Long COVID

The Centers for Disease Control and Prevention and the U.S. Census Bureau estimate that 6.1% of the U.S. adult population is living with long COVID, with millions more debilitated worldwide. The demand for substantial treatment is enormous, but the urgency to fund and begin the necessary range of clinical trials has not met the severity of the problem.
 

While trials are slowly beginning to happen, the treatment choices and trial design require crucial nuances and understanding of viral-onset illnesses, and few research groups are creating strong trials that fully reflect the complexities of this landscape.

This article aims to share key considerations and best practices that are essential to the success of these trials. These recommendations recognize that roughly half of long COVID patients have new-onset myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) and dysautonomia from COVID, which must be at the forefront of how trials are designed and conducted, and are additionally based on the current hypotheses about long COVID’s pathophysiologies. 
 

1: Drugs proposed by experts in postviral fields should be prioritized

Upward of 50 drugs for viral-onset conditions like ME/CFS, dysautonomia, AIDS, and others have been waiting for years to go to trial, but have not had the funding to do so. 

Treatments proposed by experts in viral-onset illnesses (such as ME/CFS and dysautonomia) should be prioritized (PM R. 2022 Oct;14[10]:1270-91), as outside researchers are not familiar with these fields and their potential treatment options.
 

2: Drugs targeting a wide range of mechanisms should be trialed

Treatments that should be trialed include anticoagulants/antiplatelets for clotting and vascular functioning, immunomodulators including JAK-STAT inhibitors, COVID-specific antivirals and antivirals against reactivated herpesviruses (Valcyte, Valacyclovir, EBV vaccine). 

Other options include prescription mast cell stabilizers (ketotifen, cromolyn sodium), drugs that regulate microglial activation (low-dose naltrexone, low-dose aripiprazole), anti-CGRP medications, beta-blockers, and intravenous immunoglobulin.

Others include medications that target mitochondrial dysfunction; ivabradine; pyridostigmine;, DRP1 inhibitors; supplements showing success in patient communities including lactoferrin, ubiquinone, and nattokinase; and therapies targeting glymphatic/lymphatic dysfunction, microbiome therapies, and therapeutic peptides. 
 

3: Use appropriate long COVID subtypes 

Long COVID is an umbrella term that encompasses multiple new-onset and worsened conditions and symptoms after COVID. Roughly half of long COVID patients likely meet the criteria for ME/CFS and/or dysautonomia. Others may have new-onset diabetes, major clotting events, lung damage, neurological disorders, loss of smell or taste, and other manifestations. 

Patients in different categories likely have different responses to treatments. It’s critical to identify appropriate subtypes for each trial, ideally performing detailed analyses to identify the treatments that work best, and don’t, for each subtype. 
 

4: Behavioral treatments, especially those that have harmed similar populations, should not be trialed

Behavioral treatments including exercise, graded exercise therapy (GET), and cognitive-behavioral therapy (CBT) should not be trialed, let alone prioritized, for long COVID. 

In patients with postexertional malaise (PEM), one of the most common long COVID symptoms, exercise is actively harmful and causes dysfunctional metabolic patterns, cardiac preload failure, impaired systemic oxygen extraction, and more. GET and CBT have failed similar populations , and exercise is explicitly contraindicated by the World Health Organization, the British National Institute for Health and Care Excellence, the CDC, and other organizations. 

Resources should instead be put toward the wide range of medications that have not yet adequately undergone clinical trials.  
 

5: PCR and antibody tests should not be used as inclusion criteria for trial participants

Only an estimated 1%-3% of cases in the first wave of COVID were documented, and the CDC estimates that only 25% of cases through September 2021 were documented. Similarly, antibody tests are unreliable to determine past infection, as roughly a third of patients don’t seroconvert, and a similar proportion serorevert within a few months. Using polymerase chain reaction (PCR) and antibody testing to determine who should be included in clinical trials limits who is eligible to participate in research, particularly those who have been ill for longer. Additionally, the majority of those who serorevert are women, so using antibody tests for inclusion introduces a selection bias and may miss mechanisms of immune system functioning that are part of long COVID.

PCR tests also have high false-negative rates and requiring them in research excludes people with lower viral loads with long COVID, which would confound findings. 

These issues with testing also lead to COVID-infected people accidentally being included in control groups, which ruins the credibility of the research findings completely.
 

6: Include comparator groups

There are several common diagnoses that occur in people with long COVID, including ME/CFS, postural orthostatic tachycardia syndrome, small-fiber neuropathy, mast cell activation syndrome, and Ehlers-Danlos syndrome.

Identifying people with these conditions within the trial cohort improves research across all fields, benefiting all groups, and helps clarify what types of patients benefit most from certain medications. 
 

7: Identify the right endpoints; avoid the wrong ones

Even though our understanding of the pathophysiology of long COVID is still evolving, it’s still possible to do clinical trials by identifying strong endpoints and outcome measures. 

Several tools have been designed for viral-onset conditions and should be used alongside other endpoints. Postexertional malaise and autonomic symptoms, which are some of the most common symptoms of long COVID, can be measured with the validated DSQ-PEM and COMPASS-31, respectively. Tools for cognitive dysfunction trials should capture specific and common types of impairment, like processing speed. 

Endpoints should be high-impact and aim for large improvements that have clinical significance over small improvements that do not have clinical significance. 

Objective tests should be incorporated where possible; some to consider include natural killer cell functioning, cerebral blood flow, T-cell functioning, levels of reactivated herpesviruses, blood lactate levels, and microclots, as testing becomes available. 

Mental health outcomes shouldn’t be primary endpoints, except where a trial is targeting a specific mental health condition because of COVID (for example, premenstrual dysphoric disorder). 

If mental health conditions are tracked secondarily, it’s vital not to use questionnaires that include physical symptoms like fatigue, difficulty concentrating, difficulty sleeping, or palpitations, as these artificially increase depression and anxiety scores in chronically ill respondents. Tools that include physical symptoms (Patient Health Questionnaire–9, Beck Anxiety Inventory, Beck Depression Inventory) can be replaced with scales like the PHQ-2, General Anxiety Disorder–7, Hospital Anxiety and Depression Scale, or PROMIS-29 subscales.

Because certain cytokines and other inflammatory markers may naturally decrease over time without corresponding improvement in the ME/CFS subtype, caution should be taken when using cytokines as endpoints.
 

8: Consider enrollment and objectives carefully

A proportion of people with long COVID will recover in the early months after infection. Ideally, clinical trials will primarily study treatments in patients who have been ill 6 months or longer, as some natural recovery will happen before that can bias studies.

But where resources are abundant, it is ideal for trials to additionally look at whether the treatments can help patients in the early months recover and prevent progression to the later stage.
 

9: Tracking illness duration is crucial

Research from ME/CFS shows that there may be an immune change in the first few years of the illness, where cytokines decrease without any corresponding change in symptom improvement. 

Because of this and the possibility that other markers follow the same pattern, disease duration should be a core feature of all analyses and trial designs. Trial outcomes should be designed to answer the question of whether the medication helps patients at different durations of illness. 
 

10: Prioritize patient populations less likely to recover without intervention

Some long COVID phenotypes seem less likely to recover without intervention. Trials should take care to focus on these patient populations, which include those with neurologic symptoms and those meeting ME/CFS criteria.

 

11: Account for the relapsing/remitting nature

Outcome measures need to be assessed in a way that can distinguish a temporary remission, which is part of the natural course of the disease, from a permanent cure. 

Factors that can contribute to the relapsing/remitting nature include physical and cognitive postexertional malaise, menstrual cycle changes, and seasonal changes.
 

12: Trial participants should reflect the diversity of the long COVID population

Certain demographics are more likely to be affected by acute and long COVID and need to be appropriately recruited and reflected in research, including in patient engagement. 

Trials must include high numbers of Hispanic/Latinx, Black, and indigenous communities, queer and transgender populations, and women. Trial materials and design need to incorporate linguistic diversity in addition to racial/ethnic diversity.

Upward of 75% of long COVID cases happen after mild acute cases; clinical researchers should ensure that nonhospitalized patients make up the bulk of trial participants. 
 

13: Utilize meaningful engagement of patients, especially in treatment selection and study design

Meaningful patient engagement means engaging multiple patients at every step of the trial process, from treatment selection to study design to analysis to communication of the results. 

Patient experiences are extremely valuable and contain information that researchers may not be familiar with, including the nature and patterns of the illness, insights into possible treatments, and barriers to documentation and care that may also impact research. Tapping into those patient experiences will make trials stronger.

Overall, the landscape of long COVID clinical trials is ripe for discovery, and researchers choosing to go down this path will be deeply appreciated by the patient community. 

Hannah Davis is a long COVID patient-researcher and cofounder of the Patient-Led Research Collaborative, an organization studying the long-term effects of COVID.

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

The Centers for Disease Control and Prevention and the U.S. Census Bureau estimate that 6.1% of the U.S. adult population is living with long COVID, with millions more debilitated worldwide. The demand for substantial treatment is enormous, but the urgency to fund and begin the necessary range of clinical trials has not met the severity of the problem.
 

While trials are slowly beginning to happen, the treatment choices and trial design require crucial nuances and understanding of viral-onset illnesses, and few research groups are creating strong trials that fully reflect the complexities of this landscape.

This article aims to share key considerations and best practices that are essential to the success of these trials. These recommendations recognize that roughly half of long COVID patients have new-onset myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) and dysautonomia from COVID, which must be at the forefront of how trials are designed and conducted, and are additionally based on the current hypotheses about long COVID’s pathophysiologies. 
 

1: Drugs proposed by experts in postviral fields should be prioritized

Upward of 50 drugs for viral-onset conditions like ME/CFS, dysautonomia, AIDS, and others have been waiting for years to go to trial, but have not had the funding to do so. 

Treatments proposed by experts in viral-onset illnesses (such as ME/CFS and dysautonomia) should be prioritized (PM R. 2022 Oct;14[10]:1270-91), as outside researchers are not familiar with these fields and their potential treatment options.
 

2: Drugs targeting a wide range of mechanisms should be trialed

Treatments that should be trialed include anticoagulants/antiplatelets for clotting and vascular functioning, immunomodulators including JAK-STAT inhibitors, COVID-specific antivirals and antivirals against reactivated herpesviruses (Valcyte, Valacyclovir, EBV vaccine). 

Other options include prescription mast cell stabilizers (ketotifen, cromolyn sodium), drugs that regulate microglial activation (low-dose naltrexone, low-dose aripiprazole), anti-CGRP medications, beta-blockers, and intravenous immunoglobulin.

Others include medications that target mitochondrial dysfunction; ivabradine; pyridostigmine;, DRP1 inhibitors; supplements showing success in patient communities including lactoferrin, ubiquinone, and nattokinase; and therapies targeting glymphatic/lymphatic dysfunction, microbiome therapies, and therapeutic peptides. 
 

3: Use appropriate long COVID subtypes 

Long COVID is an umbrella term that encompasses multiple new-onset and worsened conditions and symptoms after COVID. Roughly half of long COVID patients likely meet the criteria for ME/CFS and/or dysautonomia. Others may have new-onset diabetes, major clotting events, lung damage, neurological disorders, loss of smell or taste, and other manifestations. 

Patients in different categories likely have different responses to treatments. It’s critical to identify appropriate subtypes for each trial, ideally performing detailed analyses to identify the treatments that work best, and don’t, for each subtype. 
 

4: Behavioral treatments, especially those that have harmed similar populations, should not be trialed

Behavioral treatments including exercise, graded exercise therapy (GET), and cognitive-behavioral therapy (CBT) should not be trialed, let alone prioritized, for long COVID. 

In patients with postexertional malaise (PEM), one of the most common long COVID symptoms, exercise is actively harmful and causes dysfunctional metabolic patterns, cardiac preload failure, impaired systemic oxygen extraction, and more. GET and CBT have failed similar populations , and exercise is explicitly contraindicated by the World Health Organization, the British National Institute for Health and Care Excellence, the CDC, and other organizations. 

Resources should instead be put toward the wide range of medications that have not yet adequately undergone clinical trials.  
 

5: PCR and antibody tests should not be used as inclusion criteria for trial participants

Only an estimated 1%-3% of cases in the first wave of COVID were documented, and the CDC estimates that only 25% of cases through September 2021 were documented. Similarly, antibody tests are unreliable to determine past infection, as roughly a third of patients don’t seroconvert, and a similar proportion serorevert within a few months. Using polymerase chain reaction (PCR) and antibody testing to determine who should be included in clinical trials limits who is eligible to participate in research, particularly those who have been ill for longer. Additionally, the majority of those who serorevert are women, so using antibody tests for inclusion introduces a selection bias and may miss mechanisms of immune system functioning that are part of long COVID.

PCR tests also have high false-negative rates and requiring them in research excludes people with lower viral loads with long COVID, which would confound findings. 

These issues with testing also lead to COVID-infected people accidentally being included in control groups, which ruins the credibility of the research findings completely.
 

6: Include comparator groups

There are several common diagnoses that occur in people with long COVID, including ME/CFS, postural orthostatic tachycardia syndrome, small-fiber neuropathy, mast cell activation syndrome, and Ehlers-Danlos syndrome.

Identifying people with these conditions within the trial cohort improves research across all fields, benefiting all groups, and helps clarify what types of patients benefit most from certain medications. 
 

7: Identify the right endpoints; avoid the wrong ones

Even though our understanding of the pathophysiology of long COVID is still evolving, it’s still possible to do clinical trials by identifying strong endpoints and outcome measures. 

Several tools have been designed for viral-onset conditions and should be used alongside other endpoints. Postexertional malaise and autonomic symptoms, which are some of the most common symptoms of long COVID, can be measured with the validated DSQ-PEM and COMPASS-31, respectively. Tools for cognitive dysfunction trials should capture specific and common types of impairment, like processing speed. 

Endpoints should be high-impact and aim for large improvements that have clinical significance over small improvements that do not have clinical significance. 

Objective tests should be incorporated where possible; some to consider include natural killer cell functioning, cerebral blood flow, T-cell functioning, levels of reactivated herpesviruses, blood lactate levels, and microclots, as testing becomes available. 

Mental health outcomes shouldn’t be primary endpoints, except where a trial is targeting a specific mental health condition because of COVID (for example, premenstrual dysphoric disorder). 

If mental health conditions are tracked secondarily, it’s vital not to use questionnaires that include physical symptoms like fatigue, difficulty concentrating, difficulty sleeping, or palpitations, as these artificially increase depression and anxiety scores in chronically ill respondents. Tools that include physical symptoms (Patient Health Questionnaire–9, Beck Anxiety Inventory, Beck Depression Inventory) can be replaced with scales like the PHQ-2, General Anxiety Disorder–7, Hospital Anxiety and Depression Scale, or PROMIS-29 subscales.

Because certain cytokines and other inflammatory markers may naturally decrease over time without corresponding improvement in the ME/CFS subtype, caution should be taken when using cytokines as endpoints.
 

8: Consider enrollment and objectives carefully

A proportion of people with long COVID will recover in the early months after infection. Ideally, clinical trials will primarily study treatments in patients who have been ill 6 months or longer, as some natural recovery will happen before that can bias studies.

But where resources are abundant, it is ideal for trials to additionally look at whether the treatments can help patients in the early months recover and prevent progression to the later stage.
 

9: Tracking illness duration is crucial

Research from ME/CFS shows that there may be an immune change in the first few years of the illness, where cytokines decrease without any corresponding change in symptom improvement. 

Because of this and the possibility that other markers follow the same pattern, disease duration should be a core feature of all analyses and trial designs. Trial outcomes should be designed to answer the question of whether the medication helps patients at different durations of illness. 
 

10: Prioritize patient populations less likely to recover without intervention

Some long COVID phenotypes seem less likely to recover without intervention. Trials should take care to focus on these patient populations, which include those with neurologic symptoms and those meeting ME/CFS criteria.

 

11: Account for the relapsing/remitting nature

Outcome measures need to be assessed in a way that can distinguish a temporary remission, which is part of the natural course of the disease, from a permanent cure. 

Factors that can contribute to the relapsing/remitting nature include physical and cognitive postexertional malaise, menstrual cycle changes, and seasonal changes.
 

12: Trial participants should reflect the diversity of the long COVID population

Certain demographics are more likely to be affected by acute and long COVID and need to be appropriately recruited and reflected in research, including in patient engagement. 

Trials must include high numbers of Hispanic/Latinx, Black, and indigenous communities, queer and transgender populations, and women. Trial materials and design need to incorporate linguistic diversity in addition to racial/ethnic diversity.

Upward of 75% of long COVID cases happen after mild acute cases; clinical researchers should ensure that nonhospitalized patients make up the bulk of trial participants. 
 

13: Utilize meaningful engagement of patients, especially in treatment selection and study design

Meaningful patient engagement means engaging multiple patients at every step of the trial process, from treatment selection to study design to analysis to communication of the results. 

Patient experiences are extremely valuable and contain information that researchers may not be familiar with, including the nature and patterns of the illness, insights into possible treatments, and barriers to documentation and care that may also impact research. Tapping into those patient experiences will make trials stronger.

Overall, the landscape of long COVID clinical trials is ripe for discovery, and researchers choosing to go down this path will be deeply appreciated by the patient community. 

Hannah Davis is a long COVID patient-researcher and cofounder of the Patient-Led Research Collaborative, an organization studying the long-term effects of COVID.

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

The Centers for Disease Control and Prevention and the U.S. Census Bureau estimate that 6.1% of the U.S. adult population is living with long COVID, with millions more debilitated worldwide. The demand for substantial treatment is enormous, but the urgency to fund and begin the necessary range of clinical trials has not met the severity of the problem.
 

While trials are slowly beginning to happen, the treatment choices and trial design require crucial nuances and understanding of viral-onset illnesses, and few research groups are creating strong trials that fully reflect the complexities of this landscape.

