study linked HMG-Co A reductase inhibitors (statins) with the potential for modest adverse neurocognitive effects, although these are likely to be outweighed by cardiovascular benefits, according to a collaborating team of investigators from the U.S. National Institutes of Health and the University of Oxford (England).

For clinicians and patients who continue to harbor concerns that cognitive function is threatened by very low LDL-C, this novel approach to evaluating risk is “reassuring,” according to the authors.

Early in clinical testing of PCSK9 inhibitors, a potential signal for adverse effects on cognitive function was reported but unconfirmed. This signal raised concern that extremely low levels of LDL-C, such as < 25 mg/dL, achieved with PCSK9 inhibitors might pose a risk to neurocognitive function.

Of several factors that provided a basis for concern, the PCSK9 enzyme is known to participate in brain development, according to the authors of this newly published study.
 

Mendelian randomization addresses complex issue

The objective of this Mendelian randomization analysis was to evaluate the relationship of PCSK9 inhibitors and statins on long-term neurocognitive function. Used previously to address other clinical issues, a drug-effect Mendelian randomization analysis evaluates genetic variants to determine whether there is a causal relationship between a risk, which in this case was lipid-lowering drugs, to a specific outcome, which was cognitive performance.

By looking directly at genetic variants that simulate the pharmacological inhibition of drug gene targets, the bias of confounders of clinical effects, such as baseline cognitive function, are avoided, according to the authors.

The message from this drug-effect Mendelian analysis was simple, according to the senior author of the study, Falk W. Lohoff, MD, chief of the section on clinical genomics and experimental therapeutics, National Institute of Alcohol Abuse and Alcoholism.

“Based on our data, we do not see a significant cognitive risk profile with PCSK9 inhibition associated with low LDL-C,” Dr. Lohoff said in an interview. He cautioned that “future long-term clinical studies are needed to confirm the absence of this effect,” but he and his coauthors noted that these data concur with the clinical studies.

From genome-wide association studies, single-nucleotide polymorphisms in PCSK9 and HMG-Co A reductase were extracted from a sample of more than 700,000 individuals of predominantly European ancestry. In the analysis, the investigators evaluated whether inhibition of PCSK9 or HMG-Co A reductase had an effect on seven clinical outcomes that relate to neurocognitive function, including memory, verbal intelligence, and reaction time, as well as biomarkers of cognitive function, such as cortical surface area.

The genetic effect of PCSK9 inhibition was “null for every cognitive-related outcome evaluated,” the investigators reported. The genetic effect of HMG-Co A reductase inhibition had a statistically significant but modest effect on cognitive performance (P = .03) and cortical surface area (P = .03). While the impact of HMG-Co A reductase inhibition on reaction time was stronger on a statistical basis (P = .0002), the investigators reported that it translated into a decrease of only 0.067 milliseconds per 38.7 mg/dL. They characterized this as a “small impact” unlikely to outweigh clinical benefits.

In an editorial that accompanied publication of this study, Brian A. Ference, MD, MPhil, provided context for the suitability of a Mendelian randomization analysis to address this or other questions regarding the impact of lipid-lowering therapies on clinical outcomes, and he ultimately concurred with the major conclusions

Ultimately, this analysis is consistent with other evidence that PCSK9 inhibition does not pose a risk of impaired cognitive function, he wrote. For statins, he concluded that this study “does not provide compelling evidence” to challenge their current clinical use.


 

Data do not support low LDL-C as cognitive risk factor

Moreover, this study – as well as other evidence – argues strongly against very low levels of LDL-C, regardless of how they are achieved, as a risk factor for diminished cognitive function, Dr. Ference, director of research in the division of translational therapeutics, University of Cambridge (England), said in an interview.

“There is no evidence from Mendelian randomization studies that lifelong exposure to lower LDL-C increases the risk of cognitive impairment,” he said. “This is true when evaluating lifelong exposure to lower LDL-C due to genetic variants in a wide variety of different genes or the genes that encode the target PCKS9 inhibitors, statins, or other lipid-lowering therapies.”

In other words, this study “adds to the accumulating evidence” that LDL-C lowering by itself does not contribute to an adverse impact on cognitive function despite persistent concern. This should not be surprising. Dr. Ference emphasized that there has never been strong evidence for an association.

“As I point out in the editorial, there is no biologically plausible mechanism by which reducing peripheral LDL-C should impact neurological function in any way, because the therapies do not cross the blood brain barrier, and because the nervous system produces its own cholesterol to maintain the integrity of membranes in nervous system cells,” he explained.

Dr. Lohoff reports no potential conflicts of interest. Dr. Ference has financial relationships with numerous pharmaceutical companies including those that make lipid-lowering therapies.

PCSK9 inhibitors, which are among the most effective therapies for reducing LDL cholesterol (LDL-C), are associated with a neutral effect on cognitive function, according to a genetics-based Mendelian randomization study intended to sort out through the complexity of confounders.

The same study linked HMG-Co A reductase inhibitors (statins) with the potential for modest adverse neurocognitive effects, although these are likely to be outweighed by cardiovascular benefits, according to a collaborating team of investigators from the U.S. National Institutes of Health and the University of Oxford (England).

For clinicians and patients who continue to harbor concerns that cognitive function is threatened by very low LDL-C, this novel approach to evaluating risk is “reassuring,” according to the authors.

Early in clinical testing of PCSK9 inhibitors, a potential signal for adverse effects on cognitive function was reported but unconfirmed. This signal raised concern that extremely low levels of LDL-C, such as < 25 mg/dL, achieved with PCSK9 inhibitors might pose a risk to neurocognitive function.

Of several factors that provided a basis for concern, the PCSK9 enzyme is known to participate in brain development, according to the authors of this newly published study.
 

Mendelian randomization addresses complex issue

The objective of this Mendelian randomization analysis was to evaluate the relationship of PCSK9 inhibitors and statins on long-term neurocognitive function. Used previously to address other clinical issues, a drug-effect Mendelian randomization analysis evaluates genetic variants to determine whether there is a causal relationship between a risk, which in this case was lipid-lowering drugs, to a specific outcome, which was cognitive performance.

By looking directly at genetic variants that simulate the pharmacological inhibition of drug gene targets, the bias of confounders of clinical effects, such as baseline cognitive function, are avoided, according to the authors.

The message from this drug-effect Mendelian analysis was simple, according to the senior author of the study, Falk W. Lohoff, MD, chief of the section on clinical genomics and experimental therapeutics, National Institute of Alcohol Abuse and Alcoholism.

“Based on our data, we do not see a significant cognitive risk profile with PCSK9 inhibition associated with low LDL-C,” Dr. Lohoff said in an interview. He cautioned that “future long-term clinical studies are needed to confirm the absence of this effect,” but he and his coauthors noted that these data concur with the clinical studies.

From genome-wide association studies, single-nucleotide polymorphisms in PCSK9 and HMG-Co A reductase were extracted from a sample of more than 700,000 individuals of predominantly European ancestry. In the analysis, the investigators evaluated whether inhibition of PCSK9 or HMG-Co A reductase had an effect on seven clinical outcomes that relate to neurocognitive function, including memory, verbal intelligence, and reaction time, as well as biomarkers of cognitive function, such as cortical surface area.

The genetic effect of PCSK9 inhibition was “null for every cognitive-related outcome evaluated,” the investigators reported. The genetic effect of HMG-Co A reductase inhibition had a statistically significant but modest effect on cognitive performance (P = .03) and cortical surface area (P = .03). While the impact of HMG-Co A reductase inhibition on reaction time was stronger on a statistical basis (P = .0002), the investigators reported that it translated into a decrease of only 0.067 milliseconds per 38.7 mg/dL. They characterized this as a “small impact” unlikely to outweigh clinical benefits.

In an editorial that accompanied publication of this study, Brian A. Ference, MD, MPhil, provided context for the suitability of a Mendelian randomization analysis to address this or other questions regarding the impact of lipid-lowering therapies on clinical outcomes, and he ultimately concurred with the major conclusions

Ultimately, this analysis is consistent with other evidence that PCSK9 inhibition does not pose a risk of impaired cognitive function, he wrote. For statins, he concluded that this study “does not provide compelling evidence” to challenge their current clinical use.


 

Data do not support low LDL-C as cognitive risk factor

Moreover, this study – as well as other evidence – argues strongly against very low levels of LDL-C, regardless of how they are achieved, as a risk factor for diminished cognitive function, Dr. Ference, director of research in the division of translational therapeutics, University of Cambridge (England), said in an interview.

“There is no evidence from Mendelian randomization studies that lifelong exposure to lower LDL-C increases the risk of cognitive impairment,” he said. “This is true when evaluating lifelong exposure to lower LDL-C due to genetic variants in a wide variety of different genes or the genes that encode the target PCKS9 inhibitors, statins, or other lipid-lowering therapies.”

In other words, this study “adds to the accumulating evidence” that LDL-C lowering by itself does not contribute to an adverse impact on cognitive function despite persistent concern. This should not be surprising. Dr. Ference emphasized that there has never been strong evidence for an association.

“As I point out in the editorial, there is no biologically plausible mechanism by which reducing peripheral LDL-C should impact neurological function in any way, because the therapies do not cross the blood brain barrier, and because the nervous system produces its own cholesterol to maintain the integrity of membranes in nervous system cells,” he explained.

Dr. Lohoff reports no potential conflicts of interest. Dr. Ference has financial relationships with numerous pharmaceutical companies including those that make lipid-lowering therapies.

Emerging evidence is shedding light on the common underlying mechanisms contributing to the overlapping clinical phenomena of “long COVID,” myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS), and dysautonomia.

At the virtual annual meeting of the International Association for Chronic Fatigue Syndrome/Myalgic Encephalomyelitis (IACFSME), speakers presented data showing similar pathophysiologic abnormalities in people with systemic symptoms associated with ME/CFS who had a prior SARS-CoV-2 infection and those who did not, including individuals whose illness preceded the COVID-19 pandemic.

Core clinical diagnostic criteria for ME/CFS established by the Institute of Medicine in 2015 include substantial decrement in functioning for 6 months or longer, postexertional malaise, or a worsening of symptoms following even minor exertion (often described by patients as “crashes”), unrefreshing sleep, and cognitive dysfunction and/or orthostatic intolerance that are frequent and severe.

Long COVID has been defined in several different ways using different terminology. The U.S. Centers for Disease Control and Prevention, for example, defines “post-COVID conditions” as those continuing four or more weeks beyond first symptoms. The World Health Organization’s clinical case definition of “post COVID-19 condition” includes otherwise unexplained symptoms 3 months from COVID-19 onset and lasting longer than 2 months.

Both ME/CFS and long COVID commonly involve numerous symptoms beyond the defining ones, affecting nearly every organ system in the body, including systemic, neurocognitive, endocrine, cardiovascular, pulmonary, musculoskeletal, and gastrointestinal, with wide variation among individuals. Autonomic dysfunction is common to both conditions, particularly postural orthostatic tachycardia syndrome (POTS).

“My way of understanding these illnesses is that they’re not just multisystem illnesses, but all these interactive systems that lean on each other are dysregulated. … I would say that a very common underlying mediator of both ME/CFS and long COVID is autonomic dysfunction, and it presents as POTS,” Nancy Klimas, MD, director of the Institute for Neuro-Immune Medicine at Nova Southeastern University, Fort Lauderdale, Fla., told this news organization.

Dr. Klimas, who is also director of Clinical Immunology Research at the Miami Veterans Affairs Medical Center, added that “if basic bioenergetics are disrupted and in an oxidative-stress state [then] they have downregulated energy production at the cellular level, which seems to be the case in ME/CFS and now in long COVID.”
 

New ICD-10 codes better characterize the syndromes

New ICD-10 codes for 2023, being implemented on Oct. 1, will enable clinicians to better document all of these interrelated conditions.

Under the existing G93.3, Postviral and related fatigue syndromes, there will now be:

• G93.31 – Postviral fatigue syndrome.
• G93.32 – Myalgic encephalomyelitis/chronic fatigue syndrome (and the separate terms).
• G93.39 – Other postinfection and related fatigue syndromes.

The old R53.82, “Chronic fatigue, unspecified” code now excludes all of the above conditions.

The additional code U09.9 for “post COVID-19 condition, unspecified,” may also be used if applicable.

In addition, a new code for POTS, G90.A, which wasn’t previously mentioned in ICD-10, may also be used starting Oct. 1.

Lucinda Bateman, MD, founder and director of the Bateman Horne Center, Salt Lake City, advises using all applicable codes for a given patient. “If a patient came into my office with long COVID and met criteria for ME/CFS, we would code both, and also any other syndrome criteria that they may meet, such as POTS or fibromyalgia.

“If people use the codes appropriately, then you can understand the overlap better. It increases the likelihood of reimbursement, creates a more accurate medical record for the patient, and provides them with a better tool should they require disability benefits.”

Dr. Bateman advises in-office orthostatic evaluation for all patients with this symptom constellation, using a passive standing evaluation such as the 10-minute NASA Lean test.

“Clinicians should take the time to do orthostatic testing in these patients because it provides objective markers and will help lead us to potential interventions to help improve people’s function.”

The Bateman Horne center offers clinician resources on management of ME/CFS and related conditions.
 

How common is ME/CFS after COVID-19?

According to one published meta-analysis, the global prevalence of “post-acute sequelae of SARS-CoV-2,” defined by any symptom, is about 43% of patients overall following infection, and 49% at 120 days. Fatigue was the most commonly reported symptom, followed by memory problems. As of March 22, the World Health Organization estimated that there have been more than 470 million COVID-19 cases, which would give a figure of about 200 million people who are experiencing a wide range of long-COVID symptoms. 

On the final day of the IACFSME conference, Luis Nacul, MD, of the University of British Columbia, Vancouver, presented several sets of data from his group and others aiming to determine the proportion of individuals who develop symptoms suggestive of ME/CFS following a COVID-19 infection.   

Among a cohort of 88 adults hospitalized with confirmed SARS-CoV-2 infections during the first pandemic wave in 2020 and followed up in the respiratory clinic, rates of reported generalized fatigue were 67% at 3 months and 59.5% at 6 months. Substantial fatigue (that is, present most days and affecting activity levels) were reported by 16% at 3 months and 7% at 6 months. “This should represent in principle the maximum prevalence of cases who would meet the criteria for ME/CFS,” Dr. Nacul said.

Baseline age was indirectly associated with fatigue at 3 and 6 months, while the number of comorbidities a patient had was directly associated. Comorbidities also predicted severe fatigue at 3 months, but the numbers were too small for assessment at 6 months.

Studies involving nonhospitalized patients suggested lower rates. One meta-analysis showed 1-year rates of fatigue in 32% and cognitive impairment in 22%. Another showed very similar rates, reporting fatigue in 28% and memory/concentration difficulties in 18%-19%.   

Dr. Nacul cautioned that these figures are likely overestimates since many of the study populations are taken from respiratory or long-COVID clinics. “The evidence on ‘post-COVID fatigue syndrome’ or ME/CFS following COVID is still evolving. There is a huge need for studies looking more closely at cases meeting well-defined ME/CFS criteria. This unfortunately hasn’t been done for most studies.”
 

Immune system dysfunction appears to underlie many cases

In a keynote address during the conference, Akiko Iwasaki, PhD, of Yale University, New Haven, Conn., pointed out that long COVID and ME/CFS are among many unexplained postacute infection syndromes associated with a long list of viral pathogens, including Ebola, the prior SARS viruses, Epstein-Barr virus, and Dengue, as well as nonviral pathogens such as Coxiella burnetii (Q fever syndrome) and Borrelia (posttreatment Lyme disease syndrome).

Dr. Iwasaki cited a recent Nature Medicine review article that she coauthored on this topic with an ME/CFS patient, noting: “We really need to understand why some people are failing to recover from these types of diseases.”

Emerging evidence supports four different hypotheses regarding pathogenesis: viral reservoir/viral pathogen-associated molecular pattern molecules, autoimmunity, dysbiosis/viral reactivation, and tissue damage

“Right now, it’s too early to exclude or make any conclusions about these. We need to have an open mind to dissect these various possibilities,” she said.

Two speakers reported findings of immune dysregulation in both ME/CFS and long COVID. Wakiro Sato, MD, PhD, of the National Center of Neurology and Psychiatry, Tokyo, reported that anti–G-protein coupled receptor antibodies were found in 33 (55%) of 60 patients with long COVID, and more than 40% had peripheral immune cell profile abnormalities. These findings were similar to those found in patients with ME/CFS, published by Sato’s team (Brain Behav Immun. 2021 Mar 29. doi: 10.1016/j.bbi.2021.03.023) and other researchers in Germany.  

Liisa K. Selin, MD, PhD, professor of pathology at the University of Massachusetts, Worcester, presented data for an analysis of peripheral blood mononuclear cells from 26 donors with ME/CFS (8 with long COVID) and 24 healthy controls. In both patient groups, they found altered expression of inflammatory markers and decreases in CD8 T-cell number and function. The patients with long COVID showed evidence of sustained activation of both T-cell populations with increased CD38 and HLA-DR, associated with a compensatory increased frequency of activated CD4+CD8+ T cells.

“These results are consistent with immune dysregulation associated with overactivation and exhaustion of CD8 T cells, as observed in chronic viral infections and tumor environments,” Dr. Selin said.
 

ME/CFS and long COVID ‘frighteningly similar, if not identical’

Data for a different system derangement in long COVID and ME/CFS, the pathophysiology of exercise intolerance, were presented in another keynote talk by David M. Systrom, MD, a pulmonary and critical care medicine specialist at Brigham and Women’s Hospital and director of the Massachusetts General Hospital cardiopulmonary laboratory, both in Boston. He has conducted invasive cardiopulmonary exercise testing in patients with ME/CFS and patients with long COVID.

Previously, Dr. Systrom and his team found that patients with ME/CFS have distinct defects in both ventricular filling pressure and oxygen extraction from the muscles. Neither of those are features of deconditioning, which is often blamed for exercise intolerance in people with ME/CFS. Rather, the major defect in deconditioning is decreased stroke volume and cardiac output. In ME/CFS patients, he found supranormal pulmonary blood flow, compared with VO₂ max, suggesting peripheral left-to-right shunting.

In addition, Dr. Systrom and colleagues found that a large proportion of ME/CFS patients with these peripheral vascular defects also have biopsy-demonstrated small-fiber neuropathy, suggesting that acute exercise intolerance is related to underlying autonomic nervous system dysfunction.

In Dr. Systrom and colleagues’ long COVID study, invasive cardiopulmonary exercise testing in 10 patients who had recovered from COVID-19 at least 6 months prior and did not have cardiopulmonary disease had significantly revealed reduced peak exercise aerobic capacity (VO₂ max), compared with 10 age- and sex-matched controls. The reduction in peak VO₂ was associated with impaired systemic oxygen extraction, compared with the controls, despite a preserved peak cardiac index.

The long-COVID patients also showed greater ventilatory inefficiency, which “is entirely related to hyperventilation, not intrinsic lung disease,” Dr. Systrom said, adding that while there may be subsets of patients with interstitial lung disease after acute respiratory distress syndrome, these patients didn’t have that. “This for all the world looks like ME/CFS. We think they are frighteningly similar, if not identical,” Dr. Systrom said.  

