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Clinicians can help people with severe ME/CFS, even unseen
People who are severely ill with myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) are often too sick to leave home, but clinicians can still support them in many ways, experts say.
Approximately 250,000 people in the United Kingdom (0.2%-0.4%) have ME/CFS – where it’s called “ME.” As many as 2.5 million in the United States have it. Those numbers are expected to dramatically increase with the addition of people with long COVID. An estimated 25% of patients with the condition are so severely impaired that they are housebound or bedbound to the point where they’re unable to attend medical office visits. There are very few data about them because they’re typically unable to participate in studies.
Speaking at the annual meeting of the International Association for Chronic Fatigue Syndrome/Myalgic Encephalomyelitis (IACFS/ME), patient advocate Helen Baxter, of the U.K. charity 25% ME Group, presented a case series of five patients bedbound with ME/CFS who became severely malnourished because of delays in the placement of feeding tubes. The delays occurred because it was not recognized that the patients were unable to eat. The inability to eat may be due to a variety of factors, including gastrointestinal dysfunction, dysphagia, nausea, or lack of sufficient energy to eat or drink.
A report of those cases was included in a special issue of Healthcare, devoted to the topic of severe and very severe ME/CFS. The issue, which was published in April 2021, included 25 articles on the pathophysiology of severe ME/CFS, ways that clinicians can support patients who are too sick to make office visits, and psychosocial aspects of the condition that result from physical debilitation.
Two additional articles by specialist physicians aim to counter the skepticism about ME/CFS that has long persisted among some in the medical community.
“ME/CFS is under-researched and has historically received insufficient funding for research, particularly when compared to other chronic conditions, such as multiple sclerosis. And most of the research that has been done about it has focused on patients who are able to attend clinics. Patients with severe ME/CFS have largely been excluded from research due to the severity of their illness and are often described as ‘hard to reach.’ Consequently, research into severe ME is very limited,” Ms. Baxter said.
Asked to comment, Lucinda Bateman, MD, founder and director of the Bateman Horne Center, Salt Lake City, told this news organization, “It’s a big gap, even in the knowledgeable community. The research is totally skewed towards people who can get up and go participate in research. ... I don’t think most clinicians have any idea how sick people can get with ME/CFS.”
Cardiopulmonary exercise testing (CPET), which is commonly used in research, is intended to elicit objective biomarker responses. Such testing, which is considered the gold standard for determining disability, is impossible for the most severely ill patients with ME/CFS and is potentially harmful to these patients because of the hallmark postexertional malaise (PEM) phenomenon, Dr. Bateman noted.
“If we want to use CPET for research, we have to remember that it harms people to some degree and that we’re only studying the people who aren’t as sick. ... It’s one of the reasons I’ve been aggressively pursuing medical education about orthostatic testing, because it’s a clear objective marker, not as deleterious, and potentially leads to treatment options,” she said.
Misdiagnosis, treatment delays led to life-threatening malnutrition
The five patients that Ms. Baxter presented had become severely malnourished and dehydrated. There was evidence of clinical inertia for each of them.
“All were judged to have anorexia nervosa, and psychiatrists were involved, which was an added delay to starting tube feeding. ... In each case, the doctors resorted to making inappropriate psychological diagnoses without positive evidence of psychopathology, failing to recognize the significance of the malnutrition,” Ms. Baxter said. (Urgent tube feeding would have been warranted even had anorexia nervosa been the correct diagnosis, she pointed out.)
Once the problem was finally recognized, “all participants saw an improvement in their situation following the allocation of a home enteral nutrition dietician.”
At the IACFS/ME conference, Ms. Baxter described the painstaking methods used for gathering information, which were described in the same journal. These involved a combination of online, telephone, and text communications with patients or their caregivers. Efforts were made to avoid overtaxing the patients and triggering PEM.
“An early warning system needs to be put in place for patients with severe ME so that when they or their representatives become aware of the development of problems with oral intake, prompt action is taken, and tube feeding started, thereby avoiding undernutrition in patients with very severe ME,” Ms. Baxter and colleagues write.