This article aims to share key considerations and best practices that are essential to the success of these trials. These recommendations recognize that roughly half of long COVID patients have new-onset myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) and dysautonomia from COVID, which must be at the forefront of how trials are designed and conducted, and are additionally based on the current hypotheses about long COVID’s pathophysiologies. 
 

1: Drugs proposed by experts in postviral fields should be prioritized

Upward of 50 drugs for viral-onset conditions like ME/CFS, dysautonomia, AIDS, and others have been waiting for years to go to trial, but have not had the funding to do so. 

Treatments proposed by experts in viral-onset illnesses (such as ME/CFS and dysautonomia) should be prioritized (PM R. 2022 Oct;14[10]:1270-91), as outside researchers are not familiar with these fields and their potential treatment options.
 

2: Drugs targeting a wide range of mechanisms should be trialed

Treatments that should be trialed include anticoagulants/antiplatelets for clotting and vascular functioning, immunomodulators including JAK-STAT inhibitors, COVID-specific antivirals and antivirals against reactivated herpesviruses (Valcyte, Valacyclovir, EBV vaccine). 

Other options include prescription mast cell stabilizers (ketotifen, cromolyn sodium), drugs that regulate microglial activation (low-dose naltrexone, low-dose aripiprazole), anti-CGRP medications, beta-blockers, and intravenous immunoglobulin.

Others include medications that target mitochondrial dysfunction; ivabradine; pyridostigmine;, DRP1 inhibitors; supplements showing success in patient communities including lactoferrin, ubiquinone, and nattokinase; and therapies targeting glymphatic/lymphatic dysfunction, microbiome therapies, and therapeutic peptides. 
 

3: Use appropriate long COVID subtypes 

Long COVID is an umbrella term that encompasses multiple new-onset and worsened conditions and symptoms after COVID. Roughly half of long COVID patients likely meet the criteria for ME/CFS and/or dysautonomia. Others may have new-onset diabetes, major clotting events, lung damage, neurological disorders, loss of smell or taste, and other manifestations. 

Patients in different categories likely have different responses to treatments. It’s critical to identify appropriate subtypes for each trial, ideally performing detailed analyses to identify the treatments that work best, and don’t, for each subtype. 
 

4: Behavioral treatments, especially those that have harmed similar populations, should not be trialed

Behavioral treatments including exercise, graded exercise therapy (GET), and cognitive-behavioral therapy (CBT) should not be trialed, let alone prioritized, for long COVID. 

In patients with postexertional malaise (PEM), one of the most common long COVID symptoms, exercise is actively harmful and causes dysfunctional metabolic patterns, cardiac preload failure, impaired systemic oxygen extraction, and more. GET and CBT have failed similar populations , and exercise is explicitly contraindicated by the World Health Organization, the British National Institute for Health and Care Excellence, the CDC, and other organizations. 

Resources should instead be put toward the wide range of medications that have not yet adequately undergone clinical trials.  
 

5: PCR and antibody tests should not be used as inclusion criteria for trial participants

Only an estimated 1%-3% of cases in the first wave of COVID were documented, and the CDC estimates that only 25% of cases through September 2021 were documented. Similarly, antibody tests are unreliable to determine past infection, as roughly a third of patients don’t seroconvert, and a similar proportion serorevert within a few months. Using polymerase chain reaction (PCR) and antibody testing to determine who should be included in clinical trials limits who is eligible to participate in research, particularly those who have been ill for longer. Additionally, the majority of those who serorevert are women, so using antibody tests for inclusion introduces a selection bias and may miss mechanisms of immune system functioning that are part of long COVID.

PCR tests also have high false-negative rates and requiring them in research excludes people with lower viral loads with long COVID, which would confound findings. 

These issues with testing also lead to COVID-infected people accidentally being included in control groups, which ruins the credibility of the research findings completely.
 

6: Include comparator groups

There are several common diagnoses that occur in people with long COVID, including ME/CFS, postural orthostatic tachycardia syndrome, small-fiber neuropathy, mast cell activation syndrome, and Ehlers-Danlos syndrome.

Identifying people with these conditions within the trial cohort improves research across all fields, benefiting all groups, and helps clarify what types of patients benefit most from certain medications. 
 

7: Identify the right endpoints; avoid the wrong ones

Even though our understanding of the pathophysiology of long COVID is still evolving, it’s still possible to do clinical trials by identifying strong endpoints and outcome measures. 

Several tools have been designed for viral-onset conditions and should be used alongside other endpoints. Postexertional malaise and autonomic symptoms, which are some of the most common symptoms of long COVID, can be measured with the validated DSQ-PEM and COMPASS-31, respectively. Tools for cognitive dysfunction trials should capture specific and common types of impairment, like processing speed. 

Endpoints should be high-impact and aim for large improvements that have clinical significance over small improvements that do not have clinical significance. 

Objective tests should be incorporated where possible; some to consider include natural killer cell functioning, cerebral blood flow, T-cell functioning, levels of reactivated herpesviruses, blood lactate levels, and microclots, as testing becomes available. 

Mental health outcomes shouldn’t be primary endpoints, except where a trial is targeting a specific mental health condition because of COVID (for example, premenstrual dysphoric disorder). 

If mental health conditions are tracked secondarily, it’s vital not to use questionnaires that include physical symptoms like fatigue, difficulty concentrating, difficulty sleeping, or palpitations, as these artificially increase depression and anxiety scores in chronically ill respondents. Tools that include physical symptoms (Patient Health Questionnaire–9, Beck Anxiety Inventory, Beck Depression Inventory) can be replaced with scales like the PHQ-2, General Anxiety Disorder–7, Hospital Anxiety and Depression Scale, or PROMIS-29 subscales.

Because certain cytokines and other inflammatory markers may naturally decrease over time without corresponding improvement in the ME/CFS subtype, caution should be taken when using cytokines as endpoints.
 

8: Consider enrollment and objectives carefully

A proportion of people with long COVID will recover in the early months after infection. Ideally, clinical trials will primarily study treatments in patients who have been ill 6 months or longer, as some natural recovery will happen before that can bias studies.

But where resources are abundant, it is ideal for trials to additionally look at whether the treatments can help patients in the early months recover and prevent progression to the later stage.
 

9: Tracking illness duration is crucial

Research from ME/CFS shows that there may be an immune change in the first few years of the illness, where cytokines decrease without any corresponding change in symptom improvement. 

Because of this and the possibility that other markers follow the same pattern, disease duration should be a core feature of all analyses and trial designs. Trial outcomes should be designed to answer the question of whether the medication helps patients at different durations of illness. 
 

10: Prioritize patient populations less likely to recover without intervention

Some long COVID phenotypes seem less likely to recover without intervention. Trials should take care to focus on these patient populations, which include those with neurologic symptoms and those meeting ME/CFS criteria.

 

11: Account for the relapsing/remitting nature

Outcome measures need to be assessed in a way that can distinguish a temporary remission, which is part of the natural course of the disease, from a permanent cure. 

Factors that can contribute to the relapsing/remitting nature include physical and cognitive postexertional malaise, menstrual cycle changes, and seasonal changes.
 

12: Trial participants should reflect the diversity of the long COVID population

Certain demographics are more likely to be affected by acute and long COVID and need to be appropriately recruited and reflected in research, including in patient engagement. 

Trials must include high numbers of Hispanic/Latinx, Black, and indigenous communities, queer and transgender populations, and women. Trial materials and design need to incorporate linguistic diversity in addition to racial/ethnic diversity.

Upward of 75% of long COVID cases happen after mild acute cases; clinical researchers should ensure that nonhospitalized patients make up the bulk of trial participants. 
 

13: Utilize meaningful engagement of patients, especially in treatment selection and study design

Meaningful patient engagement means engaging multiple patients at every step of the trial process, from treatment selection to study design to analysis to communication of the results. 

Patient experiences are extremely valuable and contain information that researchers may not be familiar with, including the nature and patterns of the illness, insights into possible treatments, and barriers to documentation and care that may also impact research. Tapping into those patient experiences will make trials stronger.

Overall, the landscape of long COVID clinical trials is ripe for discovery, and researchers choosing to go down this path will be deeply appreciated by the patient community. 

Hannah Davis is a long COVID patient-researcher and cofounder of the Patient-Led Research Collaborative, an organization studying the long-term effects of COVID.

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

MANCHESTER, England – Data from the COVAD-2 e-survey suggest that people with a rheumatic disease are twice as likely as are those without to experience long-term effects after contracting COVID-19.

The prevalence of post–COVID-19 condition (PCC), the term the World Health Organization advocates for describing the widely popularized term long COVID, was 10.8% among people with autoimmune rheumatic diseases (AIRDs) vs. 5.3% among those with no autoimmune condition (designated as “healthy controls”). The odds ratio was 2.1, with a 95% confidence interval of 1.4-3.2 and a P-value of .002.

The prevalence in people with nonrheumatic autoimmune diseases was also higher than it was in the control participants but still lower, at 7.3%, than in those with AIRDs.

Sara Freeman/MDedge News

“Our findings highlight the importance of close monitoring for PCC,” Arvind Nune, MBBCh, MSc, said in a virtual poster presentation at the annual meeting of the British Society for Rheumatology.

They also show the need for “appropriate referral for optimized multidisciplinary care for patients with autoimmune rheumatic diseases during the recovery period following COVID-19,” added Dr. Nune, who works for Southport (England) and Ormskirk Hospital NHS Trust.

In an interview, he noted that it was patients who had a severe COVID-19 course or had other coexisting conditions that appeared to experience more long-term effects than did their less-affected counterparts.

Commenting on the study, Jeffrey A. Sparks, MD, MMSc, told this news organization: “This is one of the first studies to find that the prevalence of long COVID is higher among people with systemic rheumatic diseases than those without.”

Dr. Sparks, who is based at Brigham and Women’s Hospital and Harvard Medical School in Boston, added: “Since the symptoms of long COVID and rheumatic diseases can overlap substantially, more work will need to be done to determine whether COVID may have induced flares, new symptoms, or whether the finding is due to the presence of the chronic rheumatic disease.”
 

The COVAD study

Using an electronic survey platform, the COVAD study has been set up to look at the long-term efficacy and safety of COVID-19 vaccinations in patients with AIRDs. It’s now a large international effort involving more than 150 collaborating clinics in 106 countries.

A huge amount of data has been collected. “We collected demographics, details of autoimmune disease, including treatment, comorbidity, COVID infection, vaccination history and outcomes, date on flares, and validated patient-reported outcomes, including pain, fatigue, physical function, and quality of life,” Dr. Nune said in his presentation.

A total of 12,358 people who were invited to participate responded to the e-survey. Of them, 2,640 were confirmed to have COVID-19. Because the analysis aimed to look at PCC, anyone who had completed the survey less than 3 months after infection was excluded. This left 1,677 eligible respondents, of whom, an overall 8.7% (n = 136) were identified as having PCC.

“The [WHO] definition for PCC was employed, which is persistent signs or symptoms beyond 3 months of COVID-19 infection lasting at least 2 months,” Dr. Nune told this news organization.

“Symptoms could be anything from fatigue to breathlessness to arthralgias,” he added. However, the focus of the present analysis was to look at how many people were experiencing the condition rather than specific symptoms.

A higher risk for PCC was seen in women than in men (OR, 2.9; 95% CI, 1.1-7.7; P = .037) in the entire cohort.

In addition, those with comorbidities were found to have a greater chance of long-term sequelae from COVID-19 than were those without comorbid disease (OR, 2.8; 95% CI, 1.4-5.7; P = .005).

Patients who experienced more severe acute COVID-19, such as those who needed intensive care treatment, oxygen therapy, or advanced treatment for COVID-19 with monoclonal antibodies, were significantly more likely to later have PCC than were those who did not (OR, 3.8; 95% CI, 1.1-13.6; P = .039).

Having PCC was also associated with poorer patient-reported outcomes for physical function, compared with not having PCC. “However, no association with disease flares of underlying rheumatic diseases or immunosuppressive drugs used were noted,” Dr. Nune said.

These new findings from the COVAD study should be published soon. Dr. Nune suggested that the findings might be used to help identify patients early so that they can be referred to the appropriate services in good time.

The COVAD study was independently supported. Dr. Nune reports no relevant financial relationships. Dr. Sparks is supported by the National Institute of Arthritis and Musculoskeletal and Skin Diseases, the R. Bruce and Joan M. Mickey Research Scholar Fund, and the Llura Gund Award for Rheumatoid Arthritis Research and Care. Dr. Sparks has received research support from Bristol-Myers Squibb and performed consultancy for AbbVie, Amgen, Boehringer Ingelheim, Bristol-Myers Squibb, Gilead, Inova Diagnostics, Janssen, Optum, and Pfizer.
 

MANCHESTER, England – Data from the COVAD-2 e-survey suggest that people with a rheumatic disease are twice as likely as are those without to experience long-term effects after contracting COVID-19.

The prevalence of post–COVID-19 condition (PCC), the term the World Health Organization advocates for describing the widely popularized term long COVID, was 10.8% among people with autoimmune rheumatic diseases (AIRDs) vs. 5.3% among those with no autoimmune condition (designated as “healthy controls”). The odds ratio was 2.1, with a 95% confidence interval of 1.4-3.2 and a P-value of .002.

The prevalence in people with nonrheumatic autoimmune diseases was also higher than it was in the control participants but still lower, at 7.3%, than in those with AIRDs.

Sara Freeman/MDedge News

“Our findings highlight the importance of close monitoring for PCC,” Arvind Nune, MBBCh, MSc, said in a virtual poster presentation at the annual meeting of the British Society for Rheumatology.

They also show the need for “appropriate referral for optimized multidisciplinary care for patients with autoimmune rheumatic diseases during the recovery period following COVID-19,” added Dr. Nune, who works for Southport (England) and Ormskirk Hospital NHS Trust.

In an interview, he noted that it was patients who had a severe COVID-19 course or had other coexisting conditions that appeared to experience more long-term effects than did their less-affected counterparts.

Commenting on the study, Jeffrey A. Sparks, MD, MMSc, told this news organization: “This is one of the first studies to find that the prevalence of long COVID is higher among people with systemic rheumatic diseases than those without.”

Dr. Sparks, who is based at Brigham and Women’s Hospital and Harvard Medical School in Boston, added: “Since the symptoms of long COVID and rheumatic diseases can overlap substantially, more work will need to be done to determine whether COVID may have induced flares, new symptoms, or whether the finding is due to the presence of the chronic rheumatic disease.”
 

The COVAD study

Using an electronic survey platform, the COVAD study has been set up to look at the long-term efficacy and safety of COVID-19 vaccinations in patients with AIRDs. It’s now a large international effort involving more than 150 collaborating clinics in 106 countries.

A huge amount of data has been collected. “We collected demographics, details of autoimmune disease, including treatment, comorbidity, COVID infection, vaccination history and outcomes, date on flares, and validated patient-reported outcomes, including pain, fatigue, physical function, and quality of life,” Dr. Nune said in his presentation.

A total of 12,358 people who were invited to participate responded to the e-survey. Of them, 2,640 were confirmed to have COVID-19. Because the analysis aimed to look at PCC, anyone who had completed the survey less than 3 months after infection was excluded. This left 1,677 eligible respondents, of whom, an overall 8.7% (n = 136) were identified as having PCC.

“The [WHO] definition for PCC was employed, which is persistent signs or symptoms beyond 3 months of COVID-19 infection lasting at least 2 months,” Dr. Nune told this news organization.

“Symptoms could be anything from fatigue to breathlessness to arthralgias,” he added. However, the focus of the present analysis was to look at how many people were experiencing the condition rather than specific symptoms.

A higher risk for PCC was seen in women than in men (OR, 2.9; 95% CI, 1.1-7.7; P = .037) in the entire cohort.

In addition, those with comorbidities were found to have a greater chance of long-term sequelae from COVID-19 than were those without comorbid disease (OR, 2.8; 95% CI, 1.4-5.7; P = .005).

Patients who experienced more severe acute COVID-19, such as those who needed intensive care treatment, oxygen therapy, or advanced treatment for COVID-19 with monoclonal antibodies, were significantly more likely to later have PCC than were those who did not (OR, 3.8; 95% CI, 1.1-13.6; P = .039).

Having PCC was also associated with poorer patient-reported outcomes for physical function, compared with not having PCC. “However, no association with disease flares of underlying rheumatic diseases or immunosuppressive drugs used were noted,” Dr. Nune said.

These new findings from the COVAD study should be published soon. Dr. Nune suggested that the findings might be used to help identify patients early so that they can be referred to the appropriate services in good time.

The COVAD study was independently supported. Dr. Nune reports no relevant financial relationships. Dr. Sparks is supported by the National Institute of Arthritis and Musculoskeletal and Skin Diseases, the R. Bruce and Joan M. Mickey Research Scholar Fund, and the Llura Gund Award for Rheumatoid Arthritis Research and Care. Dr. Sparks has received research support from Bristol-Myers Squibb and performed consultancy for AbbVie, Amgen, Boehringer Ingelheim, Bristol-Myers Squibb, Gilead, Inova Diagnostics, Janssen, Optum, and Pfizer.
 

MANCHESTER, England – Data from the COVAD-2 e-survey suggest that people with a rheumatic disease are twice as likely as are those without to experience long-term effects after contracting COVID-19.

The prevalence of post–COVID-19 condition (PCC), the term the World Health Organization advocates for describing the widely popularized term long COVID, was 10.8% among people with autoimmune rheumatic diseases (AIRDs) vs. 5.3% among those with no autoimmune condition (designated as “healthy controls”). The odds ratio was 2.1, with a 95% confidence interval of 1.4-3.2 and a P-value of .002.

The prevalence in people with nonrheumatic autoimmune diseases was also higher than it was in the control participants but still lower, at 7.3%, than in those with AIRDs.