In a third study for which Dr. Systrom was a coauthor, published in Annals of Neurology, multisystem involvement was found in nine patients following mild COVID-19 infection, using standardized autonomic assessments including Valsalva maneuver, sudomotor and tilt tests, and skin biopsies for small-fiber neuropathy. The findings included cerebrovascular dysregulation with persistent cerebral arteriolar vasoconstriction, small-fiber neuropathy and related dysautonomia, respiratory dysregulation, and chronic inflammation.

Dr. Systrom’s conclusion: “Dyspnea and hyperventilation are common in ME/CFS and long COVID and there is significant overlap with POTS.”

Dr. Bateman disclosed that she is conducting research for Terra Biological. Dr. Systrom said he is conducting research for Astellas.

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

Emerging evidence is shedding light on the common underlying mechanisms contributing to the overlapping clinical phenomena of “long COVID,” myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS), and dysautonomia.

At the virtual annual meeting of the International Association for Chronic Fatigue Syndrome/Myalgic Encephalomyelitis (IACFSME), speakers presented data showing similar pathophysiologic abnormalities in people with systemic symptoms associated with ME/CFS who had a prior SARS-CoV-2 infection and those who did not, including individuals whose illness preceded the COVID-19 pandemic.

Core clinical diagnostic criteria for ME/CFS established by the Institute of Medicine in 2015 include substantial decrement in functioning for 6 months or longer, postexertional malaise, or a worsening of symptoms following even minor exertion (often described by patients as “crashes”), unrefreshing sleep, and cognitive dysfunction and/or orthostatic intolerance that are frequent and severe.

Long COVID has been defined in several different ways using different terminology. The U.S. Centers for Disease Control and Prevention, for example, defines “post-COVID conditions” as those continuing four or more weeks beyond first symptoms. The World Health Organization’s clinical case definition of “post COVID-19 condition” includes otherwise unexplained symptoms 3 months from COVID-19 onset and lasting longer than 2 months.

Both ME/CFS and long COVID commonly involve numerous symptoms beyond the defining ones, affecting nearly every organ system in the body, including systemic, neurocognitive, endocrine, cardiovascular, pulmonary, musculoskeletal, and gastrointestinal, with wide variation among individuals. Autonomic dysfunction is common to both conditions, particularly postural orthostatic tachycardia syndrome (POTS).

“My way of understanding these illnesses is that they’re not just multisystem illnesses, but all these interactive systems that lean on each other are dysregulated. … I would say that a very common underlying mediator of both ME/CFS and long COVID is autonomic dysfunction, and it presents as POTS,” Nancy Klimas, MD, director of the Institute for Neuro-Immune Medicine at Nova Southeastern University, Fort Lauderdale, Fla., told this news organization.

Dr. Klimas, who is also director of Clinical Immunology Research at the Miami Veterans Affairs Medical Center, added that “if basic bioenergetics are disrupted and in an oxidative-stress state [then] they have downregulated energy production at the cellular level, which seems to be the case in ME/CFS and now in long COVID.”
 

New ICD-10 codes better characterize the syndromes

New ICD-10 codes for 2023, being implemented on Oct. 1, will enable clinicians to better document all of these interrelated conditions.

Under the existing G93.3, Postviral and related fatigue syndromes, there will now be:

• G93.31 – Postviral fatigue syndrome.
• G93.32 – Myalgic encephalomyelitis/chronic fatigue syndrome (and the separate terms).
• G93.39 – Other postinfection and related fatigue syndromes.

The old R53.82, “Chronic fatigue, unspecified” code now excludes all of the above conditions.

The additional code U09.9 for “post COVID-19 condition, unspecified,” may also be used if applicable.

In addition, a new code for POTS, G90.A, which wasn’t previously mentioned in ICD-10, may also be used starting Oct. 1.

Lucinda Bateman, MD, founder and director of the Bateman Horne Center, Salt Lake City, advises using all applicable codes for a given patient. “If a patient came into my office with long COVID and met criteria for ME/CFS, we would code both, and also any other syndrome criteria that they may meet, such as POTS or fibromyalgia.

“If people use the codes appropriately, then you can understand the overlap better. It increases the likelihood of reimbursement, creates a more accurate medical record for the patient, and provides them with a better tool should they require disability benefits.”

Dr. Bateman advises in-office orthostatic evaluation for all patients with this symptom constellation, using a passive standing evaluation such as the 10-minute NASA Lean test.

“Clinicians should take the time to do orthostatic testing in these patients because it provides objective markers and will help lead us to potential interventions to help improve people’s function.”

The Bateman Horne center offers clinician resources on management of ME/CFS and related conditions.
 

How common is ME/CFS after COVID-19?

According to one published meta-analysis, the global prevalence of “post-acute sequelae of SARS-CoV-2,” defined by any symptom, is about 43% of patients overall following infection, and 49% at 120 days. Fatigue was the most commonly reported symptom, followed by memory problems. As of March 22, the World Health Organization estimated that there have been more than 470 million COVID-19 cases, which would give a figure of about 200 million people who are experiencing a wide range of long-COVID symptoms. 

On the final day of the IACFSME conference, Luis Nacul, MD, of the University of British Columbia, Vancouver, presented several sets of data from his group and others aiming to determine the proportion of individuals who develop symptoms suggestive of ME/CFS following a COVID-19 infection.   

Among a cohort of 88 adults hospitalized with confirmed SARS-CoV-2 infections during the first pandemic wave in 2020 and followed up in the respiratory clinic, rates of reported generalized fatigue were 67% at 3 months and 59.5% at 6 months. Substantial fatigue (that is, present most days and affecting activity levels) were reported by 16% at 3 months and 7% at 6 months. “This should represent in principle the maximum prevalence of cases who would meet the criteria for ME/CFS,” Dr. Nacul said.

Baseline age was indirectly associated with fatigue at 3 and 6 months, while the number of comorbidities a patient had was directly associated. Comorbidities also predicted severe fatigue at 3 months, but the numbers were too small for assessment at 6 months.

Studies involving nonhospitalized patients suggested lower rates. One meta-analysis showed 1-year rates of fatigue in 32% and cognitive impairment in 22%. Another showed very similar rates, reporting fatigue in 28% and memory/concentration difficulties in 18%-19%.   

Dr. Nacul cautioned that these figures are likely overestimates since many of the study populations are taken from respiratory or long-COVID clinics. “The evidence on ‘post-COVID fatigue syndrome’ or ME/CFS following COVID is still evolving. There is a huge need for studies looking more closely at cases meeting well-defined ME/CFS criteria. This unfortunately hasn’t been done for most studies.”
 

Immune system dysfunction appears to underlie many cases

In a keynote address during the conference, Akiko Iwasaki, PhD, of Yale University, New Haven, Conn., pointed out that long COVID and ME/CFS are among many unexplained postacute infection syndromes associated with a long list of viral pathogens, including Ebola, the prior SARS viruses, Epstein-Barr virus, and Dengue, as well as nonviral pathogens such as Coxiella burnetii (Q fever syndrome) and Borrelia (posttreatment Lyme disease syndrome).

Dr. Iwasaki cited a recent Nature Medicine review article that she coauthored on this topic with an ME/CFS patient, noting: “We really need to understand why some people are failing to recover from these types of diseases.”

Emerging evidence supports four different hypotheses regarding pathogenesis: viral reservoir/viral pathogen-associated molecular pattern molecules, autoimmunity, dysbiosis/viral reactivation, and tissue damage

“Right now, it’s too early to exclude or make any conclusions about these. We need to have an open mind to dissect these various possibilities,” she said.

Two speakers reported findings of immune dysregulation in both ME/CFS and long COVID. Wakiro Sato, MD, PhD, of the National Center of Neurology and Psychiatry, Tokyo, reported that anti–G-protein coupled receptor antibodies were found in 33 (55%) of 60 patients with long COVID, and more than 40% had peripheral immune cell profile abnormalities. These findings were similar to those found in patients with ME/CFS, published by Sato’s team (Brain Behav Immun. 2021 Mar 29. doi: 10.1016/j.bbi.2021.03.023) and other researchers in Germany.  

Liisa K. Selin, MD, PhD, professor of pathology at the University of Massachusetts, Worcester, presented data for an analysis of peripheral blood mononuclear cells from 26 donors with ME/CFS (8 with long COVID) and 24 healthy controls. In both patient groups, they found altered expression of inflammatory markers and decreases in CD8 T-cell number and function. The patients with long COVID showed evidence of sustained activation of both T-cell populations with increased CD38 and HLA-DR, associated with a compensatory increased frequency of activated CD4+CD8+ T cells.

“These results are consistent with immune dysregulation associated with overactivation and exhaustion of CD8 T cells, as observed in chronic viral infections and tumor environments,” Dr. Selin said.
 

ME/CFS and long COVID ‘frighteningly similar, if not identical’

Data for a different system derangement in long COVID and ME/CFS, the pathophysiology of exercise intolerance, were presented in another keynote talk by David M. Systrom, MD, a pulmonary and critical care medicine specialist at Brigham and Women’s Hospital and director of the Massachusetts General Hospital cardiopulmonary laboratory, both in Boston. He has conducted invasive cardiopulmonary exercise testing in patients with ME/CFS and patients with long COVID.

Previously, Dr. Systrom and his team found that patients with ME/CFS have distinct defects in both ventricular filling pressure and oxygen extraction from the muscles. Neither of those are features of deconditioning, which is often blamed for exercise intolerance in people with ME/CFS. Rather, the major defect in deconditioning is decreased stroke volume and cardiac output. In ME/CFS patients, he found supranormal pulmonary blood flow, compared with VO₂ max, suggesting peripheral left-to-right shunting.

In addition, Dr. Systrom and colleagues found that a large proportion of ME/CFS patients with these peripheral vascular defects also have biopsy-demonstrated small-fiber neuropathy, suggesting that acute exercise intolerance is related to underlying autonomic nervous system dysfunction.

In Dr. Systrom and colleagues’ long COVID study, invasive cardiopulmonary exercise testing in 10 patients who had recovered from COVID-19 at least 6 months prior and did not have cardiopulmonary disease had significantly revealed reduced peak exercise aerobic capacity (VO₂ max), compared with 10 age- and sex-matched controls. The reduction in peak VO₂ was associated with impaired systemic oxygen extraction, compared with the controls, despite a preserved peak cardiac index.

The long-COVID patients also showed greater ventilatory inefficiency, which “is entirely related to hyperventilation, not intrinsic lung disease,” Dr. Systrom said, adding that while there may be subsets of patients with interstitial lung disease after acute respiratory distress syndrome, these patients didn’t have that. “This for all the world looks like ME/CFS. We think they are frighteningly similar, if not identical,” Dr. Systrom said.  

In a third study for which Dr. Systrom was a coauthor, published in Annals of Neurology, multisystem involvement was found in nine patients following mild COVID-19 infection, using standardized autonomic assessments including Valsalva maneuver, sudomotor and tilt tests, and skin biopsies for small-fiber neuropathy. The findings included cerebrovascular dysregulation with persistent cerebral arteriolar vasoconstriction, small-fiber neuropathy and related dysautonomia, respiratory dysregulation, and chronic inflammation.

Dr. Systrom’s conclusion: “Dyspnea and hyperventilation are common in ME/CFS and long COVID and there is significant overlap with POTS.”

Dr. Bateman disclosed that she is conducting research for Terra Biological. Dr. Systrom said he is conducting research for Astellas.

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

Emerging evidence is shedding light on the common underlying mechanisms contributing to the overlapping clinical phenomena of “long COVID,” myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS), and dysautonomia.

At the virtual annual meeting of the International Association for Chronic Fatigue Syndrome/Myalgic Encephalomyelitis (IACFSME), speakers presented data showing similar pathophysiologic abnormalities in people with systemic symptoms associated with ME/CFS who had a prior SARS-CoV-2 infection and those who did not, including individuals whose illness preceded the COVID-19 pandemic.

Core clinical diagnostic criteria for ME/CFS established by the Institute of Medicine in 2015 include substantial decrement in functioning for 6 months or longer, postexertional malaise, or a worsening of symptoms following even minor exertion (often described by patients as “crashes”), unrefreshing sleep, and cognitive dysfunction and/or orthostatic intolerance that are frequent and severe.

Long COVID has been defined in several different ways using different terminology. The U.S. Centers for Disease Control and Prevention, for example, defines “post-COVID conditions” as those continuing four or more weeks beyond first symptoms. The World Health Organization’s clinical case definition of “post COVID-19 condition” includes otherwise unexplained symptoms 3 months from COVID-19 onset and lasting longer than 2 months.

Both ME/CFS and long COVID commonly involve numerous symptoms beyond the defining ones, affecting nearly every organ system in the body, including systemic, neurocognitive, endocrine, cardiovascular, pulmonary, musculoskeletal, and gastrointestinal, with wide variation among individuals. Autonomic dysfunction is common to both conditions, particularly postural orthostatic tachycardia syndrome (POTS).

“My way of understanding these illnesses is that they’re not just multisystem illnesses, but all these interactive systems that lean on each other are dysregulated. … I would say that a very common underlying mediator of both ME/CFS and long COVID is autonomic dysfunction, and it presents as POTS,” Nancy Klimas, MD, director of the Institute for Neuro-Immune Medicine at Nova Southeastern University, Fort Lauderdale, Fla., told this news organization.

Dr. Klimas, who is also director of Clinical Immunology Research at the Miami Veterans Affairs Medical Center, added that “if basic bioenergetics are disrupted and in an oxidative-stress state [then] they have downregulated energy production at the cellular level, which seems to be the case in ME/CFS and now in long COVID.”
 

New ICD-10 codes better characterize the syndromes

New ICD-10 codes for 2023, being implemented on Oct. 1, will enable clinicians to better document all of these interrelated conditions.

Under the existing G93.3, Postviral and related fatigue syndromes, there will now be:

• G93.31 – Postviral fatigue syndrome.
• G93.32 – Myalgic encephalomyelitis/chronic fatigue syndrome (and the separate terms).
• G93.39 – Other postinfection and related fatigue syndromes.

The old R53.82, “Chronic fatigue, unspecified” code now excludes all of the above conditions.

The additional code U09.9 for “post COVID-19 condition, unspecified,” may also be used if applicable.

In addition, a new code for POTS, G90.A, which wasn’t previously mentioned in ICD-10, may also be used starting Oct. 1.

Lucinda Bateman, MD, founder and director of the Bateman Horne Center, Salt Lake City, advises using all applicable codes for a given patient. “If a patient came into my office with long COVID and met criteria for ME/CFS, we would code both, and also any other syndrome criteria that they may meet, such as POTS or fibromyalgia.

“If people use the codes appropriately, then you can understand the overlap better. It increases the likelihood of reimbursement, creates a more accurate medical record for the patient, and provides them with a better tool should they require disability benefits.”

Dr. Bateman advises in-office orthostatic evaluation for all patients with this symptom constellation, using a passive standing evaluation such as the 10-minute NASA Lean test.

“Clinicians should take the time to do orthostatic testing in these patients because it provides objective markers and will help lead us to potential interventions to help improve people’s function.”

The Bateman Horne center offers clinician resources on management of ME/CFS and related conditions.
 

How common is ME/CFS after COVID-19?

According to one published meta-analysis, the global prevalence of “post-acute sequelae of SARS-CoV-2,” defined by any symptom, is about 43% of patients overall following infection, and 49% at 120 days. Fatigue was the most commonly reported symptom, followed by memory problems. As of March 22, the World Health Organization estimated that there have been more than 470 million COVID-19 cases, which would give a figure of about 200 million people who are experiencing a wide range of long-COVID symptoms. 

On the final day of the IACFSME conference, Luis Nacul, MD, of the University of British Columbia, Vancouver, presented several sets of data from his group and others aiming to determine the proportion of individuals who develop symptoms suggestive of ME/CFS following a COVID-19 infection.   

Among a cohort of 88 adults hospitalized with confirmed SARS-CoV-2 infections during the first pandemic wave in 2020 and followed up in the respiratory clinic, rates of reported generalized fatigue were 67% at 3 months and 59.5% at 6 months. Substantial fatigue (that is, present most days and affecting activity levels) were reported by 16% at 3 months and 7% at 6 months. “This should represent in principle the maximum prevalence of cases who would meet the criteria for ME/CFS,” Dr. Nacul said.

Baseline age was indirectly associated with fatigue at 3 and 6 months, while the number of comorbidities a patient had was directly associated. Comorbidities also predicted severe fatigue at 3 months, but the numbers were too small for assessment at 6 months.

Studies involving nonhospitalized patients suggested lower rates. One meta-analysis showed 1-year rates of fatigue in 32% and cognitive impairment in 22%. Another showed very similar rates, reporting fatigue in 28% and memory/concentration difficulties in 18%-19%.   

Dr. Nacul cautioned that these figures are likely overestimates since many of the study populations are taken from respiratory or long-COVID clinics. “The evidence on ‘post-COVID fatigue syndrome’ or ME/CFS following COVID is still evolving. There is a huge need for studies looking more closely at cases meeting well-defined ME/CFS criteria. This unfortunately hasn’t been done for most studies.”
 

Immune system dysfunction appears to underlie many cases

In a keynote address during the conference, Akiko Iwasaki, PhD, of Yale University, New Haven, Conn., pointed out that long COVID and ME/CFS are among many unexplained postacute infection syndromes associated with a long list of viral pathogens, including Ebola, the prior SARS viruses, Epstein-Barr virus, and Dengue, as well as nonviral pathogens such as Coxiella burnetii (Q fever syndrome) and Borrelia (posttreatment Lyme disease syndrome).

Dr. Iwasaki cited a recent Nature Medicine review article that she coauthored on this topic with an ME/CFS patient, noting: “We really need to understand why some people are failing to recover from these types of diseases.”

Emerging evidence supports four different hypotheses regarding pathogenesis: viral reservoir/viral pathogen-associated molecular pattern molecules, autoimmunity, dysbiosis/viral reactivation, and tissue damage

“Right now, it’s too early to exclude or make any conclusions about these. We need to have an open mind to dissect these various possibilities,” she said.

Two speakers reported findings of immune dysregulation in both ME/CFS and long COVID. Wakiro Sato, MD, PhD, of the National Center of Neurology and Psychiatry, Tokyo, reported that anti–G-protein coupled receptor antibodies were found in 33 (55%) of 60 patients with long COVID, and more than 40% had peripheral immune cell profile abnormalities. These findings were similar to those found in patients with ME/CFS, published by Sato’s team (Brain Behav Immun. 2021 Mar 29. doi: 10.1016/j.bbi.2021.03.023) and other researchers in Germany.  

Liisa K. Selin, MD, PhD, professor of pathology at the University of Massachusetts, Worcester, presented data for an analysis of peripheral blood mononuclear cells from 26 donors with ME/CFS (8 with long COVID) and 24 healthy controls. In both patient groups, they found altered expression of inflammatory markers and decreases in CD8 T-cell number and function. The patients with long COVID showed evidence of sustained activation of both T-cell populations with increased CD38 and HLA-DR, associated with a compensatory increased frequency of activated CD4+CD8+ T cells.

“These results are consistent with immune dysregulation associated with overactivation and exhaustion of CD8 T cells, as observed in chronic viral infections and tumor environments,” Dr. Selin said.
 

ME/CFS and long COVID ‘frighteningly similar, if not identical’

Data for a different system derangement in long COVID and ME/CFS, the pathophysiology of exercise intolerance, were presented in another keynote talk by David M. Systrom, MD, a pulmonary and critical care medicine specialist at Brigham and Women’s Hospital and director of the Massachusetts General Hospital cardiopulmonary laboratory, both in Boston. He has conducted invasive cardiopulmonary exercise testing in patients with ME/CFS and patients with long COVID.