Indeed, coauthor and semiretired pediatric ME/CFS specialist physician Nigel Speight, of Durham, United Kingdom, said in an interview, “In most of my patients, I used tube feeding early simply to avoid using unnecessary energy and causing stress to the patient.”
Dr. Speight added, “Patients can also die from sheer weakness leading to lack of respiratory drive. Also, and very understandably, some commit suicide.”
Caring for the patient with severe or very severe ME/CFS
Appearing in the special issue is an article entitled, “Caring for the Patient with Severe or Very Severe Myalgic Encephalomyelitis/Chronic Fatigue Syndrome”. It was authored by a multidisciplinary group led by Jose G. Montoya, MD, of the Jack S. Remington Laboratory for Specialty Diagnostics, Palo Alto Medical Foundation, Calif.
In that article, four levels of severity are defined: mild, moderate, severe, and very severe. Included in the “severe” category are patients who are mostly homebound and whose activities of daily living are limited. They may have severe cognitive difficulties. Patients in the “very severe” caregory are bedbound and are unable to care for themselves.
Clinical features include more extreme versions of the core ME/CFS criteria: profound fatigue/weakness, PEM, unrefreshing sleep, orthostatic intolerance, and cognitive impairment. Additional symptoms in those with severe/very severe ME can include extreme hypersensitivity to light, sound, touch, and/or odors. Even small amounts of physical, mental, emotional, and orthostatic stressors can trigger PEM and increased weakness.
The authors recommend a “patient-centered, collaborative approach that is grounded in compassion and respect for the patient in all interactions,” and they provide lists of steps providers can take. These include seeing patients at home if possible and considerations regarding that care, such as partnering with the patient’s caregivers and other health care providers, who may include physical and occupational therapists, home health nurses, and social workers who understand the condition. Home visits by optometrists or ophthalmologists and dentists may be required.
Documenting limitations in activities of daily living is particularly important for helping patients to obtain homecare and disability benefits, Dr. Montoya and colleagues say.
Clinicians should investigate any medical problems that may be amenable to treatment, including orthostatic intolerance, pain, sleep difficulties, comorbidities, or gastrointestinal problems. For patients with pain, bloating, and diarrhea who are found on assessment to have mast cell activation disorder (MCAD), a trial of sodium cromoglicate may be tried, Ms. Baxter told this news organization.
Nonmedical problems that may be contributing to the patient’s morbidity should also be assessed, including a lack of caretaking, social services, transportation, food, and/or supportive devices, such as wheelchairs, bedpans, feeding tubes, and catheters.
The article provides additional detailed recommendations regarding pharmacologic treatments, follow-up visits – in-person or virtual – and hospitalization, as well as recommendations for energy conservation and management.
A section titled Practical Considerations for Busy Providers includes advice to be aware of any regulatory or insurance requirements for providing home visits and to maximize reimbursement by diagnosing any comorbidities, such as postural orthostatic tachycardia syndrome, Ehlers-Danlos syndrome, or MCAD.
Dr. Speight, who authored an article in the special issue on the management of ME in children, called the article by Dr. Montoya and colleagues “absolutely excellent,” and added his own advice, which included not “overinvestigating to cover your back but at the expense of causing stress to the patient” and considering a trial of immunoglobulin.
Importantly, Dr. Speight stressed, “avoid referral to psychiatrists unless specifically indicated for additional psychiatric morbidity; in which case, make clear that the psychiatrist accepts [that the] basic illness is medical.”
He also advised that clinicians stop using the term “chronic fatigue syndrome” because it suggests the illness is mild and/or psychosomatic. “Maybe the United States should embrace the term ME once and for all,” he said.
Dr. Baxter, Dr. Speight, and Dr. Montoya have disclosed no relevant financial relationships. Dr. Bateman is conducting research for Terra Biological.
A version of this article first appeared on Medscape.com.
People who are severely ill with myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) are often too sick to leave home, but clinicians can still support them in many ways, experts say.