Sara Freeman/MDedge News

“Our findings highlight the importance of close monitoring for PCC,” Arvind Nune, MBBCh, MSc, said in a virtual poster presentation at the annual meeting of the British Society for Rheumatology.

They also show the need for “appropriate referral for optimized multidisciplinary care for patients with autoimmune rheumatic diseases during the recovery period following COVID-19,” added Dr. Nune, who works for Southport (England) and Ormskirk Hospital NHS Trust.

In an interview, he noted that it was patients who had a severe COVID-19 course or had other coexisting conditions that appeared to experience more long-term effects than did their less-affected counterparts.

Commenting on the study, Jeffrey A. Sparks, MD, MMSc, told this news organization: “This is one of the first studies to find that the prevalence of long COVID is higher among people with systemic rheumatic diseases than those without.”

Dr. Sparks, who is based at Brigham and Women’s Hospital and Harvard Medical School in Boston, added: “Since the symptoms of long COVID and rheumatic diseases can overlap substantially, more work will need to be done to determine whether COVID may have induced flares, new symptoms, or whether the finding is due to the presence of the chronic rheumatic disease.”
 

The COVAD study

Using an electronic survey platform, the COVAD study has been set up to look at the long-term efficacy and safety of COVID-19 vaccinations in patients with AIRDs. It’s now a large international effort involving more than 150 collaborating clinics in 106 countries.

A huge amount of data has been collected. “We collected demographics, details of autoimmune disease, including treatment, comorbidity, COVID infection, vaccination history and outcomes, date on flares, and validated patient-reported outcomes, including pain, fatigue, physical function, and quality of life,” Dr. Nune said in his presentation.

A total of 12,358 people who were invited to participate responded to the e-survey. Of them, 2,640 were confirmed to have COVID-19. Because the analysis aimed to look at PCC, anyone who had completed the survey less than 3 months after infection was excluded. This left 1,677 eligible respondents, of whom, an overall 8.7% (n = 136) were identified as having PCC.

“The [WHO] definition for PCC was employed, which is persistent signs or symptoms beyond 3 months of COVID-19 infection lasting at least 2 months,” Dr. Nune told this news organization.

“Symptoms could be anything from fatigue to breathlessness to arthralgias,” he added. However, the focus of the present analysis was to look at how many people were experiencing the condition rather than specific symptoms.

A higher risk for PCC was seen in women than in men (OR, 2.9; 95% CI, 1.1-7.7; P = .037) in the entire cohort.

In addition, those with comorbidities were found to have a greater chance of long-term sequelae from COVID-19 than were those without comorbid disease (OR, 2.8; 95% CI, 1.4-5.7; P = .005).

Patients who experienced more severe acute COVID-19, such as those who needed intensive care treatment, oxygen therapy, or advanced treatment for COVID-19 with monoclonal antibodies, were significantly more likely to later have PCC than were those who did not (OR, 3.8; 95% CI, 1.1-13.6; P = .039).

Having PCC was also associated with poorer patient-reported outcomes for physical function, compared with not having PCC. “However, no association with disease flares of underlying rheumatic diseases or immunosuppressive drugs used were noted,” Dr. Nune said.

These new findings from the COVAD study should be published soon. Dr. Nune suggested that the findings might be used to help identify patients early so that they can be referred to the appropriate services in good time.

The COVAD study was independently supported. Dr. Nune reports no relevant financial relationships. Dr. Sparks is supported by the National Institute of Arthritis and Musculoskeletal and Skin Diseases, the R. Bruce and Joan M. Mickey Research Scholar Fund, and the Llura Gund Award for Rheumatoid Arthritis Research and Care. Dr. Sparks has received research support from Bristol-Myers Squibb and performed consultancy for AbbVie, Amgen, Boehringer Ingelheim, Bristol-Myers Squibb, Gilead, Inova Diagnostics, Janssen, Optum, and Pfizer.
 

Since the COVID-19 pandemic started more than 3 years ago, the longer-lasting effects of SARS-CoV-2 infection have continued to reveal themselves. Approximately 28% of Americans report having ever experienced post-COVID conditions, such as brain fog, postexertional malaise, and joint pain, and 11% say they are still experiencing these long-term effects. Now, new research is showing that people who have had COVID are more likely to newly develop an autoimmune disease. Exactly why this is happening is less clear, experts say.

Two preprint studies and one study published in a peer-reviewed journal provide strong evidence that patients who have been infected with SARS-CoV-2 are at elevated risk of developing an autoimmune disease. The studies retrospectively reviewed medical records from three countries and compared the incidence of new-onset autoimmune disease among patients who had polymerase chain reaction–confirmed COVID-19 and those who had never been diagnosed with the virus.

A study analyzing the health records of 3.8 million U.S. patients – more than 888,460 with confirmed COVID-19 – found that the COVID-19 group was two to three times as likely to develop various autoimmune diseases, such as rheumatoid arthritis, systemic lupus erythematosus, and systemic sclerosis. A U.K. preprint study that included more than 458,000 people with confirmed COVID found that those who had previously been infected with SARS-CoV-2 were 22% more likely to develop an autoimmune disease compared with the control group. In this cohort, the diseases most strongly associated with COVID-19 were type 1 diabetes, inflammatory bowel disease, and psoriasis. A preprint study from German researchers found that COVID-19 patients were almost 43% more likely to develop an autoimmune disease, compared with those who had never been infected. COVID-19 was most strongly linked to vasculitis.
 

These large studies are telling us, “Yes, this link is there, so we have to accept it,” Sonia Sharma, PhD, of the Center for Autoimmunity and Inflammation at the La Jolla (Calif.) Institute for Immunology, told this news organization. But this is not the first time that autoimmune diseases have been linked to previous infections.

La Jolla Institute for Immunology

Researchers have known for decades that Epstein-Barr virus infection is linked to several autoimmune diseases, including systemic lupus erythematosus, multiple sclerosis, and rheumatoid arthritis. More recent research suggests the virus may activate certain genes associated with these immune disorders. Hepatitis C virus can induce cryoglobulinemia, and infection with cytomegalovirus has been implicated in several autoimmune diseases. Bacterial infections have also been linked to autoimmunity, such as group A streptococcus and rheumatic fever, as well as salmonella and reactive arthritis, to name only a few.

“In a way, this isn’t necessarily a new concept to physicians, particularly rheumatologists,” said Jeffrey A. Sparks, MD, a rheumatologist at Brigham and Women’s Hospital in Boston. “There’s a fine line between appropriately clearing an infection and the body overreacting and setting off a cascade where the immune system is chronically overactive that can manifest as an autoimmune disease,” he told this news organization.

A dysregulated response to infection

It takes the immune system a week or two to develop antigen-specific antibodies to a new pathogen. But for patients with serious infections – in this instance, COVID-19 – that’s time they don’t have. Therefore, the immune system has an alternative pathway, called extrafollicular activation, that creates fast-acting antibodies, explained Matthew Woodruff, PhD, an instructor of immunology and rheumatology at Emory University, Atlanta.

Emory University School of Medicine

The trade-off is that these antibodies are not as specific and can target the body’s own tissues. This dysregulation of antibody selection is generally short lived and fades when more targeted antibodies are produced and take over, but in some cases, this process can lead to high levels of self-targeting antibodies that can harm the body’s organs and tissues. Research also suggests that for patients who experience long COVID, the same autoantibodies that drive the initial immune response are detectable in the body months after infection, though it is not known whether these lingering immune cells cause these longer-lasting symptoms.

“If you have a virus that causes hyperinflammation plus organ damage, that is a recipe for disaster,” Dr. Sharma said. “It’s a recipe for autoantibodies and autoreactive T cells that down the road can attack the body’s own tissues, especially in people whose immune system is trained in such a way to cause self-reactivity,” she added.

This hyperinflammation can result in rare but serious complications, such as multisystem inflammatory syndrome in children and adults, which can occur 2-6 weeks after SARS-CoV-2 infection. But even in these patients with severe illness, organ-specific complications tend to resolve in 6 months with “no significant sequelae 1 year after diagnosis,” according to the Centers for Disease Control and Prevention. And while long COVID can last for a year or longer, data suggest that symptoms do eventually resolve for most people. What is not clear is why acute autoimmunity triggered by COVID-19 can become a chronic condition in certain patients.
 

Predisposition to autoimmunity

P. J. Utz, MD, PhD, professor of immunology and rheumatology at Stanford (Calif.) University, said that people who develop autoimmune disease after SARS-CoV-2 infection may have already been predisposed toward autoimmunity. Especially for autoimmune diseases such as type 1 diabetes and lupus, autoantibodies can appear and circulate in the body for more than a decade in some people before they present with any clinical symptoms. “Their immune system is primed such that if they get infected with something – or they have some other environmental trigger that maybe we don’t know about yet – that is enough to then push them over the edge so that they get full-blown autoimmunity,” he said. What is not known is whether these patients’ conditions would have advanced to true clinical disease had they not been infected, he said.

Steve Fisch

He also noted that the presence of autoantibodies does not necessarily mean someone has autoimmune disease; healthy people can also have autoantibodies, and everyone develops them with age. “My advice would be, ‘Don’t lose sleep over this,’ “ he said.

Dr. Sparks agreed that while these retrospective studies did show an elevated risk of autoimmune disease after COVID-19, that risk appears to be relatively small. “As a practicing rheumatologist, we aren’t seeing a stampede of patients with new-onset rheumatic diseases,” he said. “It’s not like we’re overwhelmed with autoimmune patients, even though almost everyone’s had COVID. So, if there is a risk, it’s very modest.”

Dr. Sparks is supported by the National Institute of Arthritis and Musculoskeletal and Skin Diseases, the R. Bruce and Joan M. Mickey Research Scholar Fund, and the Llura Gund Award for Rheumatoid Arthritis Research and Care. Dr. Utz receives research funding from Pfizer. Dr. Sharma and Dr. Woodruff have disclosed no relevant financial relationships.
 

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

Since the COVID-19 pandemic started more than 3 years ago, the longer-lasting effects of SARS-CoV-2 infection have continued to reveal themselves. Approximately 28% of Americans report having ever experienced post-COVID conditions, such as brain fog, postexertional malaise, and joint pain, and 11% say they are still experiencing these long-term effects. Now, new research is showing that people who have had COVID are more likely to newly develop an autoimmune disease. Exactly why this is happening is less clear, experts say.

Two preprint studies and one study published in a peer-reviewed journal provide strong evidence that patients who have been infected with SARS-CoV-2 are at elevated risk of developing an autoimmune disease. The studies retrospectively reviewed medical records from three countries and compared the incidence of new-onset autoimmune disease among patients who had polymerase chain reaction–confirmed COVID-19 and those who had never been diagnosed with the virus.

A study analyzing the health records of 3.8 million U.S. patients – more than 888,460 with confirmed COVID-19 – found that the COVID-19 group was two to three times as likely to develop various autoimmune diseases, such as rheumatoid arthritis, systemic lupus erythematosus, and systemic sclerosis. A U.K. preprint study that included more than 458,000 people with confirmed COVID found that those who had previously been infected with SARS-CoV-2 were 22% more likely to develop an autoimmune disease compared with the control group. In this cohort, the diseases most strongly associated with COVID-19 were type 1 diabetes, inflammatory bowel disease, and psoriasis. A preprint study from German researchers found that COVID-19 patients were almost 43% more likely to develop an autoimmune disease, compared with those who had never been infected. COVID-19 was most strongly linked to vasculitis.
 

These large studies are telling us, “Yes, this link is there, so we have to accept it,” Sonia Sharma, PhD, of the Center for Autoimmunity and Inflammation at the La Jolla (Calif.) Institute for Immunology, told this news organization. But this is not the first time that autoimmune diseases have been linked to previous infections.

La Jolla Institute for Immunology

Researchers have known for decades that Epstein-Barr virus infection is linked to several autoimmune diseases, including systemic lupus erythematosus, multiple sclerosis, and rheumatoid arthritis. More recent research suggests the virus may activate certain genes associated with these immune disorders. Hepatitis C virus can induce cryoglobulinemia, and infection with cytomegalovirus has been implicated in several autoimmune diseases. Bacterial infections have also been linked to autoimmunity, such as group A streptococcus and rheumatic fever, as well as salmonella and reactive arthritis, to name only a few.

“In a way, this isn’t necessarily a new concept to physicians, particularly rheumatologists,” said Jeffrey A. Sparks, MD, a rheumatologist at Brigham and Women’s Hospital in Boston. “There’s a fine line between appropriately clearing an infection and the body overreacting and setting off a cascade where the immune system is chronically overactive that can manifest as an autoimmune disease,” he told this news organization.

A dysregulated response to infection

It takes the immune system a week or two to develop antigen-specific antibodies to a new pathogen. But for patients with serious infections – in this instance, COVID-19 – that’s time they don’t have. Therefore, the immune system has an alternative pathway, called extrafollicular activation, that creates fast-acting antibodies, explained Matthew Woodruff, PhD, an instructor of immunology and rheumatology at Emory University, Atlanta.

Emory University School of Medicine

The trade-off is that these antibodies are not as specific and can target the body’s own tissues. This dysregulation of antibody selection is generally short lived and fades when more targeted antibodies are produced and take over, but in some cases, this process can lead to high levels of self-targeting antibodies that can harm the body’s organs and tissues. Research also suggests that for patients who experience long COVID, the same autoantibodies that drive the initial immune response are detectable in the body months after infection, though it is not known whether these lingering immune cells cause these longer-lasting symptoms.

“If you have a virus that causes hyperinflammation plus organ damage, that is a recipe for disaster,” Dr. Sharma said. “It’s a recipe for autoantibodies and autoreactive T cells that down the road can attack the body’s own tissues, especially in people whose immune system is trained in such a way to cause self-reactivity,” she added.

This hyperinflammation can result in rare but serious complications, such as multisystem inflammatory syndrome in children and adults, which can occur 2-6 weeks after SARS-CoV-2 infection. But even in these patients with severe illness, organ-specific complications tend to resolve in 6 months with “no significant sequelae 1 year after diagnosis,” according to the Centers for Disease Control and Prevention. And while long COVID can last for a year or longer, data suggest that symptoms do eventually resolve for most people. What is not clear is why acute autoimmunity triggered by COVID-19 can become a chronic condition in certain patients.
 

Predisposition to autoimmunity

P. J. Utz, MD, PhD, professor of immunology and rheumatology at Stanford (Calif.) University, said that people who develop autoimmune disease after SARS-CoV-2 infection may have already been predisposed toward autoimmunity. Especially for autoimmune diseases such as type 1 diabetes and lupus, autoantibodies can appear and circulate in the body for more than a decade in some people before they present with any clinical symptoms. “Their immune system is primed such that if they get infected with something – or they have some other environmental trigger that maybe we don’t know about yet – that is enough to then push them over the edge so that they get full-blown autoimmunity,” he said. What is not known is whether these patients’ conditions would have advanced to true clinical disease had they not been infected, he said.

Steve Fisch

He also noted that the presence of autoantibodies does not necessarily mean someone has autoimmune disease; healthy people can also have autoantibodies, and everyone develops them with age. “My advice would be, ‘Don’t lose sleep over this,’ “ he said.

Dr. Sparks agreed that while these retrospective studies did show an elevated risk of autoimmune disease after COVID-19, that risk appears to be relatively small. “As a practicing rheumatologist, we aren’t seeing a stampede of patients with new-onset rheumatic diseases,” he said. “It’s not like we’re overwhelmed with autoimmune patients, even though almost everyone’s had COVID. So, if there is a risk, it’s very modest.”

Dr. Sparks is supported by the National Institute of Arthritis and Musculoskeletal and Skin Diseases, the R. Bruce and Joan M. Mickey Research Scholar Fund, and the Llura Gund Award for Rheumatoid Arthritis Research and Care. Dr. Utz receives research funding from Pfizer. Dr. Sharma and Dr. Woodruff have disclosed no relevant financial relationships.
 

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

Since the COVID-19 pandemic started more than 3 years ago, the longer-lasting effects of SARS-CoV-2 infection have continued to reveal themselves. Approximately 28% of Americans report having ever experienced post-COVID conditions, such as brain fog, postexertional malaise, and joint pain, and 11% say they are still experiencing these long-term effects. Now, new research is showing that people who have had COVID are more likely to newly develop an autoimmune disease. Exactly why this is happening is less clear, experts say.

Two preprint studies and one study published in a peer-reviewed journal provide strong evidence that patients who have been infected with SARS-CoV-2 are at elevated risk of developing an autoimmune disease. The studies retrospectively reviewed medical records from three countries and compared the incidence of new-onset autoimmune disease among patients who had polymerase chain reaction–confirmed COVID-19 and those who had never been diagnosed with the virus.

A study analyzing the health records of 3.8 million U.S. patients – more than 888,460 with confirmed COVID-19 – found that the COVID-19 group was two to three times as likely to develop various autoimmune diseases, such as rheumatoid arthritis, systemic lupus erythematosus, and systemic sclerosis. A U.K. preprint study that included more than 458,000 people with confirmed COVID found that those who had previously been infected with SARS-CoV-2 were 22% more likely to develop an autoimmune disease compared with the control group. In this cohort, the diseases most strongly associated with COVID-19 were type 1 diabetes, inflammatory bowel disease, and psoriasis. A preprint study from German researchers found that COVID-19 patients were almost 43% more likely to develop an autoimmune disease, compared with those who had never been infected. COVID-19 was most strongly linked to vasculitis.
 

These large studies are telling us, “Yes, this link is there, so we have to accept it,” Sonia Sharma, PhD, of the Center for Autoimmunity and Inflammation at the La Jolla (Calif.) Institute for Immunology, told this news organization. But this is not the first time that autoimmune diseases have been linked to previous infections.