Previously, Dr. Systrom and his team found that patients with ME/CFS have distinct defects in both ventricular filling pressure and oxygen extraction from the muscles. Neither of those are features of deconditioning, which is often blamed for exercise intolerance in people with ME/CFS. Rather, the major defect in deconditioning is decreased stroke volume and cardiac output. In ME/CFS patients, he found supranormal pulmonary blood flow, compared with VO₂ max, suggesting peripheral left-to-right shunting.

In addition, Dr. Systrom and colleagues found that a large proportion of ME/CFS patients with these peripheral vascular defects also have biopsy-demonstrated small-fiber neuropathy, suggesting that acute exercise intolerance is related to underlying autonomic nervous system dysfunction.

In Dr. Systrom and colleagues’ long COVID study, invasive cardiopulmonary exercise testing in 10 patients who had recovered from COVID-19 at least 6 months prior and did not have cardiopulmonary disease had significantly revealed reduced peak exercise aerobic capacity (VO₂ max), compared with 10 age- and sex-matched controls. The reduction in peak VO₂ was associated with impaired systemic oxygen extraction, compared with the controls, despite a preserved peak cardiac index.

The long-COVID patients also showed greater ventilatory inefficiency, which “is entirely related to hyperventilation, not intrinsic lung disease,” Dr. Systrom said, adding that while there may be subsets of patients with interstitial lung disease after acute respiratory distress syndrome, these patients didn’t have that. “This for all the world looks like ME/CFS. We think they are frighteningly similar, if not identical,” Dr. Systrom said.  

In a third study for which Dr. Systrom was a coauthor, published in Annals of Neurology, multisystem involvement was found in nine patients following mild COVID-19 infection, using standardized autonomic assessments including Valsalva maneuver, sudomotor and tilt tests, and skin biopsies for small-fiber neuropathy. The findings included cerebrovascular dysregulation with persistent cerebral arteriolar vasoconstriction, small-fiber neuropathy and related dysautonomia, respiratory dysregulation, and chronic inflammation.

Dr. Systrom’s conclusion: “Dyspnea and hyperventilation are common in ME/CFS and long COVID and there is significant overlap with POTS.”

Dr. Bateman disclosed that she is conducting research for Terra Biological. Dr. Systrom said he is conducting research for Astellas.

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

A variety of treatments, most already commercially available, are under investigation for treating the constellation of overlapping symptoms associated with myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS), “long COVID,” and dysautonomia.

At the virtual annual meeting of the International Association for Chronic Fatigue Syndrome/Myalgic Encephalomyelitis, speakers presented data for a variety of approaches to ease symptoms common across postviral conditions, such as extreme fatigue, postexertional malaise (“crash”), cognitive dysfunction (“brain fog”), orthostatic intolerance including postural orthostatic tachycardia syndrome (POTS), and chronic pain. Most of the modalities are already commercially available for other indications, although some are costly and not covered by payers for these conditions.

“Both post–acute COVID-19 syndrome and ME/CFS are forms of postinfectious viral syndromes and they have overlapping symptoms. ... In the past, patients were told ‘you have chronic fatigue syndrome but there’s nothing we can do for it.’ That certainly is not the case. There aren’t cures, but there are many management techniques to improve symptoms,” Charles W. Lapp, MD, medical director of the Hunter-Hopkins Center, Charlotte, N.C., said in an interview.

A current mainstay of treatment for ME/CFS – including that triggered by COVID-19 – is activity pacing, in which patients learn to stay within their “energy envelopes” in order to avoid postexertional malaise, a worsening of all symptoms with exertion. The use of “graded exercise” is no longer recommended, per U.K. and U.S. guidelines.

Data for the following approaches were presented at the IACFS/ME conference:
 

Pyridostigmine (mestinon, others)

Pyridostigmine, an acetylcholinesterase inhibitor, is approved for the treatment of muscle weakness resulting from myasthenia gravis and is available in generic form. It has previously been shown to produce significant improvement in both symptom burden and heart rate response in POTS.

At the IACFS/ME conference, David M. Systrom, MD, a pulmonary and critical care medicine specialist at Brigham and Women’s Hospital and director of the Massachusetts General Hospital Cardiopulmonary laboratory, both in Boston, summarized his group’s study in patients with ME/CFS using pyridostigmine as both a potential treatment for improving exercise capacity and a proof-of-concept that neurovascular dysregulation underlies exertional intolerance in the condition.

A total of 45 patients were randomized to 60 mg oral pyridostigmine or placebo after an invasive cardiopulmonary exercise test, and a second test performed 50 minutes later. Peak VO₂ increased after pyridostigmine but decreased after placebo (+13.3 mL/min vs. –40.2 mL/min, P < .05). Cardiac output and right atrial pressure were also significantly improved with pyridostigmine and worse with placebo.

“We suggest that treatable neurovascular dysregulation underlies acute exercise intolerance in ME/CFS. ... Pyridostigmine may be a useful repurposed off-label treatment [for] a subset of patients with exercise intolerance,” Dr. Systrom said.

Asked to comment, Dr. Lapp said: “We’ve used Mestinon for years because it helps with POTS and also with neurally mediated hypotension. Systrom is taking it to a new level because he’s shown that it increases preload to the heart.” However, he noted that it’s unclear whether the drug will help patients who don’t have POTS specifically. On the other hand, patients rarely experience side effects from the drug.

Since the generic tablets come only in 60-mg doses, and the starting dose is 30 mg three times a day, he advised cutting the tablets in half during titration up to 60 mg three times a day.
 

Oxaloacetate (benaGene)

David Lyons Kaufman, MD, of the Center for Complex Diseases, Mountain View, Calif., summarized data from his group’s recently published open-label, nonrandomized, “proof-of-concept” study on use of the commercially available nutritional supplement anhydrous enol-oxaloacetate for treating mental and physical fatigue in 76 patients with longstanding ME/CFS and 43 with long-COVID fatigue.

Oxaloacetate is a major step in the Krebs cycle within the mitochondria that are depleted in patients with ME/CFS. It is also an energy metabolite that has multiple effects in cells and mitochondria, Dr. Kaufman explained.

Doses ranging from 500 mg twice daily up to 1,000 mg three times a day were given for 6 weeks. Up to 33% of the patients with ME/CFS and up to 46.8% of the long-COVID group achieved clinical efficacy as measured by physical and mental fatigue scores, compared with just 5.9% of historical ME/CFS controls. All doses showed highly significant improvements.

The only adverse effects were occasional dyspepsia, which was avoided by taking the supplement with food, and insomnia, resolved by having them dose at breakfast and lunch, Dr. Kaufman said.

Following those preliminary data, there is now an ongoing 90-day, randomized, placebo-controlled clinical trial of 80 patients with ME/CFS using 2,000 mg anhydrous enol-oxaloacetate per day. Endpoints include multiple objective measures.

“We have a health care crisis with long COVID, and we’ve had this smoldering crisis with ME/CFS for decades that’s never been addressed. ME/CFS and long COVID, if not identical, are certainly overlapping. ... We have to pursue these translational medicine pilot studies as rapidly as possible,” Dr. Kaufman remarked.

Dr. Lapp told this news organization that it makes sense to use constituents of the Krebs cycle to improve mitochondrial function, but the problem with oxaloacetate is its cost. Dr. Kaufman mentioned that based on the preliminary trial, the therapeutic “sweet spot” appeared to be 1,000 mg twice daily. The manufacturer’s website lists the price for a single bottle of 30 250-mg capsules at $49, or $42 if purchased via a monthly subscription.

“It’s a benign drug, and it’s over the counter. I would give it to any patient who’s got a big wallet,” Dr. Lapp quipped, adding: “If they’ve got the money, they can order it tonight.”
 

Inspiritol

Inspiritol is an investigational “nebulized, inhaled, multimechanism medication designed to treat the major symptoms of respiratory distress with antioxidant, anti-inflammatory, and broad-spectrum antiviral and antibacterial properties. Inspiritol is composed of both endogenously produced and naturally occurring, well-tolerated biochemicals,” according to the company website.

The hypothesis, Liisa K. Selin, MD, PhD, professor of pathology at the University of Massachusetts, Worcester, said at the meeting, is that “ME/CFS and long COVID-19 result from an aberrant response to an immunological trigger like infection, which results in a permanently dysregulated immune system as a result of overactivation of CD8 T cells and subsequent exhaustion.”

Inspiritol, containing five antioxidants, acts as an immune modulator to reverse the CD8 T cell exhaustion and improve symptoms. Administration by inhaler delivers it directly to the brain from the lung. It was originally designed for use in chronic obstructive pulmonary disease and asthma and has shown efficacy for acute COVID-19, Dr. Selin said.

In a preliminary study, four patients with ME/CFS and five with long COVID have been treated with Inspiritol for 2-15 months, and all have self-reported improved symptoms. Cough has been the only reported side effect.

The company is pursuing an Investigational New Drug Application for the product with the Food and Drug Administration and has several patents pending. Dr. Lapp called Inspiritol “very interesting,” and said that reversal of CD8 “exhaustion” also would appear to be a promising approach. However, he noted, “the problem is that we don’t know what’s in it.”
 

Stellate ganglion block

Injection of local anesthetic near the stellate ganglion to block activity of the entire cervical sympathetic chain has been used for nearly a century to treat a variety of sympathetically mediated conditions, including complex regional pain syndrome (CRPS), shingles, and phantom-limb pain. More recently, it has been used in a variety of other conditions, including PTSD, Raynaud’s disease, menopausal hot flashes, and hyperhidrosis.

Insurance companies typically cover it for CRPS, neuropathic upper-extremity pain, hyperhidrosis, and Raynaud’s, said Luke Liu, MD, an anesthesiologist who is founder and chief executive officer of Alaska-based pain management company Neuroversion.

Deborah Duricka, PhD, also with Neuroversion, presented results from a now-published case series of 11 patients with long COVID who underwent stellate ganglion block by a board-certified anesthesiologist, first on one side at the level of C6, then on the contralateral side the following day.

Clinically meaningful benefits were seen in at least five of the patients in fatigue, memory problems, problems concentrating, rapid heartbeat, orthostatic intolerance, sleep problems, postexertional malaise, anxiety, and depression.

The hypothetical mechanism, she said, is that “sympathetic block prevents sympathetically driven vasoconstriction in carotid and vertebral arteries.”

Dr. Liu presented another case series of five patients with ME/CFS who underwent the procedure with ultrasound guidance, again on one side and the other side the next day. All had upper-limb autonomic issues such as Raynaud’s and/or neuropathic pain that had been refractory to more conventional treatments.

All five patients reported improvements in symptoms of ME/CFS, including energy level, cognition, pain, and postexertional malaise. One patient reported “feeling well for the first time in decades.” However, that patient relapsed after a mild viral illness 3.5 months after treatment. Some of the patients have required further treatments.

Dr. Lapp commented that, although the procedure is generally safe when performed by an experienced clinician, “Any time you do an injection like that, there’s a high risk that you could nick an artery or a vein or hit an essential nerve in the neck. That’s why it has to be done under fluoroscopy or ultrasound.”

He said he’s had a few patients undergo the procedure, mostly for CRPS, and they seem to have benefited from it. “It might increase cerebral blood flow and preload to the heart, so it might decrease ME/CFS symptoms and help with POTS as well.”

Nonetheless, Dr. Lapp said he wouldn’t consider stellate ganglion block as first-line treatment for ME/CFS or long COVID. “I think it would be for the treatment-resistant patient, when you’ve gone through all the treatments that we know and addressed all the comorbidities and they’re still not getting better.”

But, he added, it is a standard procedure. “Any pain clinic can do a stellate block.”
 

Transcutaneous auricular vagus nerve stimulation

Nicola Clague-Baker, PhD, a physiotherapist at the University of Liverpool (England), presented findings from an international survey of people with ME/CFS regarding their experience with transcutaneous auricular vagus nerve stimulation (taVNS) to manage their autonomic symptoms. The technique involves stimulation of the autonomic nervous system via the vagus nerve using electrodes applied to part of the ear. The theory is that the technique stimulates the parasympathetic nervous system and improves autonomic balance.

Two small previous trials showing benefit of vagus nerve stimulation for people with ME/CFS used more invasive and less comfortable methods of applying the stimulation rather than to the ear, Dr. Clague-Baker and colleagues noted in a poster. It has also been used successfully in treating POTS, another conference speaker noted.

A total of 131 people with ME/CFS (called simply “ME” in the United Kingdom) responded to a survey advertised on social media and websites. The majority (60%) were from the United Kingdom while the rest were from Europe, Australia, and North America. Most were female, and slightly more than half had lived with ME for 10 or more years.

The majority (72%) were still using taVNS, while 28% had stopped using it. Only 9% had used the modality for longer than a year. Respondents identified more than 30 benefits in symptoms and activities, with improvements in postexertional malaise (39%) and brain fog (37%) being the most common. One reported significant reduction in constipation.

However, respondents also mentioned more than 20 short- and long-term negatives, including headaches (15%) and long-term irritation at the site (9%). One participant reported a “big improvement in neuropathic pain, but not so much for muscles and joints.”

Overall, 80% reported that they would continue using taVNS and 67% said they would recommend it to others with ME, and 56% said that the system was mildly to very beneficial.

Dr. Lapp noted that several types of transcutaneous electrical nerve stimulation units with ear clips are sold online, and he’s seen them work well for migraine treatment. However, he cautioned that some patients have had side effects from the treatment, such as headaches and dizziness. “It’s putting an electrical current through your brain. In my mind, it’s another last-ditch measure.”

Dr. Lapp reported no financial disclosures.

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

A variety of treatments, most already commercially available, are under investigation for treating the constellation of overlapping symptoms associated with myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS), “long COVID,” and dysautonomia.

At the virtual annual meeting of the International Association for Chronic Fatigue Syndrome/Myalgic Encephalomyelitis, speakers presented data for a variety of approaches to ease symptoms common across postviral conditions, such as extreme fatigue, postexertional malaise (“crash”), cognitive dysfunction (“brain fog”), orthostatic intolerance including postural orthostatic tachycardia syndrome (POTS), and chronic pain. Most of the modalities are already commercially available for other indications, although some are costly and not covered by payers for these conditions.

“Both post–acute COVID-19 syndrome and ME/CFS are forms of postinfectious viral syndromes and they have overlapping symptoms. ... In the past, patients were told ‘you have chronic fatigue syndrome but there’s nothing we can do for it.’ That certainly is not the case. There aren’t cures, but there are many management techniques to improve symptoms,” Charles W. Lapp, MD, medical director of the Hunter-Hopkins Center, Charlotte, N.C., said in an interview.

A current mainstay of treatment for ME/CFS – including that triggered by COVID-19 – is activity pacing, in which patients learn to stay within their “energy envelopes” in order to avoid postexertional malaise, a worsening of all symptoms with exertion. The use of “graded exercise” is no longer recommended, per U.K. and U.S. guidelines.

Data for the following approaches were presented at the IACFS/ME conference:
 

Pyridostigmine (mestinon, others)

Pyridostigmine, an acetylcholinesterase inhibitor, is approved for the treatment of muscle weakness resulting from myasthenia gravis and is available in generic form. It has previously been shown to produce significant improvement in both symptom burden and heart rate response in POTS.

At the IACFS/ME conference, David M. Systrom, MD, a pulmonary and critical care medicine specialist at Brigham and Women’s Hospital and director of the Massachusetts General Hospital Cardiopulmonary laboratory, both in Boston, summarized his group’s study in patients with ME/CFS using pyridostigmine as both a potential treatment for improving exercise capacity and a proof-of-concept that neurovascular dysregulation underlies exertional intolerance in the condition.

A total of 45 patients were randomized to 60 mg oral pyridostigmine or placebo after an invasive cardiopulmonary exercise test, and a second test performed 50 minutes later. Peak VO₂ increased after pyridostigmine but decreased after placebo (+13.3 mL/min vs. –40.2 mL/min, P < .05). Cardiac output and right atrial pressure were also significantly improved with pyridostigmine and worse with placebo.

“We suggest that treatable neurovascular dysregulation underlies acute exercise intolerance in ME/CFS. ... Pyridostigmine may be a useful repurposed off-label treatment [for] a subset of patients with exercise intolerance,” Dr. Systrom said.

Asked to comment, Dr. Lapp said: “We’ve used Mestinon for years because it helps with POTS and also with neurally mediated hypotension. Systrom is taking it to a new level because he’s shown that it increases preload to the heart.” However, he noted that it’s unclear whether the drug will help patients who don’t have POTS specifically. On the other hand, patients rarely experience side effects from the drug.

Since the generic tablets come only in 60-mg doses, and the starting dose is 30 mg three times a day, he advised cutting the tablets in half during titration up to 60 mg three times a day.
 

Oxaloacetate (benaGene)

David Lyons Kaufman, MD, of the Center for Complex Diseases, Mountain View, Calif., summarized data from his group’s recently published open-label, nonrandomized, “proof-of-concept” study on use of the commercially available nutritional supplement anhydrous enol-oxaloacetate for treating mental and physical fatigue in 76 patients with longstanding ME/CFS and 43 with long-COVID fatigue.

Oxaloacetate is a major step in the Krebs cycle within the mitochondria that are depleted in patients with ME/CFS. It is also an energy metabolite that has multiple effects in cells and mitochondria, Dr. Kaufman explained.

Doses ranging from 500 mg twice daily up to 1,000 mg three times a day were given for 6 weeks. Up to 33% of the patients with ME/CFS and up to 46.8% of the long-COVID group achieved clinical efficacy as measured by physical and mental fatigue scores, compared with just 5.9% of historical ME/CFS controls. All doses showed highly significant improvements.

The only adverse effects were occasional dyspepsia, which was avoided by taking the supplement with food, and insomnia, resolved by having them dose at breakfast and lunch, Dr. Kaufman said.

Following those preliminary data, there is now an ongoing 90-day, randomized, placebo-controlled clinical trial of 80 patients with ME/CFS using 2,000 mg anhydrous enol-oxaloacetate per day. Endpoints include multiple objective measures.

“We have a health care crisis with long COVID, and we’ve had this smoldering crisis with ME/CFS for decades that’s never been addressed. ME/CFS and long COVID, if not identical, are certainly overlapping. ... We have to pursue these translational medicine pilot studies as rapidly as possible,” Dr. Kaufman remarked.

Dr. Lapp told this news organization that it makes sense to use constituents of the Krebs cycle to improve mitochondrial function, but the problem with oxaloacetate is its cost. Dr. Kaufman mentioned that based on the preliminary trial, the therapeutic “sweet spot” appeared to be 1,000 mg twice daily. The manufacturer’s website lists the price for a single bottle of 30 250-mg capsules at $49, or $42 if purchased via a monthly subscription.

“It’s a benign drug, and it’s over the counter. I would give it to any patient who’s got a big wallet,” Dr. Lapp quipped, adding: “If they’ve got the money, they can order it tonight.”
 

Inspiritol

Inspiritol is an investigational “nebulized, inhaled, multimechanism medication designed to treat the major symptoms of respiratory distress with antioxidant, anti-inflammatory, and broad-spectrum antiviral and antibacterial properties. Inspiritol is composed of both endogenously produced and naturally occurring, well-tolerated biochemicals,” according to the company website.