Approximately 250,000 people in the United Kingdom (0.2%-0.4%) have ME/CFS – where it’s called “ME.” As many as 2.5 million in the United States have it. Those numbers are expected to dramatically increase with the addition of people with long COVID. An estimated 25% of patients with the condition are so severely impaired that they are housebound or bedbound to the point where they’re unable to attend medical office visits. There are very few data about them because they’re typically unable to participate in studies.
Speaking at the annual meeting of the International Association for Chronic Fatigue Syndrome/Myalgic Encephalomyelitis (IACFS/ME), patient advocate Helen Baxter, of the U.K. charity 25% ME Group, presented a case series of five patients bedbound with ME/CFS who became severely malnourished because of delays in the placement of feeding tubes. The delays occurred because it was not recognized that the patients were unable to eat. The inability to eat may be due to a variety of factors, including gastrointestinal dysfunction, dysphagia, nausea, or lack of sufficient energy to eat or drink.
A report of those cases was included in a special issue of Healthcare, devoted to the topic of severe and very severe ME/CFS. The issue, which was published in April 2021, included 25 articles on the pathophysiology of severe ME/CFS, ways that clinicians can support patients who are too sick to make office visits, and psychosocial aspects of the condition that result from physical debilitation.
Two additional articles by specialist physicians aim to counter the skepticism about ME/CFS that has long persisted among some in the medical community.
“ME/CFS is under-researched and has historically received insufficient funding for research, particularly when compared to other chronic conditions, such as multiple sclerosis. And most of the research that has been done about it has focused on patients who are able to attend clinics. Patients with severe ME/CFS have largely been excluded from research due to the severity of their illness and are often described as ‘hard to reach.’ Consequently, research into severe ME is very limited,” Ms. Baxter said.
Asked to comment, Lucinda Bateman, MD, founder and director of the Bateman Horne Center, Salt Lake City, told this news organization, “It’s a big gap, even in the knowledgeable community. The research is totally skewed towards people who can get up and go participate in research. ... I don’t think most clinicians have any idea how sick people can get with ME/CFS.”
Cardiopulmonary exercise testing (CPET), which is commonly used in research, is intended to elicit objective biomarker responses. Such testing, which is considered the gold standard for determining disability, is impossible for the most severely ill patients with ME/CFS and is potentially harmful to these patients because of the hallmark postexertional malaise (PEM) phenomenon, Dr. Bateman noted.
“If we want to use CPET for research, we have to remember that it harms people to some degree and that we’re only studying the people who aren’t as sick. ... It’s one of the reasons I’ve been aggressively pursuing medical education about orthostatic testing, because it’s a clear objective marker, not as deleterious, and potentially leads to treatment options,” she said.
Misdiagnosis, treatment delays led to life-threatening malnutrition
The five patients that Ms. Baxter presented had become severely malnourished and dehydrated. There was evidence of clinical inertia for each of them.
“All were judged to have anorexia nervosa, and psychiatrists were involved, which was an added delay to starting tube feeding. ... In each case, the doctors resorted to making inappropriate psychological diagnoses without positive evidence of psychopathology, failing to recognize the significance of the malnutrition,” Ms. Baxter said. (Urgent tube feeding would have been warranted even had anorexia nervosa been the correct diagnosis, she pointed out.)
Once the problem was finally recognized, “all participants saw an improvement in their situation following the allocation of a home enteral nutrition dietician.”
At the IACFS/ME conference, Ms. Baxter described the painstaking methods used for gathering information, which were described in the same journal. These involved a combination of online, telephone, and text communications with patients or their caregivers. Efforts were made to avoid overtaxing the patients and triggering PEM.
“An early warning system needs to be put in place for patients with severe ME so that when they or their representatives become aware of the development of problems with oral intake, prompt action is taken, and tube feeding started, thereby avoiding undernutrition in patients with very severe ME,” Ms. Baxter and colleagues write.