La Jolla Institute for Immunology

Researchers have known for decades that Epstein-Barr virus infection is linked to several autoimmune diseases, including systemic lupus erythematosus, multiple sclerosis, and rheumatoid arthritis. More recent research suggests the virus may activate certain genes associated with these immune disorders. Hepatitis C virus can induce cryoglobulinemia, and infection with cytomegalovirus has been implicated in several autoimmune diseases. Bacterial infections have also been linked to autoimmunity, such as group A streptococcus and rheumatic fever, as well as salmonella and reactive arthritis, to name only a few.

“In a way, this isn’t necessarily a new concept to physicians, particularly rheumatologists,” said Jeffrey A. Sparks, MD, a rheumatologist at Brigham and Women’s Hospital in Boston. “There’s a fine line between appropriately clearing an infection and the body overreacting and setting off a cascade where the immune system is chronically overactive that can manifest as an autoimmune disease,” he told this news organization.

A dysregulated response to infection

It takes the immune system a week or two to develop antigen-specific antibodies to a new pathogen. But for patients with serious infections – in this instance, COVID-19 – that’s time they don’t have. Therefore, the immune system has an alternative pathway, called extrafollicular activation, that creates fast-acting antibodies, explained Matthew Woodruff, PhD, an instructor of immunology and rheumatology at Emory University, Atlanta.

Emory University School of Medicine

The trade-off is that these antibodies are not as specific and can target the body’s own tissues. This dysregulation of antibody selection is generally short lived and fades when more targeted antibodies are produced and take over, but in some cases, this process can lead to high levels of self-targeting antibodies that can harm the body’s organs and tissues. Research also suggests that for patients who experience long COVID, the same autoantibodies that drive the initial immune response are detectable in the body months after infection, though it is not known whether these lingering immune cells cause these longer-lasting symptoms.

“If you have a virus that causes hyperinflammation plus organ damage, that is a recipe for disaster,” Dr. Sharma said. “It’s a recipe for autoantibodies and autoreactive T cells that down the road can attack the body’s own tissues, especially in people whose immune system is trained in such a way to cause self-reactivity,” she added.

This hyperinflammation can result in rare but serious complications, such as multisystem inflammatory syndrome in children and adults, which can occur 2-6 weeks after SARS-CoV-2 infection. But even in these patients with severe illness, organ-specific complications tend to resolve in 6 months with “no significant sequelae 1 year after diagnosis,” according to the Centers for Disease Control and Prevention. And while long COVID can last for a year or longer, data suggest that symptoms do eventually resolve for most people. What is not clear is why acute autoimmunity triggered by COVID-19 can become a chronic condition in certain patients.
 

Predisposition to autoimmunity

P. J. Utz, MD, PhD, professor of immunology and rheumatology at Stanford (Calif.) University, said that people who develop autoimmune disease after SARS-CoV-2 infection may have already been predisposed toward autoimmunity. Especially for autoimmune diseases such as type 1 diabetes and lupus, autoantibodies can appear and circulate in the body for more than a decade in some people before they present with any clinical symptoms. “Their immune system is primed such that if they get infected with something – or they have some other environmental trigger that maybe we don’t know about yet – that is enough to then push them over the edge so that they get full-blown autoimmunity,” he said. What is not known is whether these patients’ conditions would have advanced to true clinical disease had they not been infected, he said.

Steve Fisch

He also noted that the presence of autoantibodies does not necessarily mean someone has autoimmune disease; healthy people can also have autoantibodies, and everyone develops them with age. “My advice would be, ‘Don’t lose sleep over this,’ “ he said.

Dr. Sparks agreed that while these retrospective studies did show an elevated risk of autoimmune disease after COVID-19, that risk appears to be relatively small. “As a practicing rheumatologist, we aren’t seeing a stampede of patients with new-onset rheumatic diseases,” he said. “It’s not like we’re overwhelmed with autoimmune patients, even though almost everyone’s had COVID. So, if there is a risk, it’s very modest.”

Dr. Sparks is supported by the National Institute of Arthritis and Musculoskeletal and Skin Diseases, the R. Bruce and Joan M. Mickey Research Scholar Fund, and the Llura Gund Award for Rheumatoid Arthritis Research and Care. Dr. Utz receives research funding from Pfizer. Dr. Sharma and Dr. Woodruff have disclosed no relevant financial relationships.
 

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

A new study shows that people with long COVID respond differently to COVID vaccines and that the condition may be caused by a dysfunction of the immune system – possibly explaining why some people experience symptoms for months while others recover and resume normal lives. 

The study compared people who already had long COVID with people who had recovered from the virus. Both groups had not yet been vaccinated prior to the study. When researchers analyzed blood samples after people received an initial vaccine dose, they found that people with long COVID and people who had already recovered from the virus had similar immune responses at first. But after 8 weeks, the long-COVID group’s immune response remained elevated, while the other group’s response had declined.

The long-COVID group also showed an extra immune response that tried to fight the virus in a secondary way that researchers didn’t expect. Both groups showed an initial increase in their blood of antibodies that primarily target what’s known as the “spike” protein of the coronavirus, which allows the virus to invade healthy cells. But the long-COVID group also showed a prolonged increased immune response that tried to fight the part of the virus related to how it replicates.

“Theoretically, the production of these antibodies could mean that people are more protected from infection,” said researcher Catherine Le, MD, in a statement. “We also need to investigate if the elevated immune response corresponds with severity or number of long–COVID-19 symptoms.”

Dr. Le is codirector of the COVID-19 Recovery Program at Cedars-Sinai Medical Center in Los Angeles, where the study was conducted.

Study participants agreed in September 2020 to participate in long-term COVID research at Cedars-Sinai. The new analysis was published earlier this year in BMC Infectious Diseases and included 245 people who had long COVID and 86 health care workers who had recovered from COVID but did not have long-term symptoms. 

For the study, long COVID was defined as having symptoms that lasted more than 12 weeks. Common long-COVID symptoms are fatigue, shortness of breath, and brain dysfunction such as confusion and forgetfulness.

The authors said it’s unclear why the two groups had different immune responses and also noted that their study was limited by a small sample size. Their research of blood samples is ongoing, with the goals of identifying a way to diagnose long COVID with a laboratory test and of better understanding what causes the condition.

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

A new study shows that people with long COVID respond differently to COVID vaccines and that the condition may be caused by a dysfunction of the immune system – possibly explaining why some people experience symptoms for months while others recover and resume normal lives. 

The study compared people who already had long COVID with people who had recovered from the virus. Both groups had not yet been vaccinated prior to the study. When researchers analyzed blood samples after people received an initial vaccine dose, they found that people with long COVID and people who had already recovered from the virus had similar immune responses at first. But after 8 weeks, the long-COVID group’s immune response remained elevated, while the other group’s response had declined.

The long-COVID group also showed an extra immune response that tried to fight the virus in a secondary way that researchers didn’t expect. Both groups showed an initial increase in their blood of antibodies that primarily target what’s known as the “spike” protein of the coronavirus, which allows the virus to invade healthy cells. But the long-COVID group also showed a prolonged increased immune response that tried to fight the part of the virus related to how it replicates.

“Theoretically, the production of these antibodies could mean that people are more protected from infection,” said researcher Catherine Le, MD, in a statement. “We also need to investigate if the elevated immune response corresponds with severity or number of long–COVID-19 symptoms.”

Dr. Le is codirector of the COVID-19 Recovery Program at Cedars-Sinai Medical Center in Los Angeles, where the study was conducted.

Study participants agreed in September 2020 to participate in long-term COVID research at Cedars-Sinai. The new analysis was published earlier this year in BMC Infectious Diseases and included 245 people who had long COVID and 86 health care workers who had recovered from COVID but did not have long-term symptoms. 

For the study, long COVID was defined as having symptoms that lasted more than 12 weeks. Common long-COVID symptoms are fatigue, shortness of breath, and brain dysfunction such as confusion and forgetfulness.

The authors said it’s unclear why the two groups had different immune responses and also noted that their study was limited by a small sample size. Their research of blood samples is ongoing, with the goals of identifying a way to diagnose long COVID with a laboratory test and of better understanding what causes the condition.

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

A new study shows that people with long COVID respond differently to COVID vaccines and that the condition may be caused by a dysfunction of the immune system – possibly explaining why some people experience symptoms for months while others recover and resume normal lives. 

The study compared people who already had long COVID with people who had recovered from the virus. Both groups had not yet been vaccinated prior to the study. When researchers analyzed blood samples after people received an initial vaccine dose, they found that people with long COVID and people who had already recovered from the virus had similar immune responses at first. But after 8 weeks, the long-COVID group’s immune response remained elevated, while the other group’s response had declined.

The long-COVID group also showed an extra immune response that tried to fight the virus in a secondary way that researchers didn’t expect. Both groups showed an initial increase in their blood of antibodies that primarily target what’s known as the “spike” protein of the coronavirus, which allows the virus to invade healthy cells. But the long-COVID group also showed a prolonged increased immune response that tried to fight the part of the virus related to how it replicates.

“Theoretically, the production of these antibodies could mean that people are more protected from infection,” said researcher Catherine Le, MD, in a statement. “We also need to investigate if the elevated immune response corresponds with severity or number of long–COVID-19 symptoms.”

Dr. Le is codirector of the COVID-19 Recovery Program at Cedars-Sinai Medical Center in Los Angeles, where the study was conducted.

Study participants agreed in September 2020 to participate in long-term COVID research at Cedars-Sinai. The new analysis was published earlier this year in BMC Infectious Diseases and included 245 people who had long COVID and 86 health care workers who had recovered from COVID but did not have long-term symptoms. 

For the study, long COVID was defined as having symptoms that lasted more than 12 weeks. Common long-COVID symptoms are fatigue, shortness of breath, and brain dysfunction such as confusion and forgetfulness.

The authors said it’s unclear why the two groups had different immune responses and also noted that their study was limited by a small sample size. Their research of blood samples is ongoing, with the goals of identifying a way to diagnose long COVID with a laboratory test and of better understanding what causes the condition.

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

BOSTON – The neurologic symptoms of long COVID appear to be explained by a phenomenon known as antigenic imprinting, which involves a misdirected immune response to the SARS-CoV2 virus, according to a collaborative study presented at the 2023 annual meeting of the American Academy of Neurology.

Already documented in several other viral infections, such as influenza and human immunodeficiency virus, antigenic imprinting results in production of antibodies to previously encountered viral infections rather than to the immediate threat, according to Marianna Spatola, MD, PhD, a research fellow at the Ragon Institute, Harvard University, Cambridge, Mass.
 

Original antigenic sin

In the case of persistent neurologic symptoms after COVID, a condition known as neuroPASC (neurological postacute sequelae of SARS-CoV2 infection), antibodies produced for previously encountered coronaviruses rather than for SARS-CoV2 might explain most or all cases, according to the data Dr. Spatola presented.

The evidence for this explanation was drawn from a study of 112 patients evaluated months after an acute episode of COVID-19. Of these, 18 patients had persistent neurologic dysfunction. When compared with the 94 whose infection resolved without sequelae, the patients with prolonged neurologic impairments had relatively low systemic antibody response to SARS-CoV2. However, they showed relatively high antibody responses against other coronaviruses.

This is a pattern consistent with antigenic imprinting, a concept first described more than 60 years ago as original antigenic sin. When the immune system becomes imprinted with an antigen from the first encountered virus from a family of pathogens, it governs all subsequent antibody responses, according to several published studies that have described and evaluated this concept.
 

Additional evidence

In Dr. Spatola’s study, other differences, particularly in regard to the cerebrospinal fluid (CSF), further supported the role of antigenic imprinting as a cause of neuroPASC. For one, those with elevated immune responses to other common coronaviruses rather than SARS-CoV2 in the CSF relative to the periphery were more likely to have a bad outcome in regard to neurologic symptoms.

Moreover, the CSF in neuroPASC patients “was characterized by increased IgG1 and absence of IgM, suggesting compartmentalized humoral responses within the CSF through selective transfer of antibodies from the serum to the CSF across the blood-brain barrier rather than through intrathecal synthesis,” Dr. Spatola reported.

In the case of COVID-19, the propensity for antigenic imprinting is not difficult to understand.

“The common cold coronaviruses are pretty similar to SARS-CoV2, but they are not exactly the same,” Dr. Spatola said. Her work and studies by others suggest that when antigenic imprinting occurs, “it prevents full maturation of the antibody response.”

NeuroPASC is one of many manifestations of long COVID, but Dr. Spatola pointed out that the immune response in the CSF is unique and the causes of prolonged neurologic impairment after COVID-19 are likely to involve different mechanisms than other long-COVID symptoms.

“Antibodies in the brain are functionally different,” said Dr. Spatola, noting for example that antibody-directed defenses against viral threats show a greater relative reliance on phagocytosis. This might become important in the development of therapeutics for neurologic symptoms of long COVID.
 

A different phenomenon

The manifestations of neuroPASC are heterogeneous and can include confusion, cognitive dysfunction, headache, encephalitis, and other impairments. Neurologic symptoms occur during acute SARS-CoV2 infections, but neuroPASC appears to be a different phenomenon. These symptoms, which develop after the initial respiratory disease has resolved, were attributed by Dr. Spatola to persistent inflammation that is not necessarily directly related to ongoing infection.

“The reason why some patients develop neuroPASC is unknown, but I think the evidence has pointed to a role for the immune system rather than the virus itself,” Dr. Spatola said.

Currently, neuroPASC is a clinical diagnosis but Dr. Spatola and her coinvestigators are conducting research to identify biomarkers. A viable diagnostic test is not expected imminently. They have identified 150 different features with potential relevance to neuroPASC.

In their comparison of those who did relative to those who did not develop neuroPASC, the initial studies were undertaken 2-4 months after the acute COVID-19 symptoms had resolved. The patients with neuroPASC and those without neurologic sequelae have now been followed for 6-8 months, which Dr. Spatola said was too short to draw firm conclusions about outcomes.
 

An evolving concept

Despite the small sample size of this study, these are “very interesting data” for considering the pathogenesis of neuroPASC, which is “a concept that is still evolving,” according to Natalia S. Rost, MD, chief of the stroke division, department of neurology, Massachusetts General Hospital, Boston.

Applied to SARS-CoV2, the concept of original antigenic sin “is new” but Dr. Rost said that it might help differentiate neuroPASC from acute neurologic symptoms of COVID-19, which include stroke. She indicated that the work performed by Dr. Spatola and others might eventually explain the pathology while leading to treatment strategies. She cautioned that the concepts explored in this study “need to be further developed” through larger sample sizes and the exploration of other variables that support the hypothesis.

Dr. Spatola and Dr. Rost report no potential conflicts of interest.

BOSTON – The neurologic symptoms of long COVID appear to be explained by a phenomenon known as antigenic imprinting, which involves a misdirected immune response to the SARS-CoV2 virus, according to a collaborative study presented at the 2023 annual meeting of the American Academy of Neurology.

Already documented in several other viral infections, such as influenza and human immunodeficiency virus, antigenic imprinting results in production of antibodies to previously encountered viral infections rather than to the immediate threat, according to Marianna Spatola, MD, PhD, a research fellow at the Ragon Institute, Harvard University, Cambridge, Mass.
 

Original antigenic sin

In the case of persistent neurologic symptoms after COVID, a condition known as neuroPASC (neurological postacute sequelae of SARS-CoV2 infection), antibodies produced for previously encountered coronaviruses rather than for SARS-CoV2 might explain most or all cases, according to the data Dr. Spatola presented.

The evidence for this explanation was drawn from a study of 112 patients evaluated months after an acute episode of COVID-19. Of these, 18 patients had persistent neurologic dysfunction. When compared with the 94 whose infection resolved without sequelae, the patients with prolonged neurologic impairments had relatively low systemic antibody response to SARS-CoV2. However, they showed relatively high antibody responses against other coronaviruses.

This is a pattern consistent with antigenic imprinting, a concept first described more than 60 years ago as original antigenic sin. When the immune system becomes imprinted with an antigen from the first encountered virus from a family of pathogens, it governs all subsequent antibody responses, according to several published studies that have described and evaluated this concept.
 

Additional evidence

In Dr. Spatola’s study, other differences, particularly in regard to the cerebrospinal fluid (CSF), further supported the role of antigenic imprinting as a cause of neuroPASC. For one, those with elevated immune responses to other common coronaviruses rather than SARS-CoV2 in the CSF relative to the periphery were more likely to have a bad outcome in regard to neurologic symptoms.

Moreover, the CSF in neuroPASC patients “was characterized by increased IgG1 and absence of IgM, suggesting compartmentalized humoral responses within the CSF through selective transfer of antibodies from the serum to the CSF across the blood-brain barrier rather than through intrathecal synthesis,” Dr. Spatola reported.

In the case of COVID-19, the propensity for antigenic imprinting is not difficult to understand.

“The common cold coronaviruses are pretty similar to SARS-CoV2, but they are not exactly the same,” Dr. Spatola said. Her work and studies by others suggest that when antigenic imprinting occurs, “it prevents full maturation of the antibody response.”

NeuroPASC is one of many manifestations of long COVID, but Dr. Spatola pointed out that the immune response in the CSF is unique and the causes of prolonged neurologic impairment after COVID-19 are likely to involve different mechanisms than other long-COVID symptoms.

“Antibodies in the brain are functionally different,” said Dr. Spatola, noting for example that antibody-directed defenses against viral threats show a greater relative reliance on phagocytosis. This might become important in the development of therapeutics for neurologic symptoms of long COVID.
 

A different phenomenon

The manifestations of neuroPASC are heterogeneous and can include confusion, cognitive dysfunction, headache, encephalitis, and other impairments. Neurologic symptoms occur during acute SARS-CoV2 infections, but neuroPASC appears to be a different phenomenon. These symptoms, which develop after the initial respiratory disease has resolved, were attributed by Dr. Spatola to persistent inflammation that is not necessarily directly related to ongoing infection.