The hypothesis, Liisa K. Selin, MD, PhD, professor of pathology at the University of Massachusetts, Worcester, said at the meeting, is that “ME/CFS and long COVID-19 result from an aberrant response to an immunological trigger like infection, which results in a permanently dysregulated immune system as a result of overactivation of CD8 T cells and subsequent exhaustion.”

Inspiritol, containing five antioxidants, acts as an immune modulator to reverse the CD8 T cell exhaustion and improve symptoms. Administration by inhaler delivers it directly to the brain from the lung. It was originally designed for use in chronic obstructive pulmonary disease and asthma and has shown efficacy for acute COVID-19, Dr. Selin said.

In a preliminary study, four patients with ME/CFS and five with long COVID have been treated with Inspiritol for 2-15 months, and all have self-reported improved symptoms. Cough has been the only reported side effect.

The company is pursuing an Investigational New Drug Application for the product with the Food and Drug Administration and has several patents pending. Dr. Lapp called Inspiritol “very interesting,” and said that reversal of CD8 “exhaustion” also would appear to be a promising approach. However, he noted, “the problem is that we don’t know what’s in it.”
 

Stellate ganglion block

Injection of local anesthetic near the stellate ganglion to block activity of the entire cervical sympathetic chain has been used for nearly a century to treat a variety of sympathetically mediated conditions, including complex regional pain syndrome (CRPS), shingles, and phantom-limb pain. More recently, it has been used in a variety of other conditions, including PTSD, Raynaud’s disease, menopausal hot flashes, and hyperhidrosis.

Insurance companies typically cover it for CRPS, neuropathic upper-extremity pain, hyperhidrosis, and Raynaud’s, said Luke Liu, MD, an anesthesiologist who is founder and chief executive officer of Alaska-based pain management company Neuroversion.

Deborah Duricka, PhD, also with Neuroversion, presented results from a now-published case series of 11 patients with long COVID who underwent stellate ganglion block by a board-certified anesthesiologist, first on one side at the level of C6, then on the contralateral side the following day.

Clinically meaningful benefits were seen in at least five of the patients in fatigue, memory problems, problems concentrating, rapid heartbeat, orthostatic intolerance, sleep problems, postexertional malaise, anxiety, and depression.

The hypothetical mechanism, she said, is that “sympathetic block prevents sympathetically driven vasoconstriction in carotid and vertebral arteries.”

Dr. Liu presented another case series of five patients with ME/CFS who underwent the procedure with ultrasound guidance, again on one side and the other side the next day. All had upper-limb autonomic issues such as Raynaud’s and/or neuropathic pain that had been refractory to more conventional treatments.

All five patients reported improvements in symptoms of ME/CFS, including energy level, cognition, pain, and postexertional malaise. One patient reported “feeling well for the first time in decades.” However, that patient relapsed after a mild viral illness 3.5 months after treatment. Some of the patients have required further treatments.

Dr. Lapp commented that, although the procedure is generally safe when performed by an experienced clinician, “Any time you do an injection like that, there’s a high risk that you could nick an artery or a vein or hit an essential nerve in the neck. That’s why it has to be done under fluoroscopy or ultrasound.”

He said he’s had a few patients undergo the procedure, mostly for CRPS, and they seem to have benefited from it. “It might increase cerebral blood flow and preload to the heart, so it might decrease ME/CFS symptoms and help with POTS as well.”

Nonetheless, Dr. Lapp said he wouldn’t consider stellate ganglion block as first-line treatment for ME/CFS or long COVID. “I think it would be for the treatment-resistant patient, when you’ve gone through all the treatments that we know and addressed all the comorbidities and they’re still not getting better.”

But, he added, it is a standard procedure. “Any pain clinic can do a stellate block.”
 

Transcutaneous auricular vagus nerve stimulation

Nicola Clague-Baker, PhD, a physiotherapist at the University of Liverpool (England), presented findings from an international survey of people with ME/CFS regarding their experience with transcutaneous auricular vagus nerve stimulation (taVNS) to manage their autonomic symptoms. The technique involves stimulation of the autonomic nervous system via the vagus nerve using electrodes applied to part of the ear. The theory is that the technique stimulates the parasympathetic nervous system and improves autonomic balance.

Two small previous trials showing benefit of vagus nerve stimulation for people with ME/CFS used more invasive and less comfortable methods of applying the stimulation rather than to the ear, Dr. Clague-Baker and colleagues noted in a poster. It has also been used successfully in treating POTS, another conference speaker noted.

A total of 131 people with ME/CFS (called simply “ME” in the United Kingdom) responded to a survey advertised on social media and websites. The majority (60%) were from the United Kingdom while the rest were from Europe, Australia, and North America. Most were female, and slightly more than half had lived with ME for 10 or more years.

The majority (72%) were still using taVNS, while 28% had stopped using it. Only 9% had used the modality for longer than a year. Respondents identified more than 30 benefits in symptoms and activities, with improvements in postexertional malaise (39%) and brain fog (37%) being the most common. One reported significant reduction in constipation.

However, respondents also mentioned more than 20 short- and long-term negatives, including headaches (15%) and long-term irritation at the site (9%). One participant reported a “big improvement in neuropathic pain, but not so much for muscles and joints.”

Overall, 80% reported that they would continue using taVNS and 67% said they would recommend it to others with ME, and 56% said that the system was mildly to very beneficial.

Dr. Lapp noted that several types of transcutaneous electrical nerve stimulation units with ear clips are sold online, and he’s seen them work well for migraine treatment. However, he cautioned that some patients have had side effects from the treatment, such as headaches and dizziness. “It’s putting an electrical current through your brain. In my mind, it’s another last-ditch measure.”

Dr. Lapp reported no financial disclosures.

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

A variety of treatments, most already commercially available, are under investigation for treating the constellation of overlapping symptoms associated with myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS), “long COVID,” and dysautonomia.

At the virtual annual meeting of the International Association for Chronic Fatigue Syndrome/Myalgic Encephalomyelitis, speakers presented data for a variety of approaches to ease symptoms common across postviral conditions, such as extreme fatigue, postexertional malaise (“crash”), cognitive dysfunction (“brain fog”), orthostatic intolerance including postural orthostatic tachycardia syndrome (POTS), and chronic pain. Most of the modalities are already commercially available for other indications, although some are costly and not covered by payers for these conditions.

“Both post–acute COVID-19 syndrome and ME/CFS are forms of postinfectious viral syndromes and they have overlapping symptoms. ... In the past, patients were told ‘you have chronic fatigue syndrome but there’s nothing we can do for it.’ That certainly is not the case. There aren’t cures, but there are many management techniques to improve symptoms,” Charles W. Lapp, MD, medical director of the Hunter-Hopkins Center, Charlotte, N.C., said in an interview.

A current mainstay of treatment for ME/CFS – including that triggered by COVID-19 – is activity pacing, in which patients learn to stay within their “energy envelopes” in order to avoid postexertional malaise, a worsening of all symptoms with exertion. The use of “graded exercise” is no longer recommended, per U.K. and U.S. guidelines.

Data for the following approaches were presented at the IACFS/ME conference:
 

Pyridostigmine (mestinon, others)

Pyridostigmine, an acetylcholinesterase inhibitor, is approved for the treatment of muscle weakness resulting from myasthenia gravis and is available in generic form. It has previously been shown to produce significant improvement in both symptom burden and heart rate response in POTS.

At the IACFS/ME conference, David M. Systrom, MD, a pulmonary and critical care medicine specialist at Brigham and Women’s Hospital and director of the Massachusetts General Hospital Cardiopulmonary laboratory, both in Boston, summarized his group’s study in patients with ME/CFS using pyridostigmine as both a potential treatment for improving exercise capacity and a proof-of-concept that neurovascular dysregulation underlies exertional intolerance in the condition.

A total of 45 patients were randomized to 60 mg oral pyridostigmine or placebo after an invasive cardiopulmonary exercise test, and a second test performed 50 minutes later. Peak VO₂ increased after pyridostigmine but decreased after placebo (+13.3 mL/min vs. –40.2 mL/min, P < .05). Cardiac output and right atrial pressure were also significantly improved with pyridostigmine and worse with placebo.

“We suggest that treatable neurovascular dysregulation underlies acute exercise intolerance in ME/CFS. ... Pyridostigmine may be a useful repurposed off-label treatment [for] a subset of patients with exercise intolerance,” Dr. Systrom said.

Asked to comment, Dr. Lapp said: “We’ve used Mestinon for years because it helps with POTS and also with neurally mediated hypotension. Systrom is taking it to a new level because he’s shown that it increases preload to the heart.” However, he noted that it’s unclear whether the drug will help patients who don’t have POTS specifically. On the other hand, patients rarely experience side effects from the drug.

Since the generic tablets come only in 60-mg doses, and the starting dose is 30 mg three times a day, he advised cutting the tablets in half during titration up to 60 mg three times a day.
 

Oxaloacetate (benaGene)

David Lyons Kaufman, MD, of the Center for Complex Diseases, Mountain View, Calif., summarized data from his group’s recently published open-label, nonrandomized, “proof-of-concept” study on use of the commercially available nutritional supplement anhydrous enol-oxaloacetate for treating mental and physical fatigue in 76 patients with longstanding ME/CFS and 43 with long-COVID fatigue.

Oxaloacetate is a major step in the Krebs cycle within the mitochondria that are depleted in patients with ME/CFS. It is also an energy metabolite that has multiple effects in cells and mitochondria, Dr. Kaufman explained.

Doses ranging from 500 mg twice daily up to 1,000 mg three times a day were given for 6 weeks. Up to 33% of the patients with ME/CFS and up to 46.8% of the long-COVID group achieved clinical efficacy as measured by physical and mental fatigue scores, compared with just 5.9% of historical ME/CFS controls. All doses showed highly significant improvements.

The only adverse effects were occasional dyspepsia, which was avoided by taking the supplement with food, and insomnia, resolved by having them dose at breakfast and lunch, Dr. Kaufman said.

Following those preliminary data, there is now an ongoing 90-day, randomized, placebo-controlled clinical trial of 80 patients with ME/CFS using 2,000 mg anhydrous enol-oxaloacetate per day. Endpoints include multiple objective measures.

“We have a health care crisis with long COVID, and we’ve had this smoldering crisis with ME/CFS for decades that’s never been addressed. ME/CFS and long COVID, if not identical, are certainly overlapping. ... We have to pursue these translational medicine pilot studies as rapidly as possible,” Dr. Kaufman remarked.

Dr. Lapp told this news organization that it makes sense to use constituents of the Krebs cycle to improve mitochondrial function, but the problem with oxaloacetate is its cost. Dr. Kaufman mentioned that based on the preliminary trial, the therapeutic “sweet spot” appeared to be 1,000 mg twice daily. The manufacturer’s website lists the price for a single bottle of 30 250-mg capsules at $49, or $42 if purchased via a monthly subscription.

“It’s a benign drug, and it’s over the counter. I would give it to any patient who’s got a big wallet,” Dr. Lapp quipped, adding: “If they’ve got the money, they can order it tonight.”
 

Inspiritol

Inspiritol is an investigational “nebulized, inhaled, multimechanism medication designed to treat the major symptoms of respiratory distress with antioxidant, anti-inflammatory, and broad-spectrum antiviral and antibacterial properties. Inspiritol is composed of both endogenously produced and naturally occurring, well-tolerated biochemicals,” according to the company website.

The hypothesis, Liisa K. Selin, MD, PhD, professor of pathology at the University of Massachusetts, Worcester, said at the meeting, is that “ME/CFS and long COVID-19 result from an aberrant response to an immunological trigger like infection, which results in a permanently dysregulated immune system as a result of overactivation of CD8 T cells and subsequent exhaustion.”

Inspiritol, containing five antioxidants, acts as an immune modulator to reverse the CD8 T cell exhaustion and improve symptoms. Administration by inhaler delivers it directly to the brain from the lung. It was originally designed for use in chronic obstructive pulmonary disease and asthma and has shown efficacy for acute COVID-19, Dr. Selin said.

In a preliminary study, four patients with ME/CFS and five with long COVID have been treated with Inspiritol for 2-15 months, and all have self-reported improved symptoms. Cough has been the only reported side effect.

The company is pursuing an Investigational New Drug Application for the product with the Food and Drug Administration and has several patents pending. Dr. Lapp called Inspiritol “very interesting,” and said that reversal of CD8 “exhaustion” also would appear to be a promising approach. However, he noted, “the problem is that we don’t know what’s in it.”
 

Stellate ganglion block

Injection of local anesthetic near the stellate ganglion to block activity of the entire cervical sympathetic chain has been used for nearly a century to treat a variety of sympathetically mediated conditions, including complex regional pain syndrome (CRPS), shingles, and phantom-limb pain. More recently, it has been used in a variety of other conditions, including PTSD, Raynaud’s disease, menopausal hot flashes, and hyperhidrosis.

Insurance companies typically cover it for CRPS, neuropathic upper-extremity pain, hyperhidrosis, and Raynaud’s, said Luke Liu, MD, an anesthesiologist who is founder and chief executive officer of Alaska-based pain management company Neuroversion.

Deborah Duricka, PhD, also with Neuroversion, presented results from a now-published case series of 11 patients with long COVID who underwent stellate ganglion block by a board-certified anesthesiologist, first on one side at the level of C6, then on the contralateral side the following day.

Clinically meaningful benefits were seen in at least five of the patients in fatigue, memory problems, problems concentrating, rapid heartbeat, orthostatic intolerance, sleep problems, postexertional malaise, anxiety, and depression.

The hypothetical mechanism, she said, is that “sympathetic block prevents sympathetically driven vasoconstriction in carotid and vertebral arteries.”

Dr. Liu presented another case series of five patients with ME/CFS who underwent the procedure with ultrasound guidance, again on one side and the other side the next day. All had upper-limb autonomic issues such as Raynaud’s and/or neuropathic pain that had been refractory to more conventional treatments.

All five patients reported improvements in symptoms of ME/CFS, including energy level, cognition, pain, and postexertional malaise. One patient reported “feeling well for the first time in decades.” However, that patient relapsed after a mild viral illness 3.5 months after treatment. Some of the patients have required further treatments.

Dr. Lapp commented that, although the procedure is generally safe when performed by an experienced clinician, “Any time you do an injection like that, there’s a high risk that you could nick an artery or a vein or hit an essential nerve in the neck. That’s why it has to be done under fluoroscopy or ultrasound.”

He said he’s had a few patients undergo the procedure, mostly for CRPS, and they seem to have benefited from it. “It might increase cerebral blood flow and preload to the heart, so it might decrease ME/CFS symptoms and help with POTS as well.”

Nonetheless, Dr. Lapp said he wouldn’t consider stellate ganglion block as first-line treatment for ME/CFS or long COVID. “I think it would be for the treatment-resistant patient, when you’ve gone through all the treatments that we know and addressed all the comorbidities and they’re still not getting better.”

But, he added, it is a standard procedure. “Any pain clinic can do a stellate block.”
 

Transcutaneous auricular vagus nerve stimulation

Nicola Clague-Baker, PhD, a physiotherapist at the University of Liverpool (England), presented findings from an international survey of people with ME/CFS regarding their experience with transcutaneous auricular vagus nerve stimulation (taVNS) to manage their autonomic symptoms. The technique involves stimulation of the autonomic nervous system via the vagus nerve using electrodes applied to part of the ear. The theory is that the technique stimulates the parasympathetic nervous system and improves autonomic balance.

Two small previous trials showing benefit of vagus nerve stimulation for people with ME/CFS used more invasive and less comfortable methods of applying the stimulation rather than to the ear, Dr. Clague-Baker and colleagues noted in a poster. It has also been used successfully in treating POTS, another conference speaker noted.

A total of 131 people with ME/CFS (called simply “ME” in the United Kingdom) responded to a survey advertised on social media and websites. The majority (60%) were from the United Kingdom while the rest were from Europe, Australia, and North America. Most were female, and slightly more than half had lived with ME for 10 or more years.

The majority (72%) were still using taVNS, while 28% had stopped using it. Only 9% had used the modality for longer than a year. Respondents identified more than 30 benefits in symptoms and activities, with improvements in postexertional malaise (39%) and brain fog (37%) being the most common. One reported significant reduction in constipation.

However, respondents also mentioned more than 20 short- and long-term negatives, including headaches (15%) and long-term irritation at the site (9%). One participant reported a “big improvement in neuropathic pain, but not so much for muscles and joints.”

Overall, 80% reported that they would continue using taVNS and 67% said they would recommend it to others with ME, and 56% said that the system was mildly to very beneficial.

Dr. Lapp noted that several types of transcutaneous electrical nerve stimulation units with ear clips are sold online, and he’s seen them work well for migraine treatment. However, he cautioned that some patients have had side effects from the treatment, such as headaches and dizziness. “It’s putting an electrical current through your brain. In my mind, it’s another last-ditch measure.”

Dr. Lapp reported no financial disclosures.

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

Are you among the hundreds of millions of people worldwide with low back pain? If so, you may be familiar with standard treatments like surgery, shots, medications, and spinal manipulations. But new research suggests the solution for the world’s leading cause of disability may lie in fixing how the brain and the body communicate.

Setting out to challenge traditional treatments for chronic back pain, scientists across Australia, Europe, and the United States came together to test the effectiveness of altering how neural networks recognize pain for new research published this week in JAMA.

The randomized clinical trial recruited two groups of 138 participants with chronic low back pain, testing one group with a novel method called graded sensorimotor retraining intervention (RESOLVE) and the other with things like mock laser therapy and noninvasive brain stimulation.

The researchers found the RESOLVE 12-week training course resulted in a statistically significant improvement in pain intensity at 18 weeks.

“What we observed in our trial was a clinically meaningful effect on pain intensity and a clinically meaningful effect on disability. People were happier, they reported their backs felt better, and their quality of life was better,” the study’s lead author, James McAuley, PhD, said in a statement. “This is the first new treatment of its kind for back pain.”
 

Brainy talk

Communication between your brain and back changes over time when you have chronic lower back pain, leading the brain to interpret signals from the back differently and change how you move. It is thought that these neural changes make recovery from pain slower and more complicated , according to Neuroscience Research Australia (NeuRA), a nonprofit research institute in Sydney.

“Over time, the back becomes less fit, and the way the back and brain communicate is disrupted in ways that seem to reinforce the notion that the back is vulnerable and needs protecting,” said Dr. McAuley, a professor at the University of New South Wales, Sydney, and a NeuRA senior research scientist. “The treatment we devised aims to break this self-sustaining cycle.”

RESOLVE treatment focuses on improving this transformed brain-back communication by slowly retraining the body and the brain without the use of opioids or surgery. People in the study have reported improved quality of life 1 year later, according to Dr. McAuley.

The researchers said the pain improvement was “modest,” and the method will need to be tested on other patients and conditions. They hope to introduce this new treatment to doctors and physiotherapists within the next 6-9 months and have already enlisted partner organizations to start this process, according to NeuRA.

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

Are you among the hundreds of millions of people worldwide with low back pain? If so, you may be familiar with standard treatments like surgery, shots, medications, and spinal manipulations. But new research suggests the solution for the world’s leading cause of disability may lie in fixing how the brain and the body communicate.