Indeed, coauthor and semiretired pediatric ME/CFS specialist physician Nigel Speight, of Durham, United Kingdom, said in an interview, “In most of my patients, I used tube feeding early simply to avoid using unnecessary energy and causing stress to the patient.”
Dr. Speight added, “Patients can also die from sheer weakness leading to lack of respiratory drive. Also, and very understandably, some commit suicide.”
Caring for the patient with severe or very severe ME/CFS
Appearing in the special issue is an article entitled, “Caring for the Patient with Severe or Very Severe Myalgic Encephalomyelitis/Chronic Fatigue Syndrome”. It was authored by a multidisciplinary group led by Jose G. Montoya, MD, of the Jack S. Remington Laboratory for Specialty Diagnostics, Palo Alto Medical Foundation, Calif.
In that article, four levels of severity are defined: mild, moderate, severe, and very severe. Included in the “severe” category are patients who are mostly homebound and whose activities of daily living are limited. They may have severe cognitive difficulties. Patients in the “very severe” caregory are bedbound and are unable to care for themselves.
Clinical features include more extreme versions of the core ME/CFS criteria: profound fatigue/weakness, PEM, unrefreshing sleep, orthostatic intolerance, and cognitive impairment. Additional symptoms in those with severe/very severe ME can include extreme hypersensitivity to light, sound, touch, and/or odors. Even small amounts of physical, mental, emotional, and orthostatic stressors can trigger PEM and increased weakness.
The authors recommend a “patient-centered, collaborative approach that is grounded in compassion and respect for the patient in all interactions,” and they provide lists of steps providers can take. These include seeing patients at home if possible and considerations regarding that care, such as partnering with the patient’s caregivers and other health care providers, who may include physical and occupational therapists, home health nurses, and social workers who understand the condition. Home visits by optometrists or ophthalmologists and dentists may be required.
Documenting limitations in activities of daily living is particularly important for helping patients to obtain homecare and disability benefits, Dr. Montoya and colleagues say.
Clinicians should investigate any medical problems that may be amenable to treatment, including orthostatic intolerance, pain, sleep difficulties, comorbidities, or gastrointestinal problems. For patients with pain, bloating, and diarrhea who are found on assessment to have mast cell activation disorder (MCAD), a trial of sodium cromoglicate may be tried, Ms. Baxter told this news organization.
Nonmedical problems that may be contributing to the patient’s morbidity should also be assessed, including a lack of caretaking, social services, transportation, food, and/or supportive devices, such as wheelchairs, bedpans, feeding tubes, and catheters.
The article provides additional detailed recommendations regarding pharmacologic treatments, follow-up visits – in-person or virtual – and hospitalization, as well as recommendations for energy conservation and management.
A section titled Practical Considerations for Busy Providers includes advice to be aware of any regulatory or insurance requirements for providing home visits and to maximize reimbursement by diagnosing any comorbidities, such as postural orthostatic tachycardia syndrome, Ehlers-Danlos syndrome, or MCAD.
Dr. Speight, who authored an article in the special issue on the management of ME in children, called the article by Dr. Montoya and colleagues “absolutely excellent,” and added his own advice, which included not “overinvestigating to cover your back but at the expense of causing stress to the patient” and considering a trial of immunoglobulin.
Importantly, Dr. Speight stressed, “avoid referral to psychiatrists unless specifically indicated for additional psychiatric morbidity; in which case, make clear that the psychiatrist accepts [that the] basic illness is medical.”
He also advised that clinicians stop using the term “chronic fatigue syndrome” because it suggests the illness is mild and/or psychosomatic. “Maybe the United States should embrace the term ME once and for all,” he said.
Dr. Baxter, Dr. Speight, and Dr. Montoya have disclosed no relevant financial relationships. Dr. Bateman is conducting research for Terra Biological.
A version of this article first appeared on Medscape.com.
People who are severely ill with myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) are often too sick to leave home, but clinicians can still support them in many ways, experts say.