“The reason why some patients develop neuroPASC is unknown, but I think the evidence has pointed to a role for the immune system rather than the virus itself,” Dr. Spatola said.

Currently, neuroPASC is a clinical diagnosis but Dr. Spatola and her coinvestigators are conducting research to identify biomarkers. A viable diagnostic test is not expected imminently. They have identified 150 different features with potential relevance to neuroPASC.

In their comparison of those who did relative to those who did not develop neuroPASC, the initial studies were undertaken 2-4 months after the acute COVID-19 symptoms had resolved. The patients with neuroPASC and those without neurologic sequelae have now been followed for 6-8 months, which Dr. Spatola said was too short to draw firm conclusions about outcomes.
 

An evolving concept

Despite the small sample size of this study, these are “very interesting data” for considering the pathogenesis of neuroPASC, which is “a concept that is still evolving,” according to Natalia S. Rost, MD, chief of the stroke division, department of neurology, Massachusetts General Hospital, Boston.

Applied to SARS-CoV2, the concept of original antigenic sin “is new” but Dr. Rost said that it might help differentiate neuroPASC from acute neurologic symptoms of COVID-19, which include stroke. She indicated that the work performed by Dr. Spatola and others might eventually explain the pathology while leading to treatment strategies. She cautioned that the concepts explored in this study “need to be further developed” through larger sample sizes and the exploration of other variables that support the hypothesis.

Dr. Spatola and Dr. Rost report no potential conflicts of interest.

BOSTON – The neurologic symptoms of long COVID appear to be explained by a phenomenon known as antigenic imprinting, which involves a misdirected immune response to the SARS-CoV2 virus, according to a collaborative study presented at the 2023 annual meeting of the American Academy of Neurology.

Already documented in several other viral infections, such as influenza and human immunodeficiency virus, antigenic imprinting results in production of antibodies to previously encountered viral infections rather than to the immediate threat, according to Marianna Spatola, MD, PhD, a research fellow at the Ragon Institute, Harvard University, Cambridge, Mass.
 

Original antigenic sin

In the case of persistent neurologic symptoms after COVID, a condition known as neuroPASC (neurological postacute sequelae of SARS-CoV2 infection), antibodies produced for previously encountered coronaviruses rather than for SARS-CoV2 might explain most or all cases, according to the data Dr. Spatola presented.

The evidence for this explanation was drawn from a study of 112 patients evaluated months after an acute episode of COVID-19. Of these, 18 patients had persistent neurologic dysfunction. When compared with the 94 whose infection resolved without sequelae, the patients with prolonged neurologic impairments had relatively low systemic antibody response to SARS-CoV2. However, they showed relatively high antibody responses against other coronaviruses.

This is a pattern consistent with antigenic imprinting, a concept first described more than 60 years ago as original antigenic sin. When the immune system becomes imprinted with an antigen from the first encountered virus from a family of pathogens, it governs all subsequent antibody responses, according to several published studies that have described and evaluated this concept.
 

Additional evidence

In Dr. Spatola’s study, other differences, particularly in regard to the cerebrospinal fluid (CSF), further supported the role of antigenic imprinting as a cause of neuroPASC. For one, those with elevated immune responses to other common coronaviruses rather than SARS-CoV2 in the CSF relative to the periphery were more likely to have a bad outcome in regard to neurologic symptoms.

Moreover, the CSF in neuroPASC patients “was characterized by increased IgG1 and absence of IgM, suggesting compartmentalized humoral responses within the CSF through selective transfer of antibodies from the serum to the CSF across the blood-brain barrier rather than through intrathecal synthesis,” Dr. Spatola reported.

In the case of COVID-19, the propensity for antigenic imprinting is not difficult to understand.

“The common cold coronaviruses are pretty similar to SARS-CoV2, but they are not exactly the same,” Dr. Spatola said. Her work and studies by others suggest that when antigenic imprinting occurs, “it prevents full maturation of the antibody response.”

NeuroPASC is one of many manifestations of long COVID, but Dr. Spatola pointed out that the immune response in the CSF is unique and the causes of prolonged neurologic impairment after COVID-19 are likely to involve different mechanisms than other long-COVID symptoms.

“Antibodies in the brain are functionally different,” said Dr. Spatola, noting for example that antibody-directed defenses against viral threats show a greater relative reliance on phagocytosis. This might become important in the development of therapeutics for neurologic symptoms of long COVID.
 

A different phenomenon

The manifestations of neuroPASC are heterogeneous and can include confusion, cognitive dysfunction, headache, encephalitis, and other impairments. Neurologic symptoms occur during acute SARS-CoV2 infections, but neuroPASC appears to be a different phenomenon. These symptoms, which develop after the initial respiratory disease has resolved, were attributed by Dr. Spatola to persistent inflammation that is not necessarily directly related to ongoing infection.

“The reason why some patients develop neuroPASC is unknown, but I think the evidence has pointed to a role for the immune system rather than the virus itself,” Dr. Spatola said.

Currently, neuroPASC is a clinical diagnosis but Dr. Spatola and her coinvestigators are conducting research to identify biomarkers. A viable diagnostic test is not expected imminently. They have identified 150 different features with potential relevance to neuroPASC.

In their comparison of those who did relative to those who did not develop neuroPASC, the initial studies were undertaken 2-4 months after the acute COVID-19 symptoms had resolved. The patients with neuroPASC and those without neurologic sequelae have now been followed for 6-8 months, which Dr. Spatola said was too short to draw firm conclusions about outcomes.
 

An evolving concept

Despite the small sample size of this study, these are “very interesting data” for considering the pathogenesis of neuroPASC, which is “a concept that is still evolving,” according to Natalia S. Rost, MD, chief of the stroke division, department of neurology, Massachusetts General Hospital, Boston.

Applied to SARS-CoV2, the concept of original antigenic sin “is new” but Dr. Rost said that it might help differentiate neuroPASC from acute neurologic symptoms of COVID-19, which include stroke. She indicated that the work performed by Dr. Spatola and others might eventually explain the pathology while leading to treatment strategies. She cautioned that the concepts explored in this study “need to be further developed” through larger sample sizes and the exploration of other variables that support the hypothesis.

Dr. Spatola and Dr. Rost report no potential conflicts of interest.

A new federal research project aims to answer lingering questions about long COVID using mobile monitoring devices to help track the condition.

The federally funded RECOVER Initiative expects to give out 10,000 sensors to people with long COVID to collect data in real time.

Terry Rudd/MDedge News

The hope is that researchers will be able to provide doctors and patients with a wealth of information to address gaps in knowledge about long COVID.

The project takes advantage of the approach other researchers have used to track patients’ health data on heart rate, exercise, and more using mobile monitoring devices such as Fitbits, smartwatches, and other remote sensors. 

Researchers believe the initiative could be particularly useful for people with long COVID – whose symptoms come and go. They can use a wristband sensor to passively collect data in real time.

For a condition defined by its symptoms, that kind of data promises to be useful, experts said. 

But not everyone has room in their budget for a smartwatch or a fitness tracker. Until recently, most clinical trials were BYOD: Bring your own device. At a time when researchers are trying to make sure that clinical trials reflect the diversity of the population, that leaves a lot of people out.

So, researchers are starting to supply subjects with their own monitors. The RECOVER Initiative expects to give out 10,000 sensors to people who are eligible based on race/ethnicity, income, and other demographic factors (rural residents for example). After 2 months, all people in the RECOVER study over the age of 13 will be eligible for the sensors.

The federal program builds on earlier research at places like The Scripps Institute, a center of research into remote monitoring. The institute supplied 7,000 monitors to people in an arm of the All of Us study, a 5-year-old multisite cohort that aims to collect medical information from 1 million people. 

The devices went to people who have been historically underrepresented in biomedical research, said Scripps researchers, who plan to give out more this year. 

In March of 2023, Scripps researchers published a study on the tracking data that found a significant post-COVID-19 drop in physical activity. But the data are incomplete because many people can’t always afford these devices. Most of the people in the study were “White, young, and active,” they wrote.

Researchers at an All of Us site at Vanderbilt University, which also used a BYOD approach, realized that they produced biased results. They reported their findings at the Pacific Symposium on Biocomputing in January.

“[The] majority of participants who provided Fitbit data reported being White and employed for wages,” they said. “However, these data represent participants who had their own Fitbit devices and consented to share EHR [electronic health record] data.”

Their solution: The program has begun providing Fitbit devices to all study participants who do not own one or cannot afford one. 

Now, the web page for the All of Us study asks visitors to “Learn about the All of Us WEAR study. You could get a Fitbit at no cost! … As a part of the WEAR Study, you could receive a new Fitbit to wear at no cost to you. All of Us will be able to get the data the Fitbit collects. This data may help us understand how behavior impacts health.”

Jennifer Radin, PhD, an epidemiologist at Scripps Research Translational Institute, is heading up the DETECT study, which is a remote monitoring research project that has enrolled over 40,000 people who have their own sensors – be it a smartwatch or Fitbit. She was looking at remote monitoring for disease before COVID emerged.

Dr. Radin said she began researching remote sensing after working in public health and dealing with outdated data collection systems. 

“They typically rely on case reports that are recorded by pen and paper and faxed or mailed in,” she said. “Then, they have to be entered into a database. “

In addition to offering objective data on a subject’s physical response to the infection, she said, the data collection can be long-term and continuous. 

DETECT collects data on resting heart rate, which is unique to every person, and activity levels. Both measures are meaningful for those with long COVID. Her research found differences in sleep, heart rate, and activity between those with COVID and those without.

Joseph Kvedar, MD, is a Harvard Medical School researcher and the editor of  NPJ Digital Medicine. He’s been studying digital health systems and called clinical research a “beachhead” for the use of data from monitors. But he also said problems remain that need to be worked out. The quality of the devices and their Bluetooth connections are better. But different devices measure different things, and a counted step can vary from person to person, he said. And the problems of the early days of electronic health records have not been fully resolved.

“We haven’t gotten to this universal language to connect all these things and make them relevant,” he said. 

The All of Us researchers are working with the RECOVER project to address some of those issues. Usually not focused on a single condition, the All of Us researchers are testing a machine-learning approach for identifying long COVID. 
 

A version of this article originally appeared on WebMD.com.

A new federal research project aims to answer lingering questions about long COVID using mobile monitoring devices to help track the condition.

The federally funded RECOVER Initiative expects to give out 10,000 sensors to people with long COVID to collect data in real time.

Terry Rudd/MDedge News

The hope is that researchers will be able to provide doctors and patients with a wealth of information to address gaps in knowledge about long COVID.

The project takes advantage of the approach other researchers have used to track patients’ health data on heart rate, exercise, and more using mobile monitoring devices such as Fitbits, smartwatches, and other remote sensors. 

Researchers believe the initiative could be particularly useful for people with long COVID – whose symptoms come and go. They can use a wristband sensor to passively collect data in real time.

For a condition defined by its symptoms, that kind of data promises to be useful, experts said. 

But not everyone has room in their budget for a smartwatch or a fitness tracker. Until recently, most clinical trials were BYOD: Bring your own device. At a time when researchers are trying to make sure that clinical trials reflect the diversity of the population, that leaves a lot of people out.

So, researchers are starting to supply subjects with their own monitors. The RECOVER Initiative expects to give out 10,000 sensors to people who are eligible based on race/ethnicity, income, and other demographic factors (rural residents for example). After 2 months, all people in the RECOVER study over the age of 13 will be eligible for the sensors.

The federal program builds on earlier research at places like The Scripps Institute, a center of research into remote monitoring. The institute supplied 7,000 monitors to people in an arm of the All of Us study, a 5-year-old multisite cohort that aims to collect medical information from 1 million people. 

The devices went to people who have been historically underrepresented in biomedical research, said Scripps researchers, who plan to give out more this year. 

In March of 2023, Scripps researchers published a study on the tracking data that found a significant post-COVID-19 drop in physical activity. But the data are incomplete because many people can’t always afford these devices. Most of the people in the study were “White, young, and active,” they wrote.

Researchers at an All of Us site at Vanderbilt University, which also used a BYOD approach, realized that they produced biased results. They reported their findings at the Pacific Symposium on Biocomputing in January.

“[The] majority of participants who provided Fitbit data reported being White and employed for wages,” they said. “However, these data represent participants who had their own Fitbit devices and consented to share EHR [electronic health record] data.”

Their solution: The program has begun providing Fitbit devices to all study participants who do not own one or cannot afford one. 

Now, the web page for the All of Us study asks visitors to “Learn about the All of Us WEAR study. You could get a Fitbit at no cost! … As a part of the WEAR Study, you could receive a new Fitbit to wear at no cost to you. All of Us will be able to get the data the Fitbit collects. This data may help us understand how behavior impacts health.”

Jennifer Radin, PhD, an epidemiologist at Scripps Research Translational Institute, is heading up the DETECT study, which is a remote monitoring research project that has enrolled over 40,000 people who have their own sensors – be it a smartwatch or Fitbit. She was looking at remote monitoring for disease before COVID emerged.

Dr. Radin said she began researching remote sensing after working in public health and dealing with outdated data collection systems. 

“They typically rely on case reports that are recorded by pen and paper and faxed or mailed in,” she said. “Then, they have to be entered into a database. “

In addition to offering objective data on a subject’s physical response to the infection, she said, the data collection can be long-term and continuous. 

DETECT collects data on resting heart rate, which is unique to every person, and activity levels. Both measures are meaningful for those with long COVID. Her research found differences in sleep, heart rate, and activity between those with COVID and those without.

Joseph Kvedar, MD, is a Harvard Medical School researcher and the editor of  NPJ Digital Medicine. He’s been studying digital health systems and called clinical research a “beachhead” for the use of data from monitors. But he also said problems remain that need to be worked out. The quality of the devices and their Bluetooth connections are better. But different devices measure different things, and a counted step can vary from person to person, he said. And the problems of the early days of electronic health records have not been fully resolved.

“We haven’t gotten to this universal language to connect all these things and make them relevant,” he said. 

The All of Us researchers are working with the RECOVER project to address some of those issues. Usually not focused on a single condition, the All of Us researchers are testing a machine-learning approach for identifying long COVID. 
 

A version of this article originally appeared on WebMD.com.

A new federal research project aims to answer lingering questions about long COVID using mobile monitoring devices to help track the condition.

The federally funded RECOVER Initiative expects to give out 10,000 sensors to people with long COVID to collect data in real time.

Terry Rudd/MDedge News

The hope is that researchers will be able to provide doctors and patients with a wealth of information to address gaps in knowledge about long COVID.

The project takes advantage of the approach other researchers have used to track patients’ health data on heart rate, exercise, and more using mobile monitoring devices such as Fitbits, smartwatches, and other remote sensors. 

Researchers believe the initiative could be particularly useful for people with long COVID – whose symptoms come and go. They can use a wristband sensor to passively collect data in real time.

For a condition defined by its symptoms, that kind of data promises to be useful, experts said. 

But not everyone has room in their budget for a smartwatch or a fitness tracker. Until recently, most clinical trials were BYOD: Bring your own device. At a time when researchers are trying to make sure that clinical trials reflect the diversity of the population, that leaves a lot of people out.

So, researchers are starting to supply subjects with their own monitors. The RECOVER Initiative expects to give out 10,000 sensors to people who are eligible based on race/ethnicity, income, and other demographic factors (rural residents for example). After 2 months, all people in the RECOVER study over the age of 13 will be eligible for the sensors.

The federal program builds on earlier research at places like The Scripps Institute, a center of research into remote monitoring. The institute supplied 7,000 monitors to people in an arm of the All of Us study, a 5-year-old multisite cohort that aims to collect medical information from 1 million people. 

The devices went to people who have been historically underrepresented in biomedical research, said Scripps researchers, who plan to give out more this year. 

In March of 2023, Scripps researchers published a study on the tracking data that found a significant post-COVID-19 drop in physical activity. But the data are incomplete because many people can’t always afford these devices. Most of the people in the study were “White, young, and active,” they wrote.

Researchers at an All of Us site at Vanderbilt University, which also used a BYOD approach, realized that they produced biased results. They reported their findings at the Pacific Symposium on Biocomputing in January.

“[The] majority of participants who provided Fitbit data reported being White and employed for wages,” they said. “However, these data represent participants who had their own Fitbit devices and consented to share EHR [electronic health record] data.”

Their solution: The program has begun providing Fitbit devices to all study participants who do not own one or cannot afford one. 

Now, the web page for the All of Us study asks visitors to “Learn about the All of Us WEAR study. You could get a Fitbit at no cost! … As a part of the WEAR Study, you could receive a new Fitbit to wear at no cost to you. All of Us will be able to get the data the Fitbit collects. This data may help us understand how behavior impacts health.”

Jennifer Radin, PhD, an epidemiologist at Scripps Research Translational Institute, is heading up the DETECT study, which is a remote monitoring research project that has enrolled over 40,000 people who have their own sensors – be it a smartwatch or Fitbit. She was looking at remote monitoring for disease before COVID emerged.

Dr. Radin said she began researching remote sensing after working in public health and dealing with outdated data collection systems. 

“They typically rely on case reports that are recorded by pen and paper and faxed or mailed in,” she said. “Then, they have to be entered into a database. “

In addition to offering objective data on a subject’s physical response to the infection, she said, the data collection can be long-term and continuous. 

DETECT collects data on resting heart rate, which is unique to every person, and activity levels. Both measures are meaningful for those with long COVID. Her research found differences in sleep, heart rate, and activity between those with COVID and those without.

Joseph Kvedar, MD, is a Harvard Medical School researcher and the editor of  NPJ Digital Medicine. He’s been studying digital health systems and called clinical research a “beachhead” for the use of data from monitors. But he also said problems remain that need to be worked out. The quality of the devices and their Bluetooth connections are better. But different devices measure different things, and a counted step can vary from person to person, he said. And the problems of the early days of electronic health records have not been fully resolved.