Setting out to challenge traditional treatments for chronic back pain, scientists across Australia, Europe, and the United States came together to test the effectiveness of altering how neural networks recognize pain for new research published this week in JAMA.

The randomized clinical trial recruited two groups of 138 participants with chronic low back pain, testing one group with a novel method called graded sensorimotor retraining intervention (RESOLVE) and the other with things like mock laser therapy and noninvasive brain stimulation.

The researchers found the RESOLVE 12-week training course resulted in a statistically significant improvement in pain intensity at 18 weeks.

“What we observed in our trial was a clinically meaningful effect on pain intensity and a clinically meaningful effect on disability. People were happier, they reported their backs felt better, and their quality of life was better,” the study’s lead author, James McAuley, PhD, said in a statement. “This is the first new treatment of its kind for back pain.”
 

Brainy talk

Communication between your brain and back changes over time when you have chronic lower back pain, leading the brain to interpret signals from the back differently and change how you move. It is thought that these neural changes make recovery from pain slower and more complicated , according to Neuroscience Research Australia (NeuRA), a nonprofit research institute in Sydney.

“Over time, the back becomes less fit, and the way the back and brain communicate is disrupted in ways that seem to reinforce the notion that the back is vulnerable and needs protecting,” said Dr. McAuley, a professor at the University of New South Wales, Sydney, and a NeuRA senior research scientist. “The treatment we devised aims to break this self-sustaining cycle.”

RESOLVE treatment focuses on improving this transformed brain-back communication by slowly retraining the body and the brain without the use of opioids or surgery. People in the study have reported improved quality of life 1 year later, according to Dr. McAuley.

The researchers said the pain improvement was “modest,” and the method will need to be tested on other patients and conditions. They hope to introduce this new treatment to doctors and physiotherapists within the next 6-9 months and have already enlisted partner organizations to start this process, according to NeuRA.

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

Are you among the hundreds of millions of people worldwide with low back pain? If so, you may be familiar with standard treatments like surgery, shots, medications, and spinal manipulations. But new research suggests the solution for the world’s leading cause of disability may lie in fixing how the brain and the body communicate.

Setting out to challenge traditional treatments for chronic back pain, scientists across Australia, Europe, and the United States came together to test the effectiveness of altering how neural networks recognize pain for new research published this week in JAMA.

The randomized clinical trial recruited two groups of 138 participants with chronic low back pain, testing one group with a novel method called graded sensorimotor retraining intervention (RESOLVE) and the other with things like mock laser therapy and noninvasive brain stimulation.

The researchers found the RESOLVE 12-week training course resulted in a statistically significant improvement in pain intensity at 18 weeks.

“What we observed in our trial was a clinically meaningful effect on pain intensity and a clinically meaningful effect on disability. People were happier, they reported their backs felt better, and their quality of life was better,” the study’s lead author, James McAuley, PhD, said in a statement. “This is the first new treatment of its kind for back pain.”
 

Brainy talk

Communication between your brain and back changes over time when you have chronic lower back pain, leading the brain to interpret signals from the back differently and change how you move. It is thought that these neural changes make recovery from pain slower and more complicated , according to Neuroscience Research Australia (NeuRA), a nonprofit research institute in Sydney.

“Over time, the back becomes less fit, and the way the back and brain communicate is disrupted in ways that seem to reinforce the notion that the back is vulnerable and needs protecting,” said Dr. McAuley, a professor at the University of New South Wales, Sydney, and a NeuRA senior research scientist. “The treatment we devised aims to break this self-sustaining cycle.”

RESOLVE treatment focuses on improving this transformed brain-back communication by slowly retraining the body and the brain without the use of opioids or surgery. People in the study have reported improved quality of life 1 year later, according to Dr. McAuley.

The researchers said the pain improvement was “modest,” and the method will need to be tested on other patients and conditions. They hope to introduce this new treatment to doctors and physiotherapists within the next 6-9 months and have already enlisted partner organizations to start this process, according to NeuRA.

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

People who are socially isolated or lonely have an increased risk for myocardial infarction, stroke, and death, independent of other factors, the American Heart Association concludes in a new scientific statement.

More than 4 decades of research have “clearly demonstrated that social isolation and loneliness are both associated with adverse health outcomes,” writing group chair Crystal Wiley Cené, MD, University of California San Diego Health, said in a news release.

“Given the prevalence of social disconnectedness across the United States, the public health impact is quite significant,” Dr. Cené added.

The writing group says more research is needed to develop, implement, and test interventions to improve cardiovascular (CV) and brain health in people who are socially isolated or lonely.

The scientific statement was published online in the Journal of the American Heart Association.
 

Common and potentially deadly

Social isolation is defined as having infrequent in-person contact with people and loneliness is when a person feels he or she is alone or has less connection with others than desired.

It’s estimated that one-quarter of community-dwelling Americans 65 years and older are socially isolated, with even more experiencing loneliness.

The problem is not limited to older adults, however. Research suggests that younger adults also experience social isolation and loneliness, which might be attributed to more social media use and less frequent in-person activities.

Dr. Cené and colleagues reviewed observational and intervention research on social isolation published through July 2021 to examine the impact of social isolation and loneliness on CV and brain health.

The evidence is most consistent for a direct association between social isolation, loneliness, and death from coronary heart disease (CHD) and stroke, they reported.

For example, one meta-analysis of 19 studies showed that social isolation and loneliness increase the risk for CHD by 29%; most of these studies focused on acute MI and/or CHD death as the measure of CHD.

A meta-analysis of eight longitudinal observational studies showed social isolation and loneliness were associated with a 32% increased risk for stroke, after adjustment for age, sex, and socioeconomic status.

The literature also suggests social isolation and loneliness are associated with worse prognoses in adults with existing CHD or history of stroke.

One systematic review showed that socially isolated people with CHD had a two- to threefold increase in illness and death over 6 years, independent of cardiac risk factors.

Other research suggests that socially isolated adults with three or fewer social contacts per month have a 40% increased risk for recurrent stroke or MI.

There are fewer and less robust data on the association between social isolation and loneliness with heart failure (HF), dementia, and cognitive impairment, the writing group noted.

It’s also unclear whether actually being isolated (social isolation) or feeling isolated (loneliness) matters most for cardiovascular and brain health, because only a few studies have examined both in the same sample, they pointed out.

However, a study published in Neurology in June showed that older adults who reported feeling socially isolated had worse cognitive function at baseline than did those who did not report social isolation, and were 26% more likely to have dementia at follow-up, as reported by this news organization.
 

Urgent need for interventions

“There is an urgent need to develop, implement, and evaluate programs and strategies to reduce the negative effects of social isolation and loneliness on cardiovascular and brain health, particularly for at-risk populations,” Dr. Cené said in the news release. 

She encourages clinicians to ask patients about their social life and whether they are satisfied with their level of interactions with friends and family, and to be prepared to refer patients who are socially isolated or lonely, especially those with a history of CHD or stroke, to community resources to help them connect with others.

Fitness programs and recreational activities at senior centers, as well as interventions that address negative thoughts of self-worth and other negative thinking, have shown promise in reducing isolation and loneliness, the writing group said.

This scientific statement was prepared by the volunteer writing group on behalf of the AHA Social Determinants of Health Committee of the Council on Epidemiology and Prevention and the Council on Quality of Care and Outcomes Research; the Prevention Science Committee of the Council on Epidemiology and Prevention and the Council on Quality of Care and Outcomes Research; the Prevention Science Committee of the Council on Epidemiology and Prevention and the Council on Cardiovascular and Stroke Nursing; the Council on Arteriosclerosis, Thrombosis, and Vascular Biology; and the Stroke Council.

This research had no commercial funding. Members of the writing group have disclosed no relevant conflicts of interest.

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

People who are socially isolated or lonely have an increased risk for myocardial infarction, stroke, and death, independent of other factors, the American Heart Association concludes in a new scientific statement.

More than 4 decades of research have “clearly demonstrated that social isolation and loneliness are both associated with adverse health outcomes,” writing group chair Crystal Wiley Cené, MD, University of California San Diego Health, said in a news release.

“Given the prevalence of social disconnectedness across the United States, the public health impact is quite significant,” Dr. Cené added.

The writing group says more research is needed to develop, implement, and test interventions to improve cardiovascular (CV) and brain health in people who are socially isolated or lonely.

The scientific statement was published online in the Journal of the American Heart Association.
 

Common and potentially deadly

Social isolation is defined as having infrequent in-person contact with people and loneliness is when a person feels he or she is alone or has less connection with others than desired.

It’s estimated that one-quarter of community-dwelling Americans 65 years and older are socially isolated, with even more experiencing loneliness.

The problem is not limited to older adults, however. Research suggests that younger adults also experience social isolation and loneliness, which might be attributed to more social media use and less frequent in-person activities.

Dr. Cené and colleagues reviewed observational and intervention research on social isolation published through July 2021 to examine the impact of social isolation and loneliness on CV and brain health.

The evidence is most consistent for a direct association between social isolation, loneliness, and death from coronary heart disease (CHD) and stroke, they reported.

For example, one meta-analysis of 19 studies showed that social isolation and loneliness increase the risk for CHD by 29%; most of these studies focused on acute MI and/or CHD death as the measure of CHD.

A meta-analysis of eight longitudinal observational studies showed social isolation and loneliness were associated with a 32% increased risk for stroke, after adjustment for age, sex, and socioeconomic status.

The literature also suggests social isolation and loneliness are associated with worse prognoses in adults with existing CHD or history of stroke.

One systematic review showed that socially isolated people with CHD had a two- to threefold increase in illness and death over 6 years, independent of cardiac risk factors.

Other research suggests that socially isolated adults with three or fewer social contacts per month have a 40% increased risk for recurrent stroke or MI.

There are fewer and less robust data on the association between social isolation and loneliness with heart failure (HF), dementia, and cognitive impairment, the writing group noted.

It’s also unclear whether actually being isolated (social isolation) or feeling isolated (loneliness) matters most for cardiovascular and brain health, because only a few studies have examined both in the same sample, they pointed out.

However, a study published in Neurology in June showed that older adults who reported feeling socially isolated had worse cognitive function at baseline than did those who did not report social isolation, and were 26% more likely to have dementia at follow-up, as reported by this news organization.
 

Urgent need for interventions

“There is an urgent need to develop, implement, and evaluate programs and strategies to reduce the negative effects of social isolation and loneliness on cardiovascular and brain health, particularly for at-risk populations,” Dr. Cené said in the news release. 

She encourages clinicians to ask patients about their social life and whether they are satisfied with their level of interactions with friends and family, and to be prepared to refer patients who are socially isolated or lonely, especially those with a history of CHD or stroke, to community resources to help them connect with others.

Fitness programs and recreational activities at senior centers, as well as interventions that address negative thoughts of self-worth and other negative thinking, have shown promise in reducing isolation and loneliness, the writing group said.

This scientific statement was prepared by the volunteer writing group on behalf of the AHA Social Determinants of Health Committee of the Council on Epidemiology and Prevention and the Council on Quality of Care and Outcomes Research; the Prevention Science Committee of the Council on Epidemiology and Prevention and the Council on Quality of Care and Outcomes Research; the Prevention Science Committee of the Council on Epidemiology and Prevention and the Council on Cardiovascular and Stroke Nursing; the Council on Arteriosclerosis, Thrombosis, and Vascular Biology; and the Stroke Council.

This research had no commercial funding. Members of the writing group have disclosed no relevant conflicts of interest.

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

People who are socially isolated or lonely have an increased risk for myocardial infarction, stroke, and death, independent of other factors, the American Heart Association concludes in a new scientific statement.

More than 4 decades of research have “clearly demonstrated that social isolation and loneliness are both associated with adverse health outcomes,” writing group chair Crystal Wiley Cené, MD, University of California San Diego Health, said in a news release.

“Given the prevalence of social disconnectedness across the United States, the public health impact is quite significant,” Dr. Cené added.

The writing group says more research is needed to develop, implement, and test interventions to improve cardiovascular (CV) and brain health in people who are socially isolated or lonely.

The scientific statement was published online in the Journal of the American Heart Association.
 

Common and potentially deadly

Social isolation is defined as having infrequent in-person contact with people and loneliness is when a person feels he or she is alone or has less connection with others than desired.

It’s estimated that one-quarter of community-dwelling Americans 65 years and older are socially isolated, with even more experiencing loneliness.

The problem is not limited to older adults, however. Research suggests that younger adults also experience social isolation and loneliness, which might be attributed to more social media use and less frequent in-person activities.

Dr. Cené and colleagues reviewed observational and intervention research on social isolation published through July 2021 to examine the impact of social isolation and loneliness on CV and brain health.

The evidence is most consistent for a direct association between social isolation, loneliness, and death from coronary heart disease (CHD) and stroke, they reported.

For example, one meta-analysis of 19 studies showed that social isolation and loneliness increase the risk for CHD by 29%; most of these studies focused on acute MI and/or CHD death as the measure of CHD.

A meta-analysis of eight longitudinal observational studies showed social isolation and loneliness were associated with a 32% increased risk for stroke, after adjustment for age, sex, and socioeconomic status.

The literature also suggests social isolation and loneliness are associated with worse prognoses in adults with existing CHD or history of stroke.

One systematic review showed that socially isolated people with CHD had a two- to threefold increase in illness and death over 6 years, independent of cardiac risk factors.

Other research suggests that socially isolated adults with three or fewer social contacts per month have a 40% increased risk for recurrent stroke or MI.

There are fewer and less robust data on the association between social isolation and loneliness with heart failure (HF), dementia, and cognitive impairment, the writing group noted.

It’s also unclear whether actually being isolated (social isolation) or feeling isolated (loneliness) matters most for cardiovascular and brain health, because only a few studies have examined both in the same sample, they pointed out.

However, a study published in Neurology in June showed that older adults who reported feeling socially isolated had worse cognitive function at baseline than did those who did not report social isolation, and were 26% more likely to have dementia at follow-up, as reported by this news organization.
 

Urgent need for interventions

“There is an urgent need to develop, implement, and evaluate programs and strategies to reduce the negative effects of social isolation and loneliness on cardiovascular and brain health, particularly for at-risk populations,” Dr. Cené said in the news release. 

She encourages clinicians to ask patients about their social life and whether they are satisfied with their level of interactions with friends and family, and to be prepared to refer patients who are socially isolated or lonely, especially those with a history of CHD or stroke, to community resources to help them connect with others.

Fitness programs and recreational activities at senior centers, as well as interventions that address negative thoughts of self-worth and other negative thinking, have shown promise in reducing isolation and loneliness, the writing group said.

This scientific statement was prepared by the volunteer writing group on behalf of the AHA Social Determinants of Health Committee of the Council on Epidemiology and Prevention and the Council on Quality of Care and Outcomes Research; the Prevention Science Committee of the Council on Epidemiology and Prevention and the Council on Quality of Care and Outcomes Research; the Prevention Science Committee of the Council on Epidemiology and Prevention and the Council on Cardiovascular and Stroke Nursing; the Council on Arteriosclerosis, Thrombosis, and Vascular Biology; and the Stroke Council.

This research had no commercial funding. Members of the writing group have disclosed no relevant conflicts of interest.

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

Researchers published the study covered in this summary on researchsquare.com as a preprint that has not yet been peer reviewed.

Key takeaways

• In Japanese adults with type 1 diabetes insulin-pump treatment (continuous subcutaneous insulin infusion) and higher problem-solving perception appear protective against impaired awareness of hypoglycemia (IAH), while diabetic peripheral neuropathy (DPN) is associated with increased risk.
• Diabetes distress and fear of hypoglycemia are common in people with IAH.

Why this matters

• Adults with type 1 diabetes and IAH have a reduced ability to perceive hypoglycemic symptoms and are at risk of severe hypoglycemic events because they are unable to take immediate corrective action.
• This is the first study to identify protective factors and risk factors of IAH in Japanese adults with type 1 diabetes.
• People with IAH may plan to loosen tight glucose management and intentionally omit insulin injection to prevent severe hypoglycemia.
• The information in this report may help improve the management of people with problematic hypoglycemia, the authors suggested. Treatment with an insulin pump and structured education aimed at improving problem-solving skills may be useful interventions for adults with type 1 diabetes and IAH, they suggested.

Study design

• The study involved a cross-sectional analysis of 288 Japanese adults with type 1 diabetes who averaged 50 years old, had diabetes for an average of about 18 years, had an average hemoglobin A1c at baseline of 7.7%, and included about 37% men and 63% women.
• The cohort included 55 people with IAH (19%) and 233 with no impairment of their hypoglycemia awareness, based on their score on the .

Key results

• DPN was significantly more prevalent in the IAH group than in the control group (12.0% vs. 26.5%). A logistic regression analysis showed that the odds ratio for DPN was 2.63-fold higher among people with IAH, compared with those without IAH, but there were no differences in other complications or by HbA1c levels.
• Treatment with continuous subcutaneous insulin therapy (an insulin pump) was significantly less prevalent in the IAH group, compared with those without IAH (23.6% vs 39.5%), with an adjusted odds ratio of 0.48. The two subgroups showed no differences in use of continuous glucose monitoring, used by 56% of the people in each of the two subgroups.
• The two subgroups showed no differences in their healthy lifestyle score, sleep debt, or rates of excessive drinking.
• Mean autonomic symptom scores for both sweating and shaking were significantly reduced in the IAH group, but no between-group differences appeared for palpations or hunger.
• All mean neuroglycopenic symptom scores were significantly lower in those without IAH, including confusion and speech difficulty.
• Scores for measures of diabetes distress and for the worry component of the fear of hypoglycemia were significantly higher in the IAH group, but there were no differences in other psychological measures.
• Higher were significantly associated with decreased IAH risk with a calculated odds ratio of 0.54, but other aspects of hypoglycemia problem-solving such as detection control, goal setting, and strategy evaluation showed no significant links.

Limitations

• The study used a cross-sectional design, which is not suited to making causal inferences.
• The authors characterized DPN as either present or absent. They did not evaluate or analyze the severity of peripheral neuropathy.
• The authors evaluated diabetic cardiac autonomic neuropathy (DCAN) by a person’s coefficient of variation of R-R intervals, and definitive diagnosis of DCAN required at least two positive results on a cardiac autonomic test. More vigorous evaluation using a more definitive assessment of DCAN is needed to relate DCAN and IAH status.

Disclosures

• The study received no commercial funding.
• The authors have disclosed no relevant financial relationships.

This is a summary of a preprint research study, “Protective and risk factors of impaired awareness of hypoglycemia in patients with type 1 diabetes: a cross- sectional analysis of baseline data from the PR-IAH study,” written by researchers at several hospitals in Japan, all affiliated with the National Hospital Organization, on Research Square. The study has not yet been peer reviewed. The full text of the study can be found on researchsquare.com.

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

Researchers published the study covered in this summary on researchsquare.com as a preprint that has not yet been peer reviewed.

Key takeaways

• In Japanese adults with type 1 diabetes insulin-pump treatment (continuous subcutaneous insulin infusion) and higher problem-solving perception appear protective against impaired awareness of hypoglycemia (IAH), while diabetic peripheral neuropathy (DPN) is associated with increased risk.
• Diabetes distress and fear of hypoglycemia are common in people with IAH.