Approximately 250,000 people in the United Kingdom (0.2%-0.4%) have ME/CFS – where it’s called “ME.” As many as 2.5 million in the United States have it. Those numbers are expected to dramatically increase with the addition of people with long COVID. An estimated 25% of patients with the condition are so severely impaired that they are housebound or bedbound to the point where they’re unable to attend medical office visits. There are very few data about them because they’re typically unable to participate in studies.
Speaking at the annual meeting of the International Association for Chronic Fatigue Syndrome/Myalgic Encephalomyelitis (IACFS/ME), patient advocate Helen Baxter, of the U.K. charity 25% ME Group, presented a case series of five patients bedbound with ME/CFS who became severely malnourished because of delays in the placement of feeding tubes. The delays occurred because it was not recognized that the patients were unable to eat. The inability to eat may be due to a variety of factors, including gastrointestinal dysfunction, dysphagia, nausea, or lack of sufficient energy to eat or drink.
A report of those cases was included in a special issue of Healthcare, devoted to the topic of severe and very severe ME/CFS. The issue, which was published in April 2021, included 25 articles on the pathophysiology of severe ME/CFS, ways that clinicians can support patients who are too sick to make office visits, and psychosocial aspects of the condition that result from physical debilitation.
Two additional articles by specialist physicians aim to counter the skepticism about ME/CFS that has long persisted among some in the medical community.
“ME/CFS is under-researched and has historically received insufficient funding for research, particularly when compared to other chronic conditions, such as multiple sclerosis. And most of the research that has been done about it has focused on patients who are able to attend clinics. Patients with severe ME/CFS have largely been excluded from research due to the severity of their illness and are often described as ‘hard to reach.’ Consequently, research into severe ME is very limited,” Ms. Baxter said.
Asked to comment, Lucinda Bateman, MD, founder and director of the Bateman Horne Center, Salt Lake City, told this news organization, “It’s a big gap, even in the knowledgeable community. The research is totally skewed towards people who can get up and go participate in research. ... I don’t think most clinicians have any idea how sick people can get with ME/CFS.”
Cardiopulmonary exercise testing (CPET), which is commonly used in research, is intended to elicit objective biomarker responses. Such testing, which is considered the gold standard for determining disability, is impossible for the most severely ill patients with ME/CFS and is potentially harmful to these patients because of the hallmark postexertional malaise (PEM) phenomenon, Dr. Bateman noted.
“If we want to use CPET for research, we have to remember that it harms people to some degree and that we’re only studying the people who aren’t as sick. ... It’s one of the reasons I’ve been aggressively pursuing medical education about orthostatic testing, because it’s a clear objective marker, not as deleterious, and potentially leads to treatment options,” she said.
Misdiagnosis, treatment delays led to life-threatening malnutrition
The five patients that Ms. Baxter presented had become severely malnourished and dehydrated. There was evidence of clinical inertia for each of them.
“All were judged to have anorexia nervosa, and psychiatrists were involved, which was an added delay to starting tube feeding. ... In each case, the doctors resorted to making inappropriate psychological diagnoses without positive evidence of psychopathology, failing to recognize the significance of the malnutrition,” Ms. Baxter said. (Urgent tube feeding would have been warranted even had anorexia nervosa been the correct diagnosis, she pointed out.)
Once the problem was finally recognized, “all participants saw an improvement in their situation following the allocation of a home enteral nutrition dietician.”
At the IACFS/ME conference, Ms. Baxter described the painstaking methods used for gathering information, which were described in the same journal. These involved a combination of online, telephone, and text communications with patients or their caregivers. Efforts were made to avoid overtaxing the patients and triggering PEM.
“An early warning system needs to be put in place for patients with severe ME so that when they or their representatives become aware of the development of problems with oral intake, prompt action is taken, and tube feeding started, thereby avoiding undernutrition in patients with very severe ME,” Ms. Baxter and colleagues write.
Indeed, coauthor and semiretired pediatric ME/CFS specialist physician Nigel Speight, of Durham, United Kingdom, said in an interview, “In most of my patients, I used tube feeding early simply to avoid using unnecessary energy and causing stress to the patient.”