“We haven’t gotten to this universal language to connect all these things and make them relevant,” he said. 

The All of Us researchers are working with the RECOVER project to address some of those issues. Usually not focused on a single condition, the All of Us researchers are testing a machine-learning approach for identifying long COVID. 
 

A version of this article originally appeared on WebMD.com.

In a phase 2 clinical trial of a potential treatment for fatigue associated with long COVID-19, people who received the medicine reported positive results over those receiving a placebo.

The study was conducted by researchers at the University of Oxford, England, and published in eClinical Medicine.

It was one of the first randomized double-blind placebo controlled trial for a possible treatment for long COVID, according to a press release from the university. 

“People living with long COVID in the trial who received AXA1125 had a significant improvement in fatigue compared to those who received a placebo,” the university reported.

Forty-one people participated. They had fatigue for 18 months beforehand. All completed the study, and none reported serious side effects.

AXA1125 was developed by U.S. pharmaceutical company Axcella Therapeutics.

“Potential causes [of long COVID fatigue] include reduced mitochondrial function and cellular bioenergetics,” the researchers reported.

“AXA1125 was tested in long COVID fatigue as previous data from Axcella showed effects on cellular energetics and inflammation. Emerging data on long COVID suggests that the virus targets the mitochondrial, which are essential to normal energy generation and control of inflammation,” the university noted in its press release. “AXA1125 may improve energy generation and reduce the amount of inflammation in the body.”

The study’s authors wrote that AXA1125 was tied to a “significant reduction in 28-day Chalder Fatigue Questionnaire score relative to placebo.” They said participants who reported less fatigue also had better mitochondrial health and walked farther in a 6-minute test.
 

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

In a phase 2 clinical trial of a potential treatment for fatigue associated with long COVID-19, people who received the medicine reported positive results over those receiving a placebo.

The study was conducted by researchers at the University of Oxford, England, and published in eClinical Medicine.

It was one of the first randomized double-blind placebo controlled trial for a possible treatment for long COVID, according to a press release from the university. 

“People living with long COVID in the trial who received AXA1125 had a significant improvement in fatigue compared to those who received a placebo,” the university reported.

Forty-one people participated. They had fatigue for 18 months beforehand. All completed the study, and none reported serious side effects.

AXA1125 was developed by U.S. pharmaceutical company Axcella Therapeutics.

“Potential causes [of long COVID fatigue] include reduced mitochondrial function and cellular bioenergetics,” the researchers reported.

“AXA1125 was tested in long COVID fatigue as previous data from Axcella showed effects on cellular energetics and inflammation. Emerging data on long COVID suggests that the virus targets the mitochondrial, which are essential to normal energy generation and control of inflammation,” the university noted in its press release. “AXA1125 may improve energy generation and reduce the amount of inflammation in the body.”

The study’s authors wrote that AXA1125 was tied to a “significant reduction in 28-day Chalder Fatigue Questionnaire score relative to placebo.” They said participants who reported less fatigue also had better mitochondrial health and walked farther in a 6-minute test.
 

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

In a phase 2 clinical trial of a potential treatment for fatigue associated with long COVID-19, people who received the medicine reported positive results over those receiving a placebo.

The study was conducted by researchers at the University of Oxford, England, and published in eClinical Medicine.

It was one of the first randomized double-blind placebo controlled trial for a possible treatment for long COVID, according to a press release from the university. 

“People living with long COVID in the trial who received AXA1125 had a significant improvement in fatigue compared to those who received a placebo,” the university reported.

Forty-one people participated. They had fatigue for 18 months beforehand. All completed the study, and none reported serious side effects.

AXA1125 was developed by U.S. pharmaceutical company Axcella Therapeutics.

“Potential causes [of long COVID fatigue] include reduced mitochondrial function and cellular bioenergetics,” the researchers reported.

“AXA1125 was tested in long COVID fatigue as previous data from Axcella showed effects on cellular energetics and inflammation. Emerging data on long COVID suggests that the virus targets the mitochondrial, which are essential to normal energy generation and control of inflammation,” the university noted in its press release. “AXA1125 may improve energy generation and reduce the amount of inflammation in the body.”

The study’s authors wrote that AXA1125 was tied to a “significant reduction in 28-day Chalder Fatigue Questionnaire score relative to placebo.” They said participants who reported less fatigue also had better mitochondrial health and walked farther in a 6-minute test.
 

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

Filmmaker Gez Medinger and immunologist Danny Altmann have been dubbed by British media as “COVID’s odd couple,” and they don’t mind at all. Discussing their recent book, The Long COVID Handbook, the authors lean into their animated roles: Medinger is a passionate patient-researcher and “guinea pig” (his words) in search of his own healing, and Altmann is a no-nonsense, data-driven scientist and “Professor Boring” (as he puts it).

And the message they have about the impact of long COVID is stunning.

“The clinical burden [of long COVID] is somewhere on par with the whole of heart disease all over again, or the whole of oncology all over again, which are our biggest clinical bills concurrently,” Altmann said.

The pair met early in the pandemic, after Medinger became infected during the first wave and interviewed Altmann for his YouTube channel, which has more than 5 million views. 

“Danny was one of the first people from the medical establishment to sort of stand up on the parapet and wave a flag and say, ‘Hey, guys, there’s a problem here.’ And that was incredibly validating for 2 million people in the U.K. alone who were suffering with long COVID,” Medinger said. 

Their relationship works, not just for publishing one of the first definitive guides to long COVID, but also as a model for how patients with lived experiences can lead the way in medicine – from giving the condition its name to driving the medical establishment for recognition, clinical research, and therapeutic answers. 

With Altmann currently leading a major research project at Imperial College London on long COVID and Medinger’s social media platform and communication skills, they’re both advancing the world’s understanding of the disease in their own way.

“We’re now more than 3 years into this completely mysterious, uncharted disease process with a whole globe full of really desperate people,” said Altmann. “It’s a living, organic thing, and yet that also demands some kind of order and collation and pulling together into some kind of sense. So I was very pleased when Gez approached me to help him with the book.”

In it, they translate everything they’ve learned about the condition that’s “scattered in 100,000 places around the globe” into a digestible format. It tells two sides of the same story: the anecdotal experiences Medinger has undergone or observed in the long COVID community through more than a dozen of his own patient-led studies, as well the hard science and research that’s amassing in the medical world. 

In an interview, Medinger and Altmann discussed how their book can help both patients and clinicians, and the next steps needed to combat long COVID.
 

What are the book’s key takeaways for you?

Medinger: “I would say we put together an incredibly comprehensive couple of chapters on the hypotheses, big picture, what’s causing long COVID. And then the nitty-gritty research for everything that we’ve found out that is going on. ... And the other part of the book that I think is particularly important, beyond the tips for managing symptoms, is the content on mental health and the impact on your emotional state and your capacity and just how huge that is. ... That has been the most powerful thing for patients when they’ve read it. And they’ve said that they’ve just been crying all the way through those chapters because suddenly they feel heard and seen.”

Altmann: “Obviously, you’d expect me to say that the parts of the book that I love most are the kind of hard-nosed, medical, mechanistic bits. ... We’ve got 150 million-plus desperate people deciding or not deciding to go and see their general practitioner, getting a fair hearing or not getting a fair hearing. And the poor doctor has never learned this in medical school, has never read a textbook on it, and hasn’t a clue what’s coming through the door. 

How are they expected to know what to do? So I think the least we can do in some of those chapters is feed into their knowledge of general medicine and give them some clues. ... I think if we can explain to people what might be going on in them, and to their doctors, what on earth they might do about it, what kind of tests they might order, that helps a bit.”
 

How did you balance the more controversial parts of the book, including the chapter about so-called “treatments”? For instance, the book recounts Gez’s harrowing experience with ivermectin as a frightening warning. But Danny, you were nervous about even mentioning unproven and potentially dangerous treatments as things people have tried and have looked into. 

Medinger: “We had to try and work out how to handle the topic, how to handle those points of view, whilst at the same time still being informative. I think the book is stronger for that chapter, too. The other thing would certainly have been to just not address the subject, but it’s one of the things that people want to know the most about. And there’s also a lot of bad information floating around out there about certain treatments. Ivermectin, for example, and this is what happened to me when I tried it. ‘Don’t do it. It’s not recommended. Please don’t.’ 

I think it was also very important to include because that cautionary tale really applies to every single one of those treatments that people might be hearing about that hasn’t been backed up by efficacy and safety studies.”

Altmann: “I think Gez has been quite diplomatic. That chapter was, I think, a testament to the power of the book. And the biggest test of our marriage as ‘the odd couple.’ Because when I first read the first draft of what Gez had written, I said, ‘my name can’t even be on this book. Otherwise, I’ll be sacked.’ 

And we had to find marriage counseling after that, and a way back to write a version of that chapter that expressed both halves of those concerns in a way that did justice to those different viewpoints. And I think that makes it quite a strong chapter.”
 

What do you think are the most urgent next steps in the search for solving long COVID?

Medinger: “I would personally like to try and get some sort of answer on viral persistence. ... If there’s one thing that feels like it would be treatable in theory, and would make sense why we’re still getting all of these symptoms this whole time later, it’s that, so I would like to try and establish or eliminate viral persistence. So if you gave me Elon Musk’s wealth, that’s what I would throw a bunch of the money at, trying to either eliminate or establish that. 

And then, you know, the other important thing is a diagnostic test. Danny always talks about how important it is. Once you have that, it helps you suddenly open the doors to all these other things that you can do. And treatment trials. Let’s throw some meds at this so that we have an educated guess at what might work and put them into high-powered, randomized, controlled trials and see if anything comes out because from the patient perspective, I don’t think any of us wants to wait for 5 years for that stuff to start happening.”

Altmann: “I completely agree. If you go to a website, like clinicaltrials.gov, you’ll find an immense number of clinical trials on COVID. There isn’t really a shortage of them, some of them better-powered to get an answer than others.”

How do you think public policy needs to adapt for long COVID, including social safety nets such as workers’ compensation and disability benefits?

Medinger: “In terms of public policy, what I would like would be some public acknowledgment that it’s real from government sources. Just the acknowledgment that it’s real and it remains a risk even now.”

Altmann: “Nobody in politics asks my opinion. I think they’d hate to hear it. Because if I went to see them and said, well, actually, if you thought the COVID pandemic was bad, wait till you see what’s on the table now. We’ve created a disabled population in our country of 2 million, at least a portion if not more of people who are not fully contributory to the workforce anymore ... [with] legal wrangles about retirement and health insurance and pensions, and a human right to adequate health care. Which means, ideally, a purpose-built clinic where they can have their respiratory opinion and their rheumatology opinion and their endocrine opinion and their neurology opinion, all under one roof.”

You’ve both shown so much optimism. Why is that?

Altmann: “I’ve been an immunologist for a long time now, and written all my decades of grant applications, where as a community we made what, at the time, were kind of wild promises and wildly optimistic projections of how our knowledge of tumor immunity would revolutionize cancer care, and how knowledge of autoimmunity would revolutionize care of all the autoimmune diseases. 

And weirdly almost every word we wrote over those 25 or 30 years came true. Cancer immunotherapy was revolutionized, and biologics for diabetes, multiple sclerosis, and arthritis were revolutionized. So if I have faith that those things came true, I have complete faith in this as well.”

Medinger: “From the patient perspective, what I would say is that we are seeing people who’ve been ill for more than 2 years recover. People are suddenly turning the corner when they might not have expected to. 

And while we don’t quite know exactly why yet, and it’s not everyone, every single time I hear the story of someone saying, ‘I’m pretty much back to where I was, I feel like I’ve recovered,’ I feel great. Even if I haven’t. Because I know that every single time I hear someone say that, that just increases the probability that I will, too.”
 

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

Filmmaker Gez Medinger and immunologist Danny Altmann have been dubbed by British media as “COVID’s odd couple,” and they don’t mind at all. Discussing their recent book, The Long COVID Handbook, the authors lean into their animated roles: Medinger is a passionate patient-researcher and “guinea pig” (his words) in search of his own healing, and Altmann is a no-nonsense, data-driven scientist and “Professor Boring” (as he puts it).

And the message they have about the impact of long COVID is stunning.

“The clinical burden [of long COVID] is somewhere on par with the whole of heart disease all over again, or the whole of oncology all over again, which are our biggest clinical bills concurrently,” Altmann said.

The pair met early in the pandemic, after Medinger became infected during the first wave and interviewed Altmann for his YouTube channel, which has more than 5 million views. 

“Danny was one of the first people from the medical establishment to sort of stand up on the parapet and wave a flag and say, ‘Hey, guys, there’s a problem here.’ And that was incredibly validating for 2 million people in the U.K. alone who were suffering with long COVID,” Medinger said. 

Their relationship works, not just for publishing one of the first definitive guides to long COVID, but also as a model for how patients with lived experiences can lead the way in medicine – from giving the condition its name to driving the medical establishment for recognition, clinical research, and therapeutic answers. 

With Altmann currently leading a major research project at Imperial College London on long COVID and Medinger’s social media platform and communication skills, they’re both advancing the world’s understanding of the disease in their own way.

“We’re now more than 3 years into this completely mysterious, uncharted disease process with a whole globe full of really desperate people,” said Altmann. “It’s a living, organic thing, and yet that also demands some kind of order and collation and pulling together into some kind of sense. So I was very pleased when Gez approached me to help him with the book.”

In it, they translate everything they’ve learned about the condition that’s “scattered in 100,000 places around the globe” into a digestible format. It tells two sides of the same story: the anecdotal experiences Medinger has undergone or observed in the long COVID community through more than a dozen of his own patient-led studies, as well the hard science and research that’s amassing in the medical world. 

In an interview, Medinger and Altmann discussed how their book can help both patients and clinicians, and the next steps needed to combat long COVID.
 

What are the book’s key takeaways for you?

Medinger: “I would say we put together an incredibly comprehensive couple of chapters on the hypotheses, big picture, what’s causing long COVID. And then the nitty-gritty research for everything that we’ve found out that is going on. ... And the other part of the book that I think is particularly important, beyond the tips for managing symptoms, is the content on mental health and the impact on your emotional state and your capacity and just how huge that is. ... That has been the most powerful thing for patients when they’ve read it. And they’ve said that they’ve just been crying all the way through those chapters because suddenly they feel heard and seen.”

Altmann: “Obviously, you’d expect me to say that the parts of the book that I love most are the kind of hard-nosed, medical, mechanistic bits. ... We’ve got 150 million-plus desperate people deciding or not deciding to go and see their general practitioner, getting a fair hearing or not getting a fair hearing. And the poor doctor has never learned this in medical school, has never read a textbook on it, and hasn’t a clue what’s coming through the door. 

How are they expected to know what to do? So I think the least we can do in some of those chapters is feed into their knowledge of general medicine and give them some clues. ... I think if we can explain to people what might be going on in them, and to their doctors, what on earth they might do about it, what kind of tests they might order, that helps a bit.”
 

How did you balance the more controversial parts of the book, including the chapter about so-called “treatments”? For instance, the book recounts Gez’s harrowing experience with ivermectin as a frightening warning. But Danny, you were nervous about even mentioning unproven and potentially dangerous treatments as things people have tried and have looked into. 

Medinger: “We had to try and work out how to handle the topic, how to handle those points of view, whilst at the same time still being informative. I think the book is stronger for that chapter, too. The other thing would certainly have been to just not address the subject, but it’s one of the things that people want to know the most about. And there’s also a lot of bad information floating around out there about certain treatments. Ivermectin, for example, and this is what happened to me when I tried it. ‘Don’t do it. It’s not recommended. Please don’t.’ 

I think it was also very important to include because that cautionary tale really applies to every single one of those treatments that people might be hearing about that hasn’t been backed up by efficacy and safety studies.”

Altmann: “I think Gez has been quite diplomatic. That chapter was, I think, a testament to the power of the book. And the biggest test of our marriage as ‘the odd couple.’ Because when I first read the first draft of what Gez had written, I said, ‘my name can’t even be on this book. Otherwise, I’ll be sacked.’ 

And we had to find marriage counseling after that, and a way back to write a version of that chapter that expressed both halves of those concerns in a way that did justice to those different viewpoints. And I think that makes it quite a strong chapter.”
 

What do you think are the most urgent next steps in the search for solving long COVID?

Medinger: “I would personally like to try and get some sort of answer on viral persistence. ... If there’s one thing that feels like it would be treatable in theory, and would make sense why we’re still getting all of these symptoms this whole time later, it’s that, so I would like to try and establish or eliminate viral persistence. So if you gave me Elon Musk’s wealth, that’s what I would throw a bunch of the money at, trying to either eliminate or establish that. 

And then, you know, the other important thing is a diagnostic test. Danny always talks about how important it is. Once you have that, it helps you suddenly open the doors to all these other things that you can do. And treatment trials. Let’s throw some meds at this so that we have an educated guess at what might work and put them into high-powered, randomized, controlled trials and see if anything comes out because from the patient perspective, I don’t think any of us wants to wait for 5 years for that stuff to start happening.”

Altmann: “I completely agree. If you go to a website, like clinicaltrials.gov, you’ll find an immense number of clinical trials on COVID. There isn’t really a shortage of them, some of them better-powered to get an answer than others.”

How do you think public policy needs to adapt for long COVID, including social safety nets such as workers’ compensation and disability benefits?

Medinger: “In terms of public policy, what I would like would be some public acknowledgment that it’s real from government sources. Just the acknowledgment that it’s real and it remains a risk even now.”

Altmann: “Nobody in politics asks my opinion. I think they’d hate to hear it. Because if I went to see them and said, well, actually, if you thought the COVID pandemic was bad, wait till you see what’s on the table now. We’ve created a disabled population in our country of 2 million, at least a portion if not more of people who are not fully contributory to the workforce anymore ... [with] legal wrangles about retirement and health insurance and pensions, and a human right to adequate health care. Which means, ideally, a purpose-built clinic where they can have their respiratory opinion and their rheumatology opinion and their endocrine opinion and their neurology opinion, all under one roof.”