Why this matters

• Adults with type 1 diabetes and IAH have a reduced ability to perceive hypoglycemic symptoms and are at risk of severe hypoglycemic events because they are unable to take immediate corrective action.
• This is the first study to identify protective factors and risk factors of IAH in Japanese adults with type 1 diabetes.
• People with IAH may plan to loosen tight glucose management and intentionally omit insulin injection to prevent severe hypoglycemia.
• The information in this report may help improve the management of people with problematic hypoglycemia, the authors suggested. Treatment with an insulin pump and structured education aimed at improving problem-solving skills may be useful interventions for adults with type 1 diabetes and IAH, they suggested.

Study design

• The study involved a cross-sectional analysis of 288 Japanese adults with type 1 diabetes who averaged 50 years old, had diabetes for an average of about 18 years, had an average hemoglobin A1c at baseline of 7.7%, and included about 37% men and 63% women.
• The cohort included 55 people with IAH (19%) and 233 with no impairment of their hypoglycemia awareness, based on their score on the .

Key results

• DPN was significantly more prevalent in the IAH group than in the control group (12.0% vs. 26.5%). A logistic regression analysis showed that the odds ratio for DPN was 2.63-fold higher among people with IAH, compared with those without IAH, but there were no differences in other complications or by HbA1c levels.
• Treatment with continuous subcutaneous insulin therapy (an insulin pump) was significantly less prevalent in the IAH group, compared with those without IAH (23.6% vs 39.5%), with an adjusted odds ratio of 0.48. The two subgroups showed no differences in use of continuous glucose monitoring, used by 56% of the people in each of the two subgroups.
• The two subgroups showed no differences in their healthy lifestyle score, sleep debt, or rates of excessive drinking.
• Mean autonomic symptom scores for both sweating and shaking were significantly reduced in the IAH group, but no between-group differences appeared for palpations or hunger.
• All mean neuroglycopenic symptom scores were significantly lower in those without IAH, including confusion and speech difficulty.
• Scores for measures of diabetes distress and for the worry component of the fear of hypoglycemia were significantly higher in the IAH group, but there were no differences in other psychological measures.
• Higher were significantly associated with decreased IAH risk with a calculated odds ratio of 0.54, but other aspects of hypoglycemia problem-solving such as detection control, goal setting, and strategy evaluation showed no significant links.

Limitations

• The study used a cross-sectional design, which is not suited to making causal inferences.
• The authors characterized DPN as either present or absent. They did not evaluate or analyze the severity of peripheral neuropathy.
• The authors evaluated diabetic cardiac autonomic neuropathy (DCAN) by a person’s coefficient of variation of R-R intervals, and definitive diagnosis of DCAN required at least two positive results on a cardiac autonomic test. More vigorous evaluation using a more definitive assessment of DCAN is needed to relate DCAN and IAH status.

Disclosures

• The study received no commercial funding.
• The authors have disclosed no relevant financial relationships.

This is a summary of a preprint research study, “Protective and risk factors of impaired awareness of hypoglycemia in patients with type 1 diabetes: a cross- sectional analysis of baseline data from the PR-IAH study,” written by researchers at several hospitals in Japan, all affiliated with the National Hospital Organization, on Research Square. The study has not yet been peer reviewed. The full text of the study can be found on researchsquare.com.

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

Researchers published the study covered in this summary on researchsquare.com as a preprint that has not yet been peer reviewed.

Key takeaways

• In Japanese adults with type 1 diabetes insulin-pump treatment (continuous subcutaneous insulin infusion) and higher problem-solving perception appear protective against impaired awareness of hypoglycemia (IAH), while diabetic peripheral neuropathy (DPN) is associated with increased risk.
• Diabetes distress and fear of hypoglycemia are common in people with IAH.

Why this matters

• Adults with type 1 diabetes and IAH have a reduced ability to perceive hypoglycemic symptoms and are at risk of severe hypoglycemic events because they are unable to take immediate corrective action.
• This is the first study to identify protective factors and risk factors of IAH in Japanese adults with type 1 diabetes.
• People with IAH may plan to loosen tight glucose management and intentionally omit insulin injection to prevent severe hypoglycemia.
• The information in this report may help improve the management of people with problematic hypoglycemia, the authors suggested. Treatment with an insulin pump and structured education aimed at improving problem-solving skills may be useful interventions for adults with type 1 diabetes and IAH, they suggested.

Study design

• The study involved a cross-sectional analysis of 288 Japanese adults with type 1 diabetes who averaged 50 years old, had diabetes for an average of about 18 years, had an average hemoglobin A1c at baseline of 7.7%, and included about 37% men and 63% women.
• The cohort included 55 people with IAH (19%) and 233 with no impairment of their hypoglycemia awareness, based on their score on the .

Key results

• DPN was significantly more prevalent in the IAH group than in the control group (12.0% vs. 26.5%). A logistic regression analysis showed that the odds ratio for DPN was 2.63-fold higher among people with IAH, compared with those without IAH, but there were no differences in other complications or by HbA1c levels.
• Treatment with continuous subcutaneous insulin therapy (an insulin pump) was significantly less prevalent in the IAH group, compared with those without IAH (23.6% vs 39.5%), with an adjusted odds ratio of 0.48. The two subgroups showed no differences in use of continuous glucose monitoring, used by 56% of the people in each of the two subgroups.
• The two subgroups showed no differences in their healthy lifestyle score, sleep debt, or rates of excessive drinking.
• Mean autonomic symptom scores for both sweating and shaking were significantly reduced in the IAH group, but no between-group differences appeared for palpations or hunger.
• All mean neuroglycopenic symptom scores were significantly lower in those without IAH, including confusion and speech difficulty.
• Scores for measures of diabetes distress and for the worry component of the fear of hypoglycemia were significantly higher in the IAH group, but there were no differences in other psychological measures.
• Higher were significantly associated with decreased IAH risk with a calculated odds ratio of 0.54, but other aspects of hypoglycemia problem-solving such as detection control, goal setting, and strategy evaluation showed no significant links.

Limitations

• The study used a cross-sectional design, which is not suited to making causal inferences.
• The authors characterized DPN as either present or absent. They did not evaluate or analyze the severity of peripheral neuropathy.
• The authors evaluated diabetic cardiac autonomic neuropathy (DCAN) by a person’s coefficient of variation of R-R intervals, and definitive diagnosis of DCAN required at least two positive results on a cardiac autonomic test. More vigorous evaluation using a more definitive assessment of DCAN is needed to relate DCAN and IAH status.

Disclosures

• The study received no commercial funding.
• The authors have disclosed no relevant financial relationships.

This is a summary of a preprint research study, “Protective and risk factors of impaired awareness of hypoglycemia in patients with type 1 diabetes: a cross- sectional analysis of baseline data from the PR-IAH study,” written by researchers at several hospitals in Japan, all affiliated with the National Hospital Organization, on Research Square. The study has not yet been peer reviewed. The full text of the study can be found on researchsquare.com.

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

One in eight adults (12.7%) diagnosed with COVID-19 will likely experience long-term symptoms, a large study published in The Lancet indicates.

The researchers determined that percentage by comparing long-term symptoms in people infected by SARS-CoV-2 with similar symptoms in uninfected people over the same time period.

Among the group of infected study participants in the Netherlands, 21.4% had at least one new or severely increased symptom 3-5 months after infection compared with before infection. When that group of 21.4% was compared with 8.7% of uninfected people in the same study, the researchers were able to calculate a prevalence 12.7% with long COVID.

“This finding shows that post–COVID-19 condition is an urgent problem with a mounting human toll,” the study authors wrote.

The research design was novel, two editorialists said in an accompanying commentary.

Christopher Brightling, PhD, and Rachael Evans, MBChB, PhD, of the Institute for Lung Health, University of Leicester (England), noted: “This is a major advance on prior long COVID prevalence estimates as it includes a matched uninfected group and accounts for symptoms before COVID-19 infection.”
 

Symptoms that persist

The Lancet study found that 3-5 months after COVID (compared with before COVID) and compared with the non-COVID comparison group, the symptoms that persist were chest pain, breathing difficulties, pain when breathing, muscle pain, loss of taste and/or smell, tingling extremities, lump in throat, feeling hot and cold alternately, heavy limbs, and tiredness.

The authors noted that symptoms such as brain fog were found to be relevant to long COVID after the data collection period for this paper and were not included in this research.

Researcher Aranka V. Ballering, MSc, PhD candidate, said in an interview that the researchers found fever is a symptom that is clearly present during the acute phase of the disease and it peaks the day of the COVID-19 diagnosis, but also wears off.

Loss of taste and smell, however, rapidly increases in severity when COVID-19 is diagnosed, but also persists and is still present 3-5 months after COVID.

Ms. Ballering, with the department of psychiatry at the University of Groningen (the Netherlands), said she was surprised by the sex difference made evident in their research: “Women showed more severe persistent symptoms than men.”
 

Closer to a clearer definition

The authors said their findings also pinpoint symptoms that bring us closer to a better definition of long COVID, which has many different definitions globally.

“These symptoms have the highest discriminative ability to distinguish between post–COVID-19 condition and non–COVID-19–related symptoms,” they wrote.

Researchers collected data by asking participants in the northern Netherlands, who were part of the population-based Lifelines COVID-19 study, to regularly complete digital questionnaires on 23 symptoms commonly associated with long COVID. The questionnaire was sent out 24 times to the same people between March 2020 and August 2021. At that time, people had the Alpha or earlier variants.

Participants were considered COVID-19 positive if they had either a positive test or a doctor’s diagnosis of COVID-19.

Of 76,422 study participants, the 5.5% (4,231) who had COVID were matched to 8,462 controls. Researchers accounted for sex, age, and time of completing questionnaires.
 

Effect of hospitalization, vaccination unclear

Ms. Ballering said it’s unclear from this data whether vaccination or whether a person was hospitalized would change the prevalence of persistent symptoms.

Because of the period when the data were collected, “the vast majority of our study population was not fully vaccinated,” she said.

However, she pointed to recent research that shows that immunization against COVID is only partially effective against persistent somatic symptoms after COVID.

Also, only 5% of men and 2.5% of women in the study were hospitalized as a result of COVID-19, so the findings can’t easily be generalized to hospitalized patients.

The Lifelines study was an add-on study to the multidisciplinary, prospective, population-based, observational Dutch Lifelines cohort study examining 167,729 people in the Netherlands. Almost all were White, a limitation of the study, and 58% were female. Average age was 54.

The editorialists also noted additional limitations of the study were that this research “did not fully consider the impact on mental health” and was conducted in one region in the Netherlands.

Janko Nikolich-Žugich, MD, PhD, director of the Aegis Consortium for Pandemic-Free Future and head of the immunobiology department at University of Arizona, Tucson, said in an interview that he agreed with the editorialists that a primary benefit of this study is that it corrected for symptoms people had before COVID, something other studies have not been able to do.

However, he cautioned about generalizing the results for the United States and other countries because of the lack of diversity in the study population with regard to education level, socioeconomic factors, and race. He pointed out that access issues are also different in the Netherlands, which has universal health care.

He said brain fog as a symptom of long COVID is of high interest and will be important to include in future studies that are able to extend the study period.

The work was funded by ZonMw; the Dutch Ministry of Health, Welfare, and Sport; Dutch Ministry of Economic Affairs; University Medical Center Groningen, University of Groningen; and the provinces of Drenthe, Friesland, and Groningen. The study authors and Dr. Nikolich-Žugich have reported no relevant financial relationships. Dr. Brightling has received consultancy and or grants paid to his institution from GlaxoSmithKline, AstraZeneca, Boehringer Ingelheim, Novartis, Chiesi, Genentech, Roche, Sanofi, Regeneron, Mologic, and 4DPharma for asthma and chronic obstructive pulmonary disease research. Dr. Evans has received consultancy fees from AstraZeneca on the topic of long COVID and from GlaxoSmithKline on digital health, and speaker’s fees from Boehringer Ingelheim on long COVID.

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

One in eight adults (12.7%) diagnosed with COVID-19 will likely experience long-term symptoms, a large study published in The Lancet indicates.

The researchers determined that percentage by comparing long-term symptoms in people infected by SARS-CoV-2 with similar symptoms in uninfected people over the same time period.

Among the group of infected study participants in the Netherlands, 21.4% had at least one new or severely increased symptom 3-5 months after infection compared with before infection. When that group of 21.4% was compared with 8.7% of uninfected people in the same study, the researchers were able to calculate a prevalence 12.7% with long COVID.

“This finding shows that post–COVID-19 condition is an urgent problem with a mounting human toll,” the study authors wrote.

The research design was novel, two editorialists said in an accompanying commentary.

Christopher Brightling, PhD, and Rachael Evans, MBChB, PhD, of the Institute for Lung Health, University of Leicester (England), noted: “This is a major advance on prior long COVID prevalence estimates as it includes a matched uninfected group and accounts for symptoms before COVID-19 infection.”
 

Symptoms that persist

The Lancet study found that 3-5 months after COVID (compared with before COVID) and compared with the non-COVID comparison group, the symptoms that persist were chest pain, breathing difficulties, pain when breathing, muscle pain, loss of taste and/or smell, tingling extremities, lump in throat, feeling hot and cold alternately, heavy limbs, and tiredness.

The authors noted that symptoms such as brain fog were found to be relevant to long COVID after the data collection period for this paper and were not included in this research.

Researcher Aranka V. Ballering, MSc, PhD candidate, said in an interview that the researchers found fever is a symptom that is clearly present during the acute phase of the disease and it peaks the day of the COVID-19 diagnosis, but also wears off.

Loss of taste and smell, however, rapidly increases in severity when COVID-19 is diagnosed, but also persists and is still present 3-5 months after COVID.

Ms. Ballering, with the department of psychiatry at the University of Groningen (the Netherlands), said she was surprised by the sex difference made evident in their research: “Women showed more severe persistent symptoms than men.”
 

Closer to a clearer definition

The authors said their findings also pinpoint symptoms that bring us closer to a better definition of long COVID, which has many different definitions globally.

“These symptoms have the highest discriminative ability to distinguish between post–COVID-19 condition and non–COVID-19–related symptoms,” they wrote.

Researchers collected data by asking participants in the northern Netherlands, who were part of the population-based Lifelines COVID-19 study, to regularly complete digital questionnaires on 23 symptoms commonly associated with long COVID. The questionnaire was sent out 24 times to the same people between March 2020 and August 2021. At that time, people had the Alpha or earlier variants.

Participants were considered COVID-19 positive if they had either a positive test or a doctor’s diagnosis of COVID-19.

Of 76,422 study participants, the 5.5% (4,231) who had COVID were matched to 8,462 controls. Researchers accounted for sex, age, and time of completing questionnaires.
 

Effect of hospitalization, vaccination unclear

Ms. Ballering said it’s unclear from this data whether vaccination or whether a person was hospitalized would change the prevalence of persistent symptoms.

Because of the period when the data were collected, “the vast majority of our study population was not fully vaccinated,” she said.

However, she pointed to recent research that shows that immunization against COVID is only partially effective against persistent somatic symptoms after COVID.

Also, only 5% of men and 2.5% of women in the study were hospitalized as a result of COVID-19, so the findings can’t easily be generalized to hospitalized patients.

The Lifelines study was an add-on study to the multidisciplinary, prospective, population-based, observational Dutch Lifelines cohort study examining 167,729 people in the Netherlands. Almost all were White, a limitation of the study, and 58% were female. Average age was 54.

The editorialists also noted additional limitations of the study were that this research “did not fully consider the impact on mental health” and was conducted in one region in the Netherlands.

Janko Nikolich-Žugich, MD, PhD, director of the Aegis Consortium for Pandemic-Free Future and head of the immunobiology department at University of Arizona, Tucson, said in an interview that he agreed with the editorialists that a primary benefit of this study is that it corrected for symptoms people had before COVID, something other studies have not been able to do.

However, he cautioned about generalizing the results for the United States and other countries because of the lack of diversity in the study population with regard to education level, socioeconomic factors, and race. He pointed out that access issues are also different in the Netherlands, which has universal health care.

He said brain fog as a symptom of long COVID is of high interest and will be important to include in future studies that are able to extend the study period.

The work was funded by ZonMw; the Dutch Ministry of Health, Welfare, and Sport; Dutch Ministry of Economic Affairs; University Medical Center Groningen, University of Groningen; and the provinces of Drenthe, Friesland, and Groningen. The study authors and Dr. Nikolich-Žugich have reported no relevant financial relationships. Dr. Brightling has received consultancy and or grants paid to his institution from GlaxoSmithKline, AstraZeneca, Boehringer Ingelheim, Novartis, Chiesi, Genentech, Roche, Sanofi, Regeneron, Mologic, and 4DPharma for asthma and chronic obstructive pulmonary disease research. Dr. Evans has received consultancy fees from AstraZeneca on the topic of long COVID and from GlaxoSmithKline on digital health, and speaker’s fees from Boehringer Ingelheim on long COVID.

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

One in eight adults (12.7%) diagnosed with COVID-19 will likely experience long-term symptoms, a large study published in The Lancet indicates.

The researchers determined that percentage by comparing long-term symptoms in people infected by SARS-CoV-2 with similar symptoms in uninfected people over the same time period.

Among the group of infected study participants in the Netherlands, 21.4% had at least one new or severely increased symptom 3-5 months after infection compared with before infection. When that group of 21.4% was compared with 8.7% of uninfected people in the same study, the researchers were able to calculate a prevalence 12.7% with long COVID.

“This finding shows that post–COVID-19 condition is an urgent problem with a mounting human toll,” the study authors wrote.

The research design was novel, two editorialists said in an accompanying commentary.

Christopher Brightling, PhD, and Rachael Evans, MBChB, PhD, of the Institute for Lung Health, University of Leicester (England), noted: “This is a major advance on prior long COVID prevalence estimates as it includes a matched uninfected group and accounts for symptoms before COVID-19 infection.”
 

Symptoms that persist

The Lancet study found that 3-5 months after COVID (compared with before COVID) and compared with the non-COVID comparison group, the symptoms that persist were chest pain, breathing difficulties, pain when breathing, muscle pain, loss of taste and/or smell, tingling extremities, lump in throat, feeling hot and cold alternately, heavy limbs, and tiredness.

The authors noted that symptoms such as brain fog were found to be relevant to long COVID after the data collection period for this paper and were not included in this research.

Researcher Aranka V. Ballering, MSc, PhD candidate, said in an interview that the researchers found fever is a symptom that is clearly present during the acute phase of the disease and it peaks the day of the COVID-19 diagnosis, but also wears off.

Loss of taste and smell, however, rapidly increases in severity when COVID-19 is diagnosed, but also persists and is still present 3-5 months after COVID.

Ms. Ballering, with the department of psychiatry at the University of Groningen (the Netherlands), said she was surprised by the sex difference made evident in their research: “Women showed more severe persistent symptoms than men.”
 

Closer to a clearer definition

The authors said their findings also pinpoint symptoms that bring us closer to a better definition of long COVID, which has many different definitions globally.

“These symptoms have the highest discriminative ability to distinguish between post–COVID-19 condition and non–COVID-19–related symptoms,” they wrote.

Researchers collected data by asking participants in the northern Netherlands, who were part of the population-based Lifelines COVID-19 study, to regularly complete digital questionnaires on 23 symptoms commonly associated with long COVID. The questionnaire was sent out 24 times to the same people between March 2020 and August 2021. At that time, people had the Alpha or earlier variants.

Participants were considered COVID-19 positive if they had either a positive test or a doctor’s diagnosis of COVID-19.