Dr. Speight added, “Patients can also die from sheer weakness leading to lack of respiratory drive. Also, and very understandably, some commit suicide.”
Caring for the patient with severe or very severe ME/CFS
Appearing in the special issue is an article entitled, “Caring for the Patient with Severe or Very Severe Myalgic Encephalomyelitis/Chronic Fatigue Syndrome”. It was authored by a multidisciplinary group led by Jose G. Montoya, MD, of the Jack S. Remington Laboratory for Specialty Diagnostics, Palo Alto Medical Foundation, Calif.
In that article, four levels of severity are defined: mild, moderate, severe, and very severe. Included in the “severe” category are patients who are mostly homebound and whose activities of daily living are limited. They may have severe cognitive difficulties. Patients in the “very severe” caregory are bedbound and are unable to care for themselves.
Clinical features include more extreme versions of the core ME/CFS criteria: profound fatigue/weakness, PEM, unrefreshing sleep, orthostatic intolerance, and cognitive impairment. Additional symptoms in those with severe/very severe ME can include extreme hypersensitivity to light, sound, touch, and/or odors. Even small amounts of physical, mental, emotional, and orthostatic stressors can trigger PEM and increased weakness.
The authors recommend a “patient-centered, collaborative approach that is grounded in compassion and respect for the patient in all interactions,” and they provide lists of steps providers can take. These include seeing patients at home if possible and considerations regarding that care, such as partnering with the patient’s caregivers and other health care providers, who may include physical and occupational therapists, home health nurses, and social workers who understand the condition. Home visits by optometrists or ophthalmologists and dentists may be required.
Documenting limitations in activities of daily living is particularly important for helping patients to obtain homecare and disability benefits, Dr. Montoya and colleagues say.
Clinicians should investigate any medical problems that may be amenable to treatment, including orthostatic intolerance, pain, sleep difficulties, comorbidities, or gastrointestinal problems. For patients with pain, bloating, and diarrhea who are found on assessment to have mast cell activation disorder (MCAD), a trial of sodium cromoglicate may be tried, Ms. Baxter told this news organization.
Nonmedical problems that may be contributing to the patient’s morbidity should also be assessed, including a lack of caretaking, social services, transportation, food, and/or supportive devices, such as wheelchairs, bedpans, feeding tubes, and catheters.
The article provides additional detailed recommendations regarding pharmacologic treatments, follow-up visits – in-person or virtual – and hospitalization, as well as recommendations for energy conservation and management.
A section titled Practical Considerations for Busy Providers includes advice to be aware of any regulatory or insurance requirements for providing home visits and to maximize reimbursement by diagnosing any comorbidities, such as postural orthostatic tachycardia syndrome, Ehlers-Danlos syndrome, or MCAD.
Dr. Speight, who authored an article in the special issue on the management of ME in children, called the article by Dr. Montoya and colleagues “absolutely excellent,” and added his own advice, which included not “overinvestigating to cover your back but at the expense of causing stress to the patient” and considering a trial of immunoglobulin.
Importantly, Dr. Speight stressed, “avoid referral to psychiatrists unless specifically indicated for additional psychiatric morbidity; in which case, make clear that the psychiatrist accepts [that the] basic illness is medical.”
He also advised that clinicians stop using the term “chronic fatigue syndrome” because it suggests the illness is mild and/or psychosomatic. “Maybe the United States should embrace the term ME once and for all,” he said.
Dr. Baxter, Dr. Speight, and Dr. Montoya have disclosed no relevant financial relationships. Dr. Bateman is conducting research for Terra Biological.
A version of this article first appeared on Medscape.com.
FROM IACFS/ME 2022
Increasing data link ME/CFS, long COVID, 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.
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.
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.
FROM IACFSME 2022
Treatments explored to ease postviral symptoms of ME/CFS and long COVID
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.
“ ... 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.
“ ... 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.
“ ... 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.
FROM IACFSME 2022