You’ve both shown so much optimism. Why is that?

Altmann: “I’ve been an immunologist for a long time now, and written all my decades of grant applications, where as a community we made what, at the time, were kind of wild promises and wildly optimistic projections of how our knowledge of tumor immunity would revolutionize cancer care, and how knowledge of autoimmunity would revolutionize care of all the autoimmune diseases. 

And weirdly almost every word we wrote over those 25 or 30 years came true. Cancer immunotherapy was revolutionized, and biologics for diabetes, multiple sclerosis, and arthritis were revolutionized. So if I have faith that those things came true, I have complete faith in this as well.”

Medinger: “From the patient perspective, what I would say is that we are seeing people who’ve been ill for more than 2 years recover. People are suddenly turning the corner when they might not have expected to. 

And while we don’t quite know exactly why yet, and it’s not everyone, every single time I hear the story of someone saying, ‘I’m pretty much back to where I was, I feel like I’ve recovered,’ I feel great. Even if I haven’t. Because I know that every single time I hear someone say that, that just increases the probability that I will, too.”
 

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

Filmmaker Gez Medinger and immunologist Danny Altmann have been dubbed by British media as “COVID’s odd couple,” and they don’t mind at all. Discussing their recent book, The Long COVID Handbook, the authors lean into their animated roles: Medinger is a passionate patient-researcher and “guinea pig” (his words) in search of his own healing, and Altmann is a no-nonsense, data-driven scientist and “Professor Boring” (as he puts it).

And the message they have about the impact of long COVID is stunning.

“The clinical burden [of long COVID] is somewhere on par with the whole of heart disease all over again, or the whole of oncology all over again, which are our biggest clinical bills concurrently,” Altmann said.

The pair met early in the pandemic, after Medinger became infected during the first wave and interviewed Altmann for his YouTube channel, which has more than 5 million views. 

“Danny was one of the first people from the medical establishment to sort of stand up on the parapet and wave a flag and say, ‘Hey, guys, there’s a problem here.’ And that was incredibly validating for 2 million people in the U.K. alone who were suffering with long COVID,” Medinger said. 

Their relationship works, not just for publishing one of the first definitive guides to long COVID, but also as a model for how patients with lived experiences can lead the way in medicine – from giving the condition its name to driving the medical establishment for recognition, clinical research, and therapeutic answers. 

With Altmann currently leading a major research project at Imperial College London on long COVID and Medinger’s social media platform and communication skills, they’re both advancing the world’s understanding of the disease in their own way.

“We’re now more than 3 years into this completely mysterious, uncharted disease process with a whole globe full of really desperate people,” said Altmann. “It’s a living, organic thing, and yet that also demands some kind of order and collation and pulling together into some kind of sense. So I was very pleased when Gez approached me to help him with the book.”

In it, they translate everything they’ve learned about the condition that’s “scattered in 100,000 places around the globe” into a digestible format. It tells two sides of the same story: the anecdotal experiences Medinger has undergone or observed in the long COVID community through more than a dozen of his own patient-led studies, as well the hard science and research that’s amassing in the medical world. 

In an interview, Medinger and Altmann discussed how their book can help both patients and clinicians, and the next steps needed to combat long COVID.
 

What are the book’s key takeaways for you?

Medinger: “I would say we put together an incredibly comprehensive couple of chapters on the hypotheses, big picture, what’s causing long COVID. And then the nitty-gritty research for everything that we’ve found out that is going on. ... And the other part of the book that I think is particularly important, beyond the tips for managing symptoms, is the content on mental health and the impact on your emotional state and your capacity and just how huge that is. ... That has been the most powerful thing for patients when they’ve read it. And they’ve said that they’ve just been crying all the way through those chapters because suddenly they feel heard and seen.”

Altmann: “Obviously, you’d expect me to say that the parts of the book that I love most are the kind of hard-nosed, medical, mechanistic bits. ... We’ve got 150 million-plus desperate people deciding or not deciding to go and see their general practitioner, getting a fair hearing or not getting a fair hearing. And the poor doctor has never learned this in medical school, has never read a textbook on it, and hasn’t a clue what’s coming through the door. 

How are they expected to know what to do? So I think the least we can do in some of those chapters is feed into their knowledge of general medicine and give them some clues. ... I think if we can explain to people what might be going on in them, and to their doctors, what on earth they might do about it, what kind of tests they might order, that helps a bit.”
 

How did you balance the more controversial parts of the book, including the chapter about so-called “treatments”? For instance, the book recounts Gez’s harrowing experience with ivermectin as a frightening warning. But Danny, you were nervous about even mentioning unproven and potentially dangerous treatments as things people have tried and have looked into. 

Medinger: “We had to try and work out how to handle the topic, how to handle those points of view, whilst at the same time still being informative. I think the book is stronger for that chapter, too. The other thing would certainly have been to just not address the subject, but it’s one of the things that people want to know the most about. And there’s also a lot of bad information floating around out there about certain treatments. Ivermectin, for example, and this is what happened to me when I tried it. ‘Don’t do it. It’s not recommended. Please don’t.’ 

I think it was also very important to include because that cautionary tale really applies to every single one of those treatments that people might be hearing about that hasn’t been backed up by efficacy and safety studies.”

Altmann: “I think Gez has been quite diplomatic. That chapter was, I think, a testament to the power of the book. And the biggest test of our marriage as ‘the odd couple.’ Because when I first read the first draft of what Gez had written, I said, ‘my name can’t even be on this book. Otherwise, I’ll be sacked.’ 

And we had to find marriage counseling after that, and a way back to write a version of that chapter that expressed both halves of those concerns in a way that did justice to those different viewpoints. And I think that makes it quite a strong chapter.”
 

What do you think are the most urgent next steps in the search for solving long COVID?

Medinger: “I would personally like to try and get some sort of answer on viral persistence. ... If there’s one thing that feels like it would be treatable in theory, and would make sense why we’re still getting all of these symptoms this whole time later, it’s that, so I would like to try and establish or eliminate viral persistence. So if you gave me Elon Musk’s wealth, that’s what I would throw a bunch of the money at, trying to either eliminate or establish that. 

And then, you know, the other important thing is a diagnostic test. Danny always talks about how important it is. Once you have that, it helps you suddenly open the doors to all these other things that you can do. And treatment trials. Let’s throw some meds at this so that we have an educated guess at what might work and put them into high-powered, randomized, controlled trials and see if anything comes out because from the patient perspective, I don’t think any of us wants to wait for 5 years for that stuff to start happening.”

Altmann: “I completely agree. If you go to a website, like clinicaltrials.gov, you’ll find an immense number of clinical trials on COVID. There isn’t really a shortage of them, some of them better-powered to get an answer than others.”

How do you think public policy needs to adapt for long COVID, including social safety nets such as workers’ compensation and disability benefits?

Medinger: “In terms of public policy, what I would like would be some public acknowledgment that it’s real from government sources. Just the acknowledgment that it’s real and it remains a risk even now.”

Altmann: “Nobody in politics asks my opinion. I think they’d hate to hear it. Because if I went to see them and said, well, actually, if you thought the COVID pandemic was bad, wait till you see what’s on the table now. We’ve created a disabled population in our country of 2 million, at least a portion if not more of people who are not fully contributory to the workforce anymore ... [with] legal wrangles about retirement and health insurance and pensions, and a human right to adequate health care. Which means, ideally, a purpose-built clinic where they can have their respiratory opinion and their rheumatology opinion and their endocrine opinion and their neurology opinion, all under one roof.”

You’ve both shown so much optimism. Why is that?

Altmann: “I’ve been an immunologist for a long time now, and written all my decades of grant applications, where as a community we made what, at the time, were kind of wild promises and wildly optimistic projections of how our knowledge of tumor immunity would revolutionize cancer care, and how knowledge of autoimmunity would revolutionize care of all the autoimmune diseases. 

And weirdly almost every word we wrote over those 25 or 30 years came true. Cancer immunotherapy was revolutionized, and biologics for diabetes, multiple sclerosis, and arthritis were revolutionized. So if I have faith that those things came true, I have complete faith in this as well.”

Medinger: “From the patient perspective, what I would say is that we are seeing people who’ve been ill for more than 2 years recover. People are suddenly turning the corner when they might not have expected to. 

And while we don’t quite know exactly why yet, and it’s not everyone, every single time I hear the story of someone saying, ‘I’m pretty much back to where I was, I feel like I’ve recovered,’ I feel great. Even if I haven’t. Because I know that every single time I hear someone say that, that just increases the probability that I will, too.”
 

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

More than 3 years into the COVID-19 pandemic, lasting symptoms are becoming quite common, with residents of certain states, women, Hispanic people, and transgender people more at risk, a new report shows. 

More than one in four adults sickened by the virus go on to have long COVID, according to a new report from the U.S. Census Bureau. Overall, nearly 15% of all American adults – more than 38 million people nationwide – have had long COVID at some point since the start of the pandemic, according to the report. 

The report, based on survey data collected between March 1 and 13, defines long COVID as symptoms lasting at least 3 months that people didn’t have before getting infected with the virus. 

It is the second recent look at who is most likely to face long COVID. A similar study, published in March, found that women, smokers, and those who had severe COVID-19 infections are most likely to have the disorder

The Census Bureau report found that while 27% of adults nationwide have had long COVID after getting infected with the virus, the condition has impacted some states more than others. The proportion of residents hit with long COVID ranged from a low of 18.8% in New Jersey to a high of 40.7% in West Virginia. 

Other states with long COVID rates well below the national average include Alaska, Maryland, New York, and Wisconsin. At the other end of the spectrum, the states with rates well above the national average include Kentucky, Mississippi, New Mexico, Nevada, South Carolina, South Dakota, and Wyoming.

Long COVID rates also varied by age, gender, and race. People in their 50s were most at risk, with about 31% of those infected by the virus going on to have long COVID, followed by those in their 40s, at more than 29%. 

Far more women (almost 33%) than men (21%) with COVID infections got long COVID. And when researchers looked at long COVID rates based on gender identity, they found that transgender adults were more than twice as likely to have long COVID than cisgender males. Bisexual adults also had much higher long COVID rates than straight, gay, or lesbian people. 

Long COVID was also much more common among Hispanic adults, affecting almost 29% of those infected with the virus, than among White or Black people, who had long COVID rates similar to the national average of 27%. Asian adults had lower long COVID rates than the national average, at less than 20%.

People with disabilities were also at higher risk, with long COVID rates of almost 47%, compared with 24% among adults without disabilities.
 

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

More than 3 years into the COVID-19 pandemic, lasting symptoms are becoming quite common, with residents of certain states, women, Hispanic people, and transgender people more at risk, a new report shows. 

More than one in four adults sickened by the virus go on to have long COVID, according to a new report from the U.S. Census Bureau. Overall, nearly 15% of all American adults – more than 38 million people nationwide – have had long COVID at some point since the start of the pandemic, according to the report. 

The report, based on survey data collected between March 1 and 13, defines long COVID as symptoms lasting at least 3 months that people didn’t have before getting infected with the virus. 

It is the second recent look at who is most likely to face long COVID. A similar study, published in March, found that women, smokers, and those who had severe COVID-19 infections are most likely to have the disorder

The Census Bureau report found that while 27% of adults nationwide have had long COVID after getting infected with the virus, the condition has impacted some states more than others. The proportion of residents hit with long COVID ranged from a low of 18.8% in New Jersey to a high of 40.7% in West Virginia. 

Other states with long COVID rates well below the national average include Alaska, Maryland, New York, and Wisconsin. At the other end of the spectrum, the states with rates well above the national average include Kentucky, Mississippi, New Mexico, Nevada, South Carolina, South Dakota, and Wyoming.

Long COVID rates also varied by age, gender, and race. People in their 50s were most at risk, with about 31% of those infected by the virus going on to have long COVID, followed by those in their 40s, at more than 29%. 

Far more women (almost 33%) than men (21%) with COVID infections got long COVID. And when researchers looked at long COVID rates based on gender identity, they found that transgender adults were more than twice as likely to have long COVID than cisgender males. Bisexual adults also had much higher long COVID rates than straight, gay, or lesbian people. 

Long COVID was also much more common among Hispanic adults, affecting almost 29% of those infected with the virus, than among White or Black people, who had long COVID rates similar to the national average of 27%. Asian adults had lower long COVID rates than the national average, at less than 20%.

People with disabilities were also at higher risk, with long COVID rates of almost 47%, compared with 24% among adults without disabilities.
 

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

More than 3 years into the COVID-19 pandemic, lasting symptoms are becoming quite common, with residents of certain states, women, Hispanic people, and transgender people more at risk, a new report shows. 

More than one in four adults sickened by the virus go on to have long COVID, according to a new report from the U.S. Census Bureau. Overall, nearly 15% of all American adults – more than 38 million people nationwide – have had long COVID at some point since the start of the pandemic, according to the report. 

The report, based on survey data collected between March 1 and 13, defines long COVID as symptoms lasting at least 3 months that people didn’t have before getting infected with the virus. 

It is the second recent look at who is most likely to face long COVID. A similar study, published in March, found that women, smokers, and those who had severe COVID-19 infections are most likely to have the disorder

The Census Bureau report found that while 27% of adults nationwide have had long COVID after getting infected with the virus, the condition has impacted some states more than others. The proportion of residents hit with long COVID ranged from a low of 18.8% in New Jersey to a high of 40.7% in West Virginia. 

Other states with long COVID rates well below the national average include Alaska, Maryland, New York, and Wisconsin. At the other end of the spectrum, the states with rates well above the national average include Kentucky, Mississippi, New Mexico, Nevada, South Carolina, South Dakota, and Wyoming.

Long COVID rates also varied by age, gender, and race. People in their 50s were most at risk, with about 31% of those infected by the virus going on to have long COVID, followed by those in their 40s, at more than 29%. 

Far more women (almost 33%) than men (21%) with COVID infections got long COVID. And when researchers looked at long COVID rates based on gender identity, they found that transgender adults were more than twice as likely to have long COVID than cisgender males. Bisexual adults also had much higher long COVID rates than straight, gay, or lesbian people. 

Long COVID was also much more common among Hispanic adults, affecting almost 29% of those infected with the virus, than among White or Black people, who had long COVID rates similar to the national average of 27%. Asian adults had lower long COVID rates than the national average, at less than 20%.

People with disabilities were also at higher risk, with long COVID rates of almost 47%, compared with 24% among adults without disabilities.
 

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

Lisa McCorkell had a mild bout of COVID-19 in March 2020. Young and healthy, she assumed that she would bounce back quickly. But when her fatigue, shortness of breath, and brain fog persisted, she realized that she most likely had long COVID. 

“Back then, we as patients basically coined the term,” she said. While her first primary care provider was sympathetic, they were unsure how to treat her. After her insurance changed, she ended up with a second primary care provider who didn’t take her symptoms seriously. “They dismissed my complaints and told me they were all in my head. I didn’t seek care for a while after that.”

Ms. McCorkell’s symptoms improved after her first COVID vaccine in the spring of 2021. She also finally found a new primary care doctor she could trust. But as one of the founders of the Patient-Led Research Collaborative, a group of researchers who study long COVID, she said many doctors still don’t know the hallmark symptoms of the condition or how to treat it. 

“There’s still a lack of education on what long COVID is, and the symptoms associated with it,” she said. “Many of the symptoms that occur in long COVID are symptoms of other chronic conditions, such as chronic fatigue syndrome, that are often dismissed. And even if providers believe patients and send them for a workup, many of the routine blood and imaging tests come back normal.”

The term “long COVID” emerged in May 2020. And though the condition was recognized within a few months of the start of the pandemic, doctors weren’t sure how to screen or treat it. 

While knowledge has developed since then, primary care doctors are still in a tough spot. They’re often the first providers that patients turn to when they have symptoms of long COVID. But with no standard diagnostic tests, treatment guidelines, standard care recommendations, and a large range of symptoms the condition can produce, doctors may not know what to look for, nor how to help patients.

“There’s no clear algorithm to pick up long COVID – there are no definite blood tests or biomarkers, or specific things to look for on a physical exam,” said Lawrence Purpura, MD, an infectious disease specialist and director of the long COVID clinic at Columbia University Medical Center, New York. “It’s a complicated disease that can impact every organ system of the body.”

Even so, emerging research has identified a checklist of sorts that doctors should consider when a patient seeks care for what appears to be long COVID. Among them: the key systems and organs impacted by the disease, the most common symptoms, useful therapeutic options for symptom management that have been found to help people with long COVID, and the best healthy lifestyle choices that doctors can recommend to help their patients 

Here’s a closer look at each of these aspects, based on research and interviews with experts, patients, and doctors. 
 

Key systems, organs impacted

About 10% of people who are infected with COVID-19 go on to have long COVID, according to a recent study that Ms. McCorkell helped coauthor. But more than 3 years into the pandemic, much about the condition is still a mystery.

COVID is a unique virus because it can spread far and wide in a patient’s body. A December 2022 study, published in Nature, autopsied 44 people who died of COVID and found that the virus could spread throughout the body and persist, in one case as long as 230 days after symptoms started. 

“We know that there are dozens of symptoms across multiple organ systems,” said Ms. McCorkell. “That makes it harder for a primary care physician to connect the dots and associate it with COVID.”