Of 76,422 study participants, the 5.5% (4,231) who had COVID were matched to 8,462 controls. Researchers accounted for sex, age, and time of completing questionnaires.
 

Effect of hospitalization, vaccination unclear

Ms. Ballering said it’s unclear from this data whether vaccination or whether a person was hospitalized would change the prevalence of persistent symptoms.

Because of the period when the data were collected, “the vast majority of our study population was not fully vaccinated,” she said.

However, she pointed to recent research that shows that immunization against COVID is only partially effective against persistent somatic symptoms after COVID.

Also, only 5% of men and 2.5% of women in the study were hospitalized as a result of COVID-19, so the findings can’t easily be generalized to hospitalized patients.

The Lifelines study was an add-on study to the multidisciplinary, prospective, population-based, observational Dutch Lifelines cohort study examining 167,729 people in the Netherlands. Almost all were White, a limitation of the study, and 58% were female. Average age was 54.

The editorialists also noted additional limitations of the study were that this research “did not fully consider the impact on mental health” and was conducted in one region in the Netherlands.

Janko Nikolich-Žugich, MD, PhD, director of the Aegis Consortium for Pandemic-Free Future and head of the immunobiology department at University of Arizona, Tucson, said in an interview that he agreed with the editorialists that a primary benefit of this study is that it corrected for symptoms people had before COVID, something other studies have not been able to do.

However, he cautioned about generalizing the results for the United States and other countries because of the lack of diversity in the study population with regard to education level, socioeconomic factors, and race. He pointed out that access issues are also different in the Netherlands, which has universal health care.

He said brain fog as a symptom of long COVID is of high interest and will be important to include in future studies that are able to extend the study period.

The work was funded by ZonMw; the Dutch Ministry of Health, Welfare, and Sport; Dutch Ministry of Economic Affairs; University Medical Center Groningen, University of Groningen; and the provinces of Drenthe, Friesland, and Groningen. The study authors and Dr. Nikolich-Žugich have reported no relevant financial relationships. Dr. Brightling has received consultancy and or grants paid to his institution from GlaxoSmithKline, AstraZeneca, Boehringer Ingelheim, Novartis, Chiesi, Genentech, Roche, Sanofi, Regeneron, Mologic, and 4DPharma for asthma and chronic obstructive pulmonary disease research. Dr. Evans has received consultancy fees from AstraZeneca on the topic of long COVID and from GlaxoSmithKline on digital health, and speaker’s fees from Boehringer Ingelheim on long COVID.

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

Raising phototherapy thresholds and revising risk assessment are among the key changes in the American Academy of Pediatrics’ updated guidelines for managing hyperbilirubinemia in infants 35 weeks’ gestation and older.

“More than 80% of newborn infants will have some degree of jaundice,” Alex R. Kemper, MD, of Nationwide Children’s Hospital, Columbus, Ohio, and coauthors wrote. Careful monitoring is needed manage high bilirubin concentrations and avoid acute bilirubin encephalopathy (ABE) and kernicterus, a disabling neurologic condition.

The current revision, published in Pediatrics, updates and replaces the 2004 AAP clinical practice guidelines for the management and prevention of hyperbilirubinemia in newborns of at least 35 weeks’ gestation.

The guideline committee reviewed evidence published since the previous guidelines were issued in 2004, and addressed similar issues of prevention, risk assessment, monitoring, and treatment.

A notable change from 2004 was the inclusion of a 2009 recommendation update for “universal predischarge bilirubin screening with measures of total serum bilirubin (TSB) or transcutaneous bilirubin (TcB) linked to specific recommendations for follow-up,” the authors wrote.

In terms of prevention, recommendations include a direct antiglobulin test (DAT) for infants whose mother’s antibody screen was positive or unknown. In addition, exclusive breastfeeding is known to be associated with hyperbilirubinemia, but clinicians should support breastfeeding while monitoring for signs of hyperbilirubinemia because of suboptimal feeding, the authors noted. However, the guidelines recommend against oral supplementation with water or dextrose water to prevent hyperbilirubinemia.

For assessment and monitoring, the guidelines advise the use of total serum bilirubin (TSB) as the definitive test for hyperbilirubinemia to guide phototherapy and escalation of care, including exchange transfusion. “The presence of hyperbilirubinemia neurotoxicity risk factors lowers the threshold for treatment with phototherapy and the level at which care should be escalated,” the authors wrote. They also emphasized the need to consider glucose-6-phosphate dehydrogenase deficiency, a genetic condition that decreases protection against oxidative stress and has been identified as a leading cause of hazardous hyperbilirubinemia worldwide.

The guidelines recommend assessing all infants for jaundice at least every 12 hours after delivery until discharge, with TSB or TcB measured as soon as possible for those with suspected jaundice. The complete guidelines include charts for TSB levels to guide escalation of care. “Blood for TSB can be obtained at the time it is collected for newborn screening tests to avoid an additional heel stick,” the authors noted.

The rate of increase in TSB or TcB, if more than one measure is available, may identify infants at higher risk of hyperbilirubinemia, according to the guidelines, and a possible delay of hospital discharge may be needed for infants if appropriate follow-up is not feasible.

In terms of treatment, new evidence that bilirubin neurotoxicity does not occur until concentrations well above those given in the 2004 guidelines justified raising the treatment thresholds, although by a narrow range. “With the increased phototherapy thresholds, appropriately following the current guidelines including bilirubin screening during the birth hospitalization and timely postdischarge follow-up is important,” the authors wrote. The new thresholds, outlined in the complete guidelines, are based on gestational age, hyperbilirubinemia neurotoxicity risk factors, and the age of the infant in hours. However, infants may be treated at lower levels, based on individual circumstances, family preferences, and shared decision-making with clinicians. Home-based phototherapy may be used in some infants, but should not be used if there is a question about the device quality, delivery time, and ability of caregivers to use the device correctly.

“Discontinuing phototherapy is an option when the TSB has decreased by at least 2 mg/dL below the hour-specific threshold at the initiation of phototherapy,” and follow-up should be based on risk of rebound hyperbilirubinemia, according to the guidelines.

“This clinical practice guideline provides indications and approaches for phototherapy and escalation of care and when treatment and monitoring can be safely discontinued,” However, clinicians should understand the rationale for the recommendations and combine them with their clinical judgment, including shared decision-making when appropriate, the authors concluded.
 

Updated evidence supports escalating care

The take-home message for pediatricians is that neonatal hyperbilirubinemia is a very common finding, and complications are rare, but the condition can result in devastating life-long results, Cathy Haut, DNP, CPNP-AC, CPNP-PC, a pediatric nurse practitioner in Rehoboth Beach, Del., said in an interview.

“Previous guidelines published in 2004 and updated in 2009 included evidence-based recommendations, but additional research was still needed to provide guidance for providers to prevent complications of hyperbilirubinemia,” said Dr. Haut, who was not involved in producing the guidelines.

“New data documenting additional risk factors, the importance of ongoing breastfeeding support, and addressing hyperbilirubinemia as an urgent problem” are additions to prevention methods in the latest published guidelines, she said.

“Acute encephalopathy and kernicterus can result from hyperbilirubinemia with severe and devastating neurologic effects, but are preventable by early identification and treatment,” said Dr. Haut. Therefore, “it is not surprising that the AAP utilized continuing and more recent evidence to support new recommendations. Both maternal and neonatal risk factors have long been considered in the development of neonatal hyperbilirubinemia, but recent recommendations incorporate additional risk factor evaluation and urgency in time to appropriate care. Detailed thresholds for phototherapy and exchange transfusion will benefit the families of full-term infants without other risk factors and escalate care for those neonates with risk factors.”

However, potential barriers to following the guidelines persist, Dr. Haut noted.

“Frequent infant follow-up can be challenging for busy primary care offices with outpatient laboratory results often taking much longer to obtain than in a hospital setting,” she said.

Also, “taking a newborn to the emergency department or an inpatient laboratory can be frightening for families with the risk of illness exposure. Frequent monitoring of serum bilirubin levels is disturbing for parents and inconvenient immediately postpartum,” Dr. Haut explained. “Few practices utilize transcutaneous bilirubin monitoring which may be one method of added screening.”

In addition, “despite the importance of breastfeeding, ongoing support is not readily available for mothers after hospital discharge. A lactation specialist in the office setting can take the burden off providers and add opportunity for family education.”

As for additional research, “continued evaluation of the comparison of transcutaneous bilirubin monitoring and serum levels along with the use of transcutaneous monitoring in facilities outside the hospital setting may be warranted,” Dr. Haut said. “Data collection on incidence and accompanying risk factors of neonates who develop acute hyperbilirubinemia encephalopathy and kernicterus is a long-term study opportunity.”

The guidelines received no external funding. Lead author Dr. Kemper had no financial conflicts to disclose. Dr. Haut had no financial conflicts to disclose and serves on the editorial advisory board of Pediatric News.

Raising phototherapy thresholds and revising risk assessment are among the key changes in the American Academy of Pediatrics’ updated guidelines for managing hyperbilirubinemia in infants 35 weeks’ gestation and older.

“More than 80% of newborn infants will have some degree of jaundice,” Alex R. Kemper, MD, of Nationwide Children’s Hospital, Columbus, Ohio, and coauthors wrote. Careful monitoring is needed manage high bilirubin concentrations and avoid acute bilirubin encephalopathy (ABE) and kernicterus, a disabling neurologic condition.

The current revision, published in Pediatrics, updates and replaces the 2004 AAP clinical practice guidelines for the management and prevention of hyperbilirubinemia in newborns of at least 35 weeks’ gestation.

The guideline committee reviewed evidence published since the previous guidelines were issued in 2004, and addressed similar issues of prevention, risk assessment, monitoring, and treatment.

A notable change from 2004 was the inclusion of a 2009 recommendation update for “universal predischarge bilirubin screening with measures of total serum bilirubin (TSB) or transcutaneous bilirubin (TcB) linked to specific recommendations for follow-up,” the authors wrote.

In terms of prevention, recommendations include a direct antiglobulin test (DAT) for infants whose mother’s antibody screen was positive or unknown. In addition, exclusive breastfeeding is known to be associated with hyperbilirubinemia, but clinicians should support breastfeeding while monitoring for signs of hyperbilirubinemia because of suboptimal feeding, the authors noted. However, the guidelines recommend against oral supplementation with water or dextrose water to prevent hyperbilirubinemia.

For assessment and monitoring, the guidelines advise the use of total serum bilirubin (TSB) as the definitive test for hyperbilirubinemia to guide phototherapy and escalation of care, including exchange transfusion. “The presence of hyperbilirubinemia neurotoxicity risk factors lowers the threshold for treatment with phototherapy and the level at which care should be escalated,” the authors wrote. They also emphasized the need to consider glucose-6-phosphate dehydrogenase deficiency, a genetic condition that decreases protection against oxidative stress and has been identified as a leading cause of hazardous hyperbilirubinemia worldwide.

The guidelines recommend assessing all infants for jaundice at least every 12 hours after delivery until discharge, with TSB or TcB measured as soon as possible for those with suspected jaundice. The complete guidelines include charts for TSB levels to guide escalation of care. “Blood for TSB can be obtained at the time it is collected for newborn screening tests to avoid an additional heel stick,” the authors noted.

The rate of increase in TSB or TcB, if more than one measure is available, may identify infants at higher risk of hyperbilirubinemia, according to the guidelines, and a possible delay of hospital discharge may be needed for infants if appropriate follow-up is not feasible.

In terms of treatment, new evidence that bilirubin neurotoxicity does not occur until concentrations well above those given in the 2004 guidelines justified raising the treatment thresholds, although by a narrow range. “With the increased phototherapy thresholds, appropriately following the current guidelines including bilirubin screening during the birth hospitalization and timely postdischarge follow-up is important,” the authors wrote. The new thresholds, outlined in the complete guidelines, are based on gestational age, hyperbilirubinemia neurotoxicity risk factors, and the age of the infant in hours. However, infants may be treated at lower levels, based on individual circumstances, family preferences, and shared decision-making with clinicians. Home-based phototherapy may be used in some infants, but should not be used if there is a question about the device quality, delivery time, and ability of caregivers to use the device correctly.

“Discontinuing phototherapy is an option when the TSB has decreased by at least 2 mg/dL below the hour-specific threshold at the initiation of phototherapy,” and follow-up should be based on risk of rebound hyperbilirubinemia, according to the guidelines.

“This clinical practice guideline provides indications and approaches for phototherapy and escalation of care and when treatment and monitoring can be safely discontinued,” However, clinicians should understand the rationale for the recommendations and combine them with their clinical judgment, including shared decision-making when appropriate, the authors concluded.
 

Updated evidence supports escalating care

The take-home message for pediatricians is that neonatal hyperbilirubinemia is a very common finding, and complications are rare, but the condition can result in devastating life-long results, Cathy Haut, DNP, CPNP-AC, CPNP-PC, a pediatric nurse practitioner in Rehoboth Beach, Del., said in an interview.

“Previous guidelines published in 2004 and updated in 2009 included evidence-based recommendations, but additional research was still needed to provide guidance for providers to prevent complications of hyperbilirubinemia,” said Dr. Haut, who was not involved in producing the guidelines.

“New data documenting additional risk factors, the importance of ongoing breastfeeding support, and addressing hyperbilirubinemia as an urgent problem” are additions to prevention methods in the latest published guidelines, she said.

“Acute encephalopathy and kernicterus can result from hyperbilirubinemia with severe and devastating neurologic effects, but are preventable by early identification and treatment,” said Dr. Haut. Therefore, “it is not surprising that the AAP utilized continuing and more recent evidence to support new recommendations. Both maternal and neonatal risk factors have long been considered in the development of neonatal hyperbilirubinemia, but recent recommendations incorporate additional risk factor evaluation and urgency in time to appropriate care. Detailed thresholds for phototherapy and exchange transfusion will benefit the families of full-term infants without other risk factors and escalate care for those neonates with risk factors.”

However, potential barriers to following the guidelines persist, Dr. Haut noted.

“Frequent infant follow-up can be challenging for busy primary care offices with outpatient laboratory results often taking much longer to obtain than in a hospital setting,” she said.

Also, “taking a newborn to the emergency department or an inpatient laboratory can be frightening for families with the risk of illness exposure. Frequent monitoring of serum bilirubin levels is disturbing for parents and inconvenient immediately postpartum,” Dr. Haut explained. “Few practices utilize transcutaneous bilirubin monitoring which may be one method of added screening.”

In addition, “despite the importance of breastfeeding, ongoing support is not readily available for mothers after hospital discharge. A lactation specialist in the office setting can take the burden off providers and add opportunity for family education.”

As for additional research, “continued evaluation of the comparison of transcutaneous bilirubin monitoring and serum levels along with the use of transcutaneous monitoring in facilities outside the hospital setting may be warranted,” Dr. Haut said. “Data collection on incidence and accompanying risk factors of neonates who develop acute hyperbilirubinemia encephalopathy and kernicterus is a long-term study opportunity.”

The guidelines received no external funding. Lead author Dr. Kemper had no financial conflicts to disclose. Dr. Haut had no financial conflicts to disclose and serves on the editorial advisory board of Pediatric News.

Raising phototherapy thresholds and revising risk assessment are among the key changes in the American Academy of Pediatrics’ updated guidelines for managing hyperbilirubinemia in infants 35 weeks’ gestation and older.

“More than 80% of newborn infants will have some degree of jaundice,” Alex R. Kemper, MD, of Nationwide Children’s Hospital, Columbus, Ohio, and coauthors wrote. Careful monitoring is needed manage high bilirubin concentrations and avoid acute bilirubin encephalopathy (ABE) and kernicterus, a disabling neurologic condition.

The current revision, published in Pediatrics, updates and replaces the 2004 AAP clinical practice guidelines for the management and prevention of hyperbilirubinemia in newborns of at least 35 weeks’ gestation.

The guideline committee reviewed evidence published since the previous guidelines were issued in 2004, and addressed similar issues of prevention, risk assessment, monitoring, and treatment.

A notable change from 2004 was the inclusion of a 2009 recommendation update for “universal predischarge bilirubin screening with measures of total serum bilirubin (TSB) or transcutaneous bilirubin (TcB) linked to specific recommendations for follow-up,” the authors wrote.

In terms of prevention, recommendations include a direct antiglobulin test (DAT) for infants whose mother’s antibody screen was positive or unknown. In addition, exclusive breastfeeding is known to be associated with hyperbilirubinemia, but clinicians should support breastfeeding while monitoring for signs of hyperbilirubinemia because of suboptimal feeding, the authors noted. However, the guidelines recommend against oral supplementation with water or dextrose water to prevent hyperbilirubinemia.

For assessment and monitoring, the guidelines advise the use of total serum bilirubin (TSB) as the definitive test for hyperbilirubinemia to guide phototherapy and escalation of care, including exchange transfusion. “The presence of hyperbilirubinemia neurotoxicity risk factors lowers the threshold for treatment with phototherapy and the level at which care should be escalated,” the authors wrote. They also emphasized the need to consider glucose-6-phosphate dehydrogenase deficiency, a genetic condition that decreases protection against oxidative stress and has been identified as a leading cause of hazardous hyperbilirubinemia worldwide.

The guidelines recommend assessing all infants for jaundice at least every 12 hours after delivery until discharge, with TSB or TcB measured as soon as possible for those with suspected jaundice. The complete guidelines include charts for TSB levels to guide escalation of care. “Blood for TSB can be obtained at the time it is collected for newborn screening tests to avoid an additional heel stick,” the authors noted.

The rate of increase in TSB or TcB, if more than one measure is available, may identify infants at higher risk of hyperbilirubinemia, according to the guidelines, and a possible delay of hospital discharge may be needed for infants if appropriate follow-up is not feasible.

In terms of treatment, new evidence that bilirubin neurotoxicity does not occur until concentrations well above those given in the 2004 guidelines justified raising the treatment thresholds, although by a narrow range. “With the increased phototherapy thresholds, appropriately following the current guidelines including bilirubin screening during the birth hospitalization and timely postdischarge follow-up is important,” the authors wrote. The new thresholds, outlined in the complete guidelines, are based on gestational age, hyperbilirubinemia neurotoxicity risk factors, and the age of the infant in hours. However, infants may be treated at lower levels, based on individual circumstances, family preferences, and shared decision-making with clinicians. Home-based phototherapy may be used in some infants, but should not be used if there is a question about the device quality, delivery time, and ability of caregivers to use the device correctly.

“Discontinuing phototherapy is an option when the TSB has decreased by at least 2 mg/dL below the hour-specific threshold at the initiation of phototherapy,” and follow-up should be based on risk of rebound hyperbilirubinemia, according to the guidelines.

“This clinical practice guideline provides indications and approaches for phototherapy and escalation of care and when treatment and monitoring can be safely discontinued,” However, clinicians should understand the rationale for the recommendations and combine them with their clinical judgment, including shared decision-making when appropriate, the authors concluded.
 

Updated evidence supports escalating care

The take-home message for pediatricians is that neonatal hyperbilirubinemia is a very common finding, and complications are rare, but the condition can result in devastating life-long results, Cathy Haut, DNP, CPNP-AC, CPNP-PC, a pediatric nurse practitioner in Rehoboth Beach, Del., said in an interview.

“Previous guidelines published in 2004 and updated in 2009 included evidence-based recommendations, but additional research was still needed to provide guidance for providers to prevent complications of hyperbilirubinemia,” said Dr. Haut, who was not involved in producing the guidelines.

“New data documenting additional risk factors, the importance of ongoing breastfeeding support, and addressing hyperbilirubinemia as an urgent problem” are additions to prevention methods in the latest published guidelines, she said.

“Acute encephalopathy and kernicterus can result from hyperbilirubinemia with severe and devastating neurologic effects, but are preventable by early identification and treatment,” said Dr. Haut. Therefore, “it is not surprising that the AAP utilized continuing and more recent evidence to support new recommendations. Both maternal and neonatal risk factors have long been considered in the development of neonatal hyperbilirubinemia, but recent recommendations incorporate additional risk factor evaluation and urgency in time to appropriate care. Detailed thresholds for phototherapy and exchange transfusion will benefit the families of full-term infants without other risk factors and escalate care for those neonates with risk factors.”

However, potential barriers to following the guidelines persist, Dr. Haut noted.

“Frequent infant follow-up can be challenging for busy primary care offices with outpatient laboratory results often taking much longer to obtain than in a hospital setting,” she said.

Also, “taking a newborn to the emergency department or an inpatient laboratory can be frightening for families with the risk of illness exposure. Frequent monitoring of serum bilirubin levels is disturbing for parents and inconvenient immediately postpartum,” Dr. Haut explained. “Few practices utilize transcutaneous bilirubin monitoring which may be one method of added screening.”

In addition, “despite the importance of breastfeeding, ongoing support is not readily available for mothers after hospital discharge. A lactation specialist in the office setting can take the burden off providers and add opportunity for family education.”

As for additional research, “continued evaluation of the comparison of transcutaneous bilirubin monitoring and serum levels along with the use of transcutaneous monitoring in facilities outside the hospital setting may be warranted,” Dr. Haut said. “Data collection on incidence and accompanying risk factors of neonates who develop acute hyperbilirubinemia encephalopathy and kernicterus is a long-term study opportunity.”

The guidelines received no external funding. Lead author Dr. Kemper had no financial conflicts to disclose. Dr. Haut had no financial conflicts to disclose and serves on the editorial advisory board of Pediatric News.

The RNA interference (RNAi) therapeutic patisiran (Onpattro, Alnylam Pharmaceuticals) led to statistically significant improvement in functional capacity and quality of life in adults with transthyretin-mediated (ATTR) amyloidosis with cardiomyopathy in the phase 3 APOLLO-B study, according to topline results released Aug. 3.

“We are thrilled that APOLLO-B successfully met all its major objectives, which we believe for the first time validates the hypothesis that TTR silencing by an RNAi therapeutic can be an effective approach for treating the cardiomyopathy of ATTR amyloidosis,” Pushkal Garg, MD, Alnylam chief medical officer, said in a news release.

The Food and Drug Administration approved patisiran in 2018 for polyneuropathy caused by hereditary ATTR in adults on the basis of results of the APOLLO phase 3 trial, as reported by this news organization.

APOLLO-B enrolled 360 adults with ATTR amyloidosis (hereditary or wild-type) with cardiomyopathy at 69 centers in 21 countries. Half were randomly allocated to 0.3 mg/kg of patisiran or placebo administered intravenously every 3 weeks for 12 months.

The study met the primary endpoint of a statistically significant improvement from baseline in the 6-minute walk test at 12 months compared with placebo (P = .0162), the company said.

The study also met the first secondary endpoint of a statistically significant improvement from baseline in quality of life compared with placebo, as measured by the Kansas City Cardiomyopathy Questionnaire (P = .0397).

The patisiran and placebo groups had similar frequencies of adverse events (91% and 94%, respectively) and serious adverse events (34% and 35%, respectively).

“ATTR amyloidosis with cardiomyopathy is an increasingly recognized cause of heart failure, affecting greater than 250,000 patients around the world. These patients have limited treatment options, and disease progression is common. As such, we are encouraged to see the potential of patisiran to improve the functional capacity and quality of life of patients living with this fatal, multisystem disease,” Dr. Garg said in the release.

Full results from APOLLO-B will be presented at a late-breaker session at the 18th International Symposium on Amyloidosis in September in Heidelberg, Germany.

Based on these results, the company plans to file a supplementary new drug application (sNDA) for patisiran for this indication with the FDA later this year, the release noted.

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

The RNA interference (RNAi) therapeutic patisiran (Onpattro, Alnylam Pharmaceuticals) led to statistically significant improvement in functional capacity and quality of life in adults with transthyretin-mediated (ATTR) amyloidosis with cardiomyopathy in the phase 3 APOLLO-B study, according to topline results released Aug. 3.

“We are thrilled that APOLLO-B successfully met all its major objectives, which we believe for the first time validates the hypothesis that TTR silencing by an RNAi therapeutic can be an effective approach for treating the cardiomyopathy of ATTR amyloidosis,” Pushkal Garg, MD, Alnylam chief medical officer, said in a news release.

The Food and Drug Administration approved patisiran in 2018 for polyneuropathy caused by hereditary ATTR in adults on the basis of results of the APOLLO phase 3 trial, as reported by this news organization.

APOLLO-B enrolled 360 adults with ATTR amyloidosis (hereditary or wild-type) with cardiomyopathy at 69 centers in 21 countries. Half were randomly allocated to 0.3 mg/kg of patisiran or placebo administered intravenously every 3 weeks for 12 months.

The study met the primary endpoint of a statistically significant improvement from baseline in the 6-minute walk test at 12 months compared with placebo (P = .0162), the company said.

The study also met the first secondary endpoint of a statistically significant improvement from baseline in quality of life compared with placebo, as measured by the Kansas City Cardiomyopathy Questionnaire (P = .0397).

The patisiran and placebo groups had similar frequencies of adverse events (91% and 94%, respectively) and serious adverse events (34% and 35%, respectively).

“ATTR amyloidosis with cardiomyopathy is an increasingly recognized cause of heart failure, affecting greater than 250,000 patients around the world. These patients have limited treatment options, and disease progression is common. As such, we are encouraged to see the potential of patisiran to improve the functional capacity and quality of life of patients living with this fatal, multisystem disease,” Dr. Garg said in the release.

Full results from APOLLO-B will be presented at a late-breaker session at the 18th International Symposium on Amyloidosis in September in Heidelberg, Germany.

Based on these results, the company plans to file a supplementary new drug application (sNDA) for patisiran for this indication with the FDA later this year, the release noted.

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

The RNA interference (RNAi) therapeutic patisiran (Onpattro, Alnylam Pharmaceuticals) led to statistically significant improvement in functional capacity and quality of life in adults with transthyretin-mediated (ATTR) amyloidosis with cardiomyopathy in the phase 3 APOLLO-B study, according to topline results released Aug. 3.

“We are thrilled that APOLLO-B successfully met all its major objectives, which we believe for the first time validates the hypothesis that TTR silencing by an RNAi therapeutic can be an effective approach for treating the cardiomyopathy of ATTR amyloidosis,” Pushkal Garg, MD, Alnylam chief medical officer, said in a news release.

The Food and Drug Administration approved patisiran in 2018 for polyneuropathy caused by hereditary ATTR in adults on the basis of results of the APOLLO phase 3 trial, as reported by this news organization.

APOLLO-B enrolled 360 adults with ATTR amyloidosis (hereditary or wild-type) with cardiomyopathy at 69 centers in 21 countries. Half were randomly allocated to 0.3 mg/kg of patisiran or placebo administered intravenously every 3 weeks for 12 months.

The study met the primary endpoint of a statistically significant improvement from baseline in the 6-minute walk test at 12 months compared with placebo (P = .0162), the company said.

The study also met the first secondary endpoint of a statistically significant improvement from baseline in quality of life compared with placebo, as measured by the Kansas City Cardiomyopathy Questionnaire (P = .0397).

The patisiran and placebo groups had similar frequencies of adverse events (91% and 94%, respectively) and serious adverse events (34% and 35%, respectively).

“ATTR amyloidosis with cardiomyopathy is an increasingly recognized cause of heart failure, affecting greater than 250,000 patients around the world. These patients have limited treatment options, and disease progression is common. As such, we are encouraged to see the potential of patisiran to improve the functional capacity and quality of life of patients living with this fatal, multisystem disease,” Dr. Garg said in the release.

Full results from APOLLO-B will be presented at a late-breaker session at the 18th International Symposium on Amyloidosis in September in Heidelberg, Germany.

Based on these results, the company plans to file a supplementary new drug application (sNDA) for patisiran for this indication with the FDA later this year, the release noted.

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

Regular exercise, regardless of intensity level, appears to slow cognitive decline in sedentary older adults with mild cognitive impariment (MCI), new research from the largest study of its kind suggests. Topline results from the EXERT trial showed patients with MCI who participated regularly in either aerobic exercise or stretching/balance/range-of-motion exercises maintained stable global cognitive function over 12 months of follow-up – with no differences between the two types of exercise.

“We’re excited about these findings, because these types of exercises that we’re seeing can protect against cognitive decline are accessible to everyone and therefore scalable to the public,” study investigator Laura Baker, PhD, Wake Forest University School of Medicine, Winston-Salem, N.C., said at a press briefing.

The topline results were presented at the 2022 Alzheimer’s Association International Conference.
 

No decline

The 18-month EXERT trial was designed to be the definitive study to answer the question about whether exercise can slow cognitive decline in older adults with amnestic MCI, Dr. Baker reported. Investigators enrolled 296 sedentary men and women with MCI (mean age, about 75 years). All were randomly allocated to either an aerobic exercise group (maintaining a heart rate at about 70%-85%) or a stretching and balance group (maintaining heart rate less than 35%).

Both groups exercised four times per week for about 30-40 minutes. In the first 12 months they were supervised by a trainer at the YMCA and then they exercised independently for the final 6 months.

Participants were assessed at baseline and every 6 months. The primary endpoint was change from baseline on the ADAS-Cog-Exec, a validated measure of global cognitive function, at the end of the 12 months of supervised exercise.

During the first 12 months, participants completed over 31,000 sessions of exercise, which is “quite impressive,” Dr. Baker said.

Over the first 12 months, neither the aerobic group nor the stretch/balance group showed a decline on the ADAS-Cog-Exec.

“We saw no group differences, and importantly, no decline after 12 months,” Dr. Baker reported.
 

Supported exercise is ‘crucial’

To help “make sense” of these findings, Dr. Baker noted that 12-month changes in the ADAS-Cog-Exec for the EXERT intervention groups were also compared with a “usual care” cohort of adults matched for age, sex, education, baseline cognitive status, and APOE4 genotype.

In this “apples-to-apples” comparison, the usual care cohort showed the expected decline or worsening of cognitive function over 12 months on the ADAS-Cog-Exec, but the EXERT exercise groups did not.

Dr. Baker noted that both exercise groups received equal amounts of weekly socialization, which may have contributed to the apparent protective effects on the brain.

A greater volume of exercise in EXERT, compared with other trials, may also be a factor. Each individual participant in EXERT completed more than 100 hours of exercise.

“The take-home message is that an increased amount of either low-intensity or high-intensity exercise for 120-150 minutes per week for 12 months may slow cognitive decline in sedentary older adults with MCI,” Dr. Baker said.

“What’s critical is that this regular exercise must be supported in these older [patients] with MCI. It must be supervised. There has to be some social component,” she added.

In her view, 120 minutes of regular supported exercise for sedentary individuals with MCI “needs to be part of the recommendation for risk reduction.”
 

Important study

Commenting on the findings, Heather Snyder, PhD, vice president of medical and scientific relations at the Alzheimer’s Association, noted that several studies over the years have suggested that different types of exercise can have benefits on the brain.

“What’s important about this study is that it’s in a population of people that have MCI and are already experiencing memory changes,” Dr. Snyder said.

“The results suggest that engaging in both of these types of exercise may be beneficial for our brain. And given that this is the largest study of its kind in a population of people with MCI, it suggests it’s ‘never too late’ to start exercising,” she added.

Dr. Snyder noted the importance of continuing this work and to continue following these individuals “over time as well.”

The study was funded by the National Institutes of Health, National Institute on Aging. Dr. Baker and Dr. Snyder have disclosed no relevant financial relationships.

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

Regular exercise, regardless of intensity level, appears to slow cognitive decline in sedentary older adults with mild cognitive impariment (MCI), new research from the largest study of its kind suggests. Topline results from the EXERT trial showed patients with MCI who participated regularly in either aerobic exercise or stretching/balance/range-of-motion exercises maintained stable global cognitive function over 12 months of follow-up – with no differences between the two types of exercise.

“We’re excited about these findings, because these types of exercises that we’re seeing can protect against cognitive decline are accessible to everyone and therefore scalable to the public,” study investigator Laura Baker, PhD, Wake Forest University School of Medicine, Winston-Salem, N.C., said at a press briefing.

The topline results were presented at the 2022 Alzheimer’s Association International Conference.
 

No decline

The 18-month EXERT trial was designed to be the definitive study to answer the question about whether exercise can slow cognitive decline in older adults with amnestic MCI, Dr. Baker reported. Investigators enrolled 296 sedentary men and women with MCI (mean age, about 75 years). All were randomly allocated to either an aerobic exercise group (maintaining a heart rate at about 70%-85%) or a stretching and balance group (maintaining heart rate less than 35%).

Both groups exercised four times per week for about 30-40 minutes. In the first 12 months they were supervised by a trainer at the YMCA and then they exercised independently for the final 6 months.

Participants were assessed at baseline and every 6 months. The primary endpoint was change from baseline on the ADAS-Cog-Exec, a validated measure of global cognitive function, at the end of the 12 months of supervised exercise.

During the first 12 months, participants completed over 31,000 sessions of exercise, which is “quite impressive,” Dr. Baker said.

Over the first 12 months, neither the aerobic group nor the stretch/balance group showed a decline on the ADAS-Cog-Exec.

“We saw no group differences, and importantly, no decline after 12 months,” Dr. Baker reported.
 

Supported exercise is ‘crucial’

To help “make sense” of these findings, Dr. Baker noted that 12-month changes in the ADAS-Cog-Exec for the EXERT intervention groups were also compared with a “usual care” cohort of adults matched for age, sex, education, baseline cognitive status, and APOE4 genotype.

In this “apples-to-apples” comparison, the usual care cohort showed the expected decline or worsening of cognitive function over 12 months on the ADAS-Cog-Exec, but the EXERT exercise groups did not.

Dr. Baker noted that both exercise groups received equal amounts of weekly socialization, which may have contributed to the apparent protective effects on the brain.

A greater volume of exercise in EXERT, compared with other trials, may also be a factor. Each individual participant in EXERT completed more than 100 hours of exercise.

“The take-home message is that an increased amount of either low-intensity or high-intensity exercise for 120-150 minutes per week for 12 months may slow cognitive decline in sedentary older adults with MCI,” Dr. Baker said.

“What’s critical is that this regular exercise must be supported in these older [patients] with MCI. It must be supervised. There has to be some social component,” she added.

In her view, 120 minutes of regular supported exercise for sedentary individuals with MCI “needs to be part of the recommendation for risk reduction.”
 

Important study

Commenting on the findings, Heather Snyder, PhD, vice president of medical and scientific relations at the Alzheimer’s Association, noted that several studies over the years have suggested that different types of exercise can have benefits on the brain.

“What’s important about this study is that it’s in a population of people that have MCI and are already experiencing memory changes,” Dr. Snyder said.

“The results suggest that engaging in both of these types of exercise may be beneficial for our brain. And given that this is the largest study of its kind in a population of people with MCI, it suggests it’s ‘never too late’ to start exercising,” she added.

Dr. Snyder noted the importance of continuing this work and to continue following these individuals “over time as well.”

The study was funded by the National Institutes of Health, National Institute on Aging. Dr. Baker and Dr. Snyder have disclosed no relevant financial relationships.

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

Regular exercise, regardless of intensity level, appears to slow cognitive decline in sedentary older adults with mild cognitive impariment (MCI), new research from the largest study of its kind suggests. Topline results from the EXERT trial showed patients with MCI who participated regularly in either aerobic exercise or stretching/balance/range-of-motion exercises maintained stable global cognitive function over 12 months of follow-up – with no differences between the two types of exercise.

“We’re excited about these findings, because these types of exercises that we’re seeing can protect against cognitive decline are accessible to everyone and therefore scalable to the public,” study investigator Laura Baker, PhD, Wake Forest University School of Medicine, Winston-Salem, N.C., said at a press briefing.

The topline results were presented at the 2022 Alzheimer’s Association International Conference.
 

No decline

The 18-month EXERT trial was designed to be the definitive study to answer the question about whether exercise can slow cognitive decline in older adults with amnestic MCI, Dr. Baker reported. Investigators enrolled 296 sedentary men and women with MCI (mean age, about 75 years). All were randomly allocated to either an aerobic exercise group (maintaining a heart rate at about 70%-85%) or a stretching and balance group (maintaining heart rate less than 35%).

Both groups exercised four times per week for about 30-40 minutes. In the first 12 months they were supervised by a trainer at the YMCA and then they exercised independently for the final 6 months.

Participants were assessed at baseline and every 6 months. The primary endpoint was change from baseline on the ADAS-Cog-Exec, a validated measure of global cognitive function, at the end of the 12 months of supervised exercise.

During the first 12 months, participants completed over 31,000 sessions of exercise, which is “quite impressive,” Dr. Baker said.

Over the first 12 months, neither the aerobic group nor the stretch/balance group showed a decline on the ADAS-Cog-Exec.

“We saw no group differences, and importantly, no decline after 12 months,” Dr. Baker reported.
 

Supported exercise is ‘crucial’

To help “make sense” of these findings, Dr. Baker noted that 12-month changes in the ADAS-Cog-Exec for the EXERT intervention groups were also compared with a “usual care” cohort of adults matched for age, sex, education, baseline cognitive status, and APOE4 genotype.

In this “apples-to-apples” comparison, the usual care cohort showed the expected decline or worsening of cognitive function over 12 months on the ADAS-Cog-Exec, but the EXERT exercise groups did not.

Dr. Baker noted that both exercise groups received equal amounts of weekly socialization, which may have contributed to the apparent protective effects on the brain.

A greater volume of exercise in EXERT, compared with other trials, may also be a factor. Each individual participant in EXERT completed more than 100 hours of exercise.

“The take-home message is that an increased amount of either low-intensity or high-intensity exercise for 120-150 minutes per week for 12 months may slow cognitive decline in sedentary older adults with MCI,” Dr. Baker said.

“What’s critical is that this regular exercise must be supported in these older [patients] with MCI. It must be supervised. There has to be some social component,” she added.

In her view, 120 minutes of regular supported exercise for sedentary individuals with MCI “needs to be part of the recommendation for risk reduction.”
 

Important study

Commenting on the findings, Heather Snyder, PhD, vice president of medical and scientific relations at the Alzheimer’s Association, noted that several studies over the years have suggested that different types of exercise can have benefits on the brain.

“What’s important about this study is that it’s in a population of people that have MCI and are already experiencing memory changes,” Dr. Snyder said.

“The results suggest that engaging in both of these types of exercise may be beneficial for our brain. And given that this is the largest study of its kind in a population of people with MCI, it suggests it’s ‘never too late’ to start exercising,” she added.

Dr. Snyder noted the importance of continuing this work and to continue following these individuals “over time as well.”

The study was funded by the National Institutes of Health, National Institute on Aging. Dr. Baker and Dr. Snyder have disclosed no relevant financial relationships.

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