A paper published in Nature Medicine proposed one way to help guide diagnosis. It divided symptoms into four groups: 

• Cardiac and renal issues such as heart palpitations, chest pain, and kidney damage
• Sleep and anxiety problems like insomnia, waking up in the middle of the night, and anxiety
• In the musculoskeletal and nervous systems: musculoskeletal pain, osteoarthritis, and problems with mental skills
• In the digestive and respiratory systems: trouble breathing, asthma, stomach pain, nausea, and vomiting

There were also specific patterns in these groups. People in the first group were more likely to be older, male, have other conditions and to have been infected during the first wave of the COVID pandemic. People in the second group were over 60% female, and were more likely to have had previous allergies or asthma. The third group was also about 60% female, and many of them already had autoimmune conditions such as rheumatoid arthritis. Members of the fourth group – also 60% female – were the least likely of all the groups to have another condition.

This research is helpful, because it gives doctors a better sense of what conditions might make a patient more likely to get long COVID, as well as specific symptoms to look out for, said Steven Flanagan, MD, a physical medicine and rehabilitation specialist at New York University Langone Medical Center who also specializes in treating patients with long COVID. 

But the “challenge there, though, for health care providers is that not everyone will fall neatly into one of these categories,” he stressed.
 

Checklist of symptoms 

Although long COVID can be confusing, doctors say there are several symptoms that appear consistently that primary care providers should look out for, that could flag long COVID.

Postexertional malaise (PEM). This is different from simply feeling tired. “This term is often conflated with fatigue, but it’s very different,” said David Putrino, PhD, director of rehabilitation innovation at the Mount Sinai Health System in New York, who says that he sees it in about 90% of patients who come to his long COVID clinic. 

PEM is the worsening of symptoms after physical or mental exertion. This usually occurs a day or 2 after the activity, but it can last for days, and sometimes weeks. 

“It’s very different from fatigue, which is just a generalized tiredness, and exercise intolerance, where someone complains of not being able to do their usual workout on the treadmill,” he noted. “People with PEM are able to push through and do what they need to do, and then are hit with symptoms anywhere from 12 to 72 hours later.”

Dysautonomia. This is an umbrella term used to describe a dysfunction of the autonomic nervous system, which regulates bodily functions that you can’t control, like your blood pressure, heart rate, and breathing. This can cause symptoms such as heart palpitations, along with orthostatic intolerance, which means you can’t stand up for long without feeling faint or dizzy. 

“In my practice, about 80% of patients meet criteria for dysautonomia,” said Dr. Putrino. Other research has found that it’s present in about two-thirds of long COVID patients.

One relatively easy way primary care providers can diagnose dysautonomia is to do the tilt table test. This helps check for postural orthostatic tachycardia syndrome (POTS), one of the most common forms of dysautonomia. During this exam, the patient lies flat on a table. As the head of the table is raised to an almost upright position, their heart rate and blood pressure are measured. Signs of POTS include an abnormal heart rate when you’re upright, as well as a worsening of symptoms.

Exercise intolerance. A review published in the journal JAMA Network Open analyzed 38 studies on long COVID and exercise and found that patients with the condition had a much harder time doing physical activity. Exercise capacity was reduced to levels that would be expected about a decade later in life, according to study authors. 

“This is especially important because it can’t be explained just by deconditioning,” said Dr. Purpura. “Sometimes these patients are encouraged to ramp up exercise as a way to help with symptoms, but in these cases, encouraging them to push through can cause postexertional malaise, which sets patients back and delays recovery.”

While long COVID can cause dozens of symptoms, a paper Ms. McCorkell coauthored zeroed in on some of the most common ones: chest pain, heart palpitations, coughing, shortness of breath, belly pain, nausea, problems with mental skills, fatigue, disordered sleep, memory loss, ringing in the ears (tinnitus), erectile dysfunction, irregular menstruation, and worsened premenstrual syndrome.

While most primary care providers are familiar with some of these long COVID symptoms, they may not be aware of others. 

“COVID itself seems to cause hormonal changes that can lead to erection and menstrual cycle problems,” explained Dr. Putrino. “But these may not be picked up in a visit if the patient is complaining of other signs of long COVID.” 

It’s not just what symptoms are, but when they began to occur, he added. “Usually, these symptoms either start with the initial COVID infection, or begin sometime within 3 months after the acute COVID infection. That’s why it’s important for people with COVID to take notice of anything unusual that crops up within a month or 2 after getting sick.”
 

Can you prevent long COVID?

You can’t, but one of the best ways to reduce your risk is to get vaccinated. Getting at least one dose of a COVID vaccine before you test positive for COVID lowers your risk of long COVID by about 35% according to a study published in Antimicrobial Stewardship & Healthcare Epidemiology. Unvaccinated people who recovered from COVID, and then got a vaccine, lowered their own long COVID risk by 27%. 

In addition, a study published in JAMA Internal Medicine found that women who were infected with COVID were less likely to go on to get long COVID and/or have less debilitating symptoms if they had a healthy lifestyle, which included the following: a healthy weight (a body mass index between 18.5 and 24.7 kg/m²), never-smoker, moderate alcohol consumption, a high-quality diet, 7-9 hours of sleep a night, and at least 150 minutes per week of physical activity

But Ms. McCorkell noted that she herself had a healthy preinfection lifestyle but got long COVID anyway, suggesting these approaches don’t work for everyone.

“I think one reason my symptoms weren’t addressed by primary care physicians for so long is because they looked at me and saw that I was young and healthy, so they dismissed my reports as being all in my head,” she explained. “But we know now anyone can get long COVID, regardless of age, health status, or disease severity. That’s why it’s so important that primary care physicians be able to recognize symptoms.”

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

Lisa McCorkell had a mild bout of COVID-19 in March 2020. Young and healthy, she assumed that she would bounce back quickly. But when her fatigue, shortness of breath, and brain fog persisted, she realized that she most likely had long COVID. 

“Back then, we as patients basically coined the term,” she said. While her first primary care provider was sympathetic, they were unsure how to treat her. After her insurance changed, she ended up with a second primary care provider who didn’t take her symptoms seriously. “They dismissed my complaints and told me they were all in my head. I didn’t seek care for a while after that.”

Ms. McCorkell’s symptoms improved after her first COVID vaccine in the spring of 2021. She also finally found a new primary care doctor she could trust. But as one of the founders of the Patient-Led Research Collaborative, a group of researchers who study long COVID, she said many doctors still don’t know the hallmark symptoms of the condition or how to treat it. 

“There’s still a lack of education on what long COVID is, and the symptoms associated with it,” she said. “Many of the symptoms that occur in long COVID are symptoms of other chronic conditions, such as chronic fatigue syndrome, that are often dismissed. And even if providers believe patients and send them for a workup, many of the routine blood and imaging tests come back normal.”

The term “long COVID” emerged in May 2020. And though the condition was recognized within a few months of the start of the pandemic, doctors weren’t sure how to screen or treat it. 

While knowledge has developed since then, primary care doctors are still in a tough spot. They’re often the first providers that patients turn to when they have symptoms of long COVID. But with no standard diagnostic tests, treatment guidelines, standard care recommendations, and a large range of symptoms the condition can produce, doctors may not know what to look for, nor how to help patients.

“There’s no clear algorithm to pick up long COVID – there are no definite blood tests or biomarkers, or specific things to look for on a physical exam,” said Lawrence Purpura, MD, an infectious disease specialist and director of the long COVID clinic at Columbia University Medical Center, New York. “It’s a complicated disease that can impact every organ system of the body.”

Even so, emerging research has identified a checklist of sorts that doctors should consider when a patient seeks care for what appears to be long COVID. Among them: the key systems and organs impacted by the disease, the most common symptoms, useful therapeutic options for symptom management that have been found to help people with long COVID, and the best healthy lifestyle choices that doctors can recommend to help their patients 

Here’s a closer look at each of these aspects, based on research and interviews with experts, patients, and doctors. 
 

Key systems, organs impacted

About 10% of people who are infected with COVID-19 go on to have long COVID, according to a recent study that Ms. McCorkell helped coauthor. But more than 3 years into the pandemic, much about the condition is still a mystery.

COVID is a unique virus because it can spread far and wide in a patient’s body. A December 2022 study, published in Nature, autopsied 44 people who died of COVID and found that the virus could spread throughout the body and persist, in one case as long as 230 days after symptoms started. 

“We know that there are dozens of symptoms across multiple organ systems,” said Ms. McCorkell. “That makes it harder for a primary care physician to connect the dots and associate it with COVID.”

A paper published in Nature Medicine proposed one way to help guide diagnosis. It divided symptoms into four groups: 

• Cardiac and renal issues such as heart palpitations, chest pain, and kidney damage
• Sleep and anxiety problems like insomnia, waking up in the middle of the night, and anxiety
• In the musculoskeletal and nervous systems: musculoskeletal pain, osteoarthritis, and problems with mental skills
• In the digestive and respiratory systems: trouble breathing, asthma, stomach pain, nausea, and vomiting

There were also specific patterns in these groups. People in the first group were more likely to be older, male, have other conditions and to have been infected during the first wave of the COVID pandemic. People in the second group were over 60% female, and were more likely to have had previous allergies or asthma. The third group was also about 60% female, and many of them already had autoimmune conditions such as rheumatoid arthritis. Members of the fourth group – also 60% female – were the least likely of all the groups to have another condition.

This research is helpful, because it gives doctors a better sense of what conditions might make a patient more likely to get long COVID, as well as specific symptoms to look out for, said Steven Flanagan, MD, a physical medicine and rehabilitation specialist at New York University Langone Medical Center who also specializes in treating patients with long COVID. 

But the “challenge there, though, for health care providers is that not everyone will fall neatly into one of these categories,” he stressed.
 

Checklist of symptoms 

Although long COVID can be confusing, doctors say there are several symptoms that appear consistently that primary care providers should look out for, that could flag long COVID.

Postexertional malaise (PEM). This is different from simply feeling tired. “This term is often conflated with fatigue, but it’s very different,” said David Putrino, PhD, director of rehabilitation innovation at the Mount Sinai Health System in New York, who says that he sees it in about 90% of patients who come to his long COVID clinic. 

PEM is the worsening of symptoms after physical or mental exertion. This usually occurs a day or 2 after the activity, but it can last for days, and sometimes weeks. 

“It’s very different from fatigue, which is just a generalized tiredness, and exercise intolerance, where someone complains of not being able to do their usual workout on the treadmill,” he noted. “People with PEM are able to push through and do what they need to do, and then are hit with symptoms anywhere from 12 to 72 hours later.”

Dysautonomia. This is an umbrella term used to describe a dysfunction of the autonomic nervous system, which regulates bodily functions that you can’t control, like your blood pressure, heart rate, and breathing. This can cause symptoms such as heart palpitations, along with orthostatic intolerance, which means you can’t stand up for long without feeling faint or dizzy. 

“In my practice, about 80% of patients meet criteria for dysautonomia,” said Dr. Putrino. Other research has found that it’s present in about two-thirds of long COVID patients.

One relatively easy way primary care providers can diagnose dysautonomia is to do the tilt table test. This helps check for postural orthostatic tachycardia syndrome (POTS), one of the most common forms of dysautonomia. During this exam, the patient lies flat on a table. As the head of the table is raised to an almost upright position, their heart rate and blood pressure are measured. Signs of POTS include an abnormal heart rate when you’re upright, as well as a worsening of symptoms.

Exercise intolerance. A review published in the journal JAMA Network Open analyzed 38 studies on long COVID and exercise and found that patients with the condition had a much harder time doing physical activity. Exercise capacity was reduced to levels that would be expected about a decade later in life, according to study authors. 

“This is especially important because it can’t be explained just by deconditioning,” said Dr. Purpura. “Sometimes these patients are encouraged to ramp up exercise as a way to help with symptoms, but in these cases, encouraging them to push through can cause postexertional malaise, which sets patients back and delays recovery.”

While long COVID can cause dozens of symptoms, a paper Ms. McCorkell coauthored zeroed in on some of the most common ones: chest pain, heart palpitations, coughing, shortness of breath, belly pain, nausea, problems with mental skills, fatigue, disordered sleep, memory loss, ringing in the ears (tinnitus), erectile dysfunction, irregular menstruation, and worsened premenstrual syndrome.

While most primary care providers are familiar with some of these long COVID symptoms, they may not be aware of others. 

“COVID itself seems to cause hormonal changes that can lead to erection and menstrual cycle problems,” explained Dr. Putrino. “But these may not be picked up in a visit if the patient is complaining of other signs of long COVID.” 

It’s not just what symptoms are, but when they began to occur, he added. “Usually, these symptoms either start with the initial COVID infection, or begin sometime within 3 months after the acute COVID infection. That’s why it’s important for people with COVID to take notice of anything unusual that crops up within a month or 2 after getting sick.”
 

Can you prevent long COVID?

You can’t, but one of the best ways to reduce your risk is to get vaccinated. Getting at least one dose of a COVID vaccine before you test positive for COVID lowers your risk of long COVID by about 35% according to a study published in Antimicrobial Stewardship & Healthcare Epidemiology. Unvaccinated people who recovered from COVID, and then got a vaccine, lowered their own long COVID risk by 27%. 

In addition, a study published in JAMA Internal Medicine found that women who were infected with COVID were less likely to go on to get long COVID and/or have less debilitating symptoms if they had a healthy lifestyle, which included the following: a healthy weight (a body mass index between 18.5 and 24.7 kg/m²), never-smoker, moderate alcohol consumption, a high-quality diet, 7-9 hours of sleep a night, and at least 150 minutes per week of physical activity

But Ms. McCorkell noted that she herself had a healthy preinfection lifestyle but got long COVID anyway, suggesting these approaches don’t work for everyone.

“I think one reason my symptoms weren’t addressed by primary care physicians for so long is because they looked at me and saw that I was young and healthy, so they dismissed my reports as being all in my head,” she explained. “But we know now anyone can get long COVID, regardless of age, health status, or disease severity. That’s why it’s so important that primary care physicians be able to recognize symptoms.”

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

Lisa McCorkell had a mild bout of COVID-19 in March 2020. Young and healthy, she assumed that she would bounce back quickly. But when her fatigue, shortness of breath, and brain fog persisted, she realized that she most likely had long COVID. 

“Back then, we as patients basically coined the term,” she said. While her first primary care provider was sympathetic, they were unsure how to treat her. After her insurance changed, she ended up with a second primary care provider who didn’t take her symptoms seriously. “They dismissed my complaints and told me they were all in my head. I didn’t seek care for a while after that.”

Ms. McCorkell’s symptoms improved after her first COVID vaccine in the spring of 2021. She also finally found a new primary care doctor she could trust. But as one of the founders of the Patient-Led Research Collaborative, a group of researchers who study long COVID, she said many doctors still don’t know the hallmark symptoms of the condition or how to treat it. 

“There’s still a lack of education on what long COVID is, and the symptoms associated with it,” she said. “Many of the symptoms that occur in long COVID are symptoms of other chronic conditions, such as chronic fatigue syndrome, that are often dismissed. And even if providers believe patients and send them for a workup, many of the routine blood and imaging tests come back normal.”

The term “long COVID” emerged in May 2020. And though the condition was recognized within a few months of the start of the pandemic, doctors weren’t sure how to screen or treat it. 

While knowledge has developed since then, primary care doctors are still in a tough spot. They’re often the first providers that patients turn to when they have symptoms of long COVID. But with no standard diagnostic tests, treatment guidelines, standard care recommendations, and a large range of symptoms the condition can produce, doctors may not know what to look for, nor how to help patients.

“There’s no clear algorithm to pick up long COVID – there are no definite blood tests or biomarkers, or specific things to look for on a physical exam,” said Lawrence Purpura, MD, an infectious disease specialist and director of the long COVID clinic at Columbia University Medical Center, New York. “It’s a complicated disease that can impact every organ system of the body.”

Even so, emerging research has identified a checklist of sorts that doctors should consider when a patient seeks care for what appears to be long COVID. Among them: the key systems and organs impacted by the disease, the most common symptoms, useful therapeutic options for symptom management that have been found to help people with long COVID, and the best healthy lifestyle choices that doctors can recommend to help their patients 

Here’s a closer look at each of these aspects, based on research and interviews with experts, patients, and doctors. 
 

Key systems, organs impacted

About 10% of people who are infected with COVID-19 go on to have long COVID, according to a recent study that Ms. McCorkell helped coauthor. But more than 3 years into the pandemic, much about the condition is still a mystery.

COVID is a unique virus because it can spread far and wide in a patient’s body. A December 2022 study, published in Nature, autopsied 44 people who died of COVID and found that the virus could spread throughout the body and persist, in one case as long as 230 days after symptoms started. 

“We know that there are dozens of symptoms across multiple organ systems,” said Ms. McCorkell. “That makes it harder for a primary care physician to connect the dots and associate it with COVID.”

A paper published in Nature Medicine proposed one way to help guide diagnosis. It divided symptoms into four groups: 

• Cardiac and renal issues such as heart palpitations, chest pain, and kidney damage
• Sleep and anxiety problems like insomnia, waking up in the middle of the night, and anxiety
• In the musculoskeletal and nervous systems: musculoskeletal pain, osteoarthritis, and problems with mental skills
• In the digestive and respiratory systems: trouble breathing, asthma, stomach pain, nausea, and vomiting

There were also specific patterns in these groups. People in the first group were more likely to be older, male, have other conditions and to have been infected during the first wave of the COVID pandemic. People in the second group were over 60% female, and were more likely to have had previous allergies or asthma. The third group was also about 60% female, and many of them already had autoimmune conditions such as rheumatoid arthritis. Members of the fourth group – also 60% female – were the least likely of all the groups to have another condition.

This research is helpful, because it gives doctors a better sense of what conditions might make a patient more likely to get long COVID, as well as specific symptoms to look out for, said Steven Flanagan, MD, a physical medicine and rehabilitation specialist at New York University Langone Medical Center who also specializes in treating patients with long COVID. 

But the “challenge there, though, for health care providers is that not everyone will fall neatly into one of these categories,” he stressed.
 

Checklist of symptoms 

Although long COVID can be confusing, doctors say there are several symptoms that appear consistently that primary care providers should look out for, that could flag long COVID.

Postexertional malaise (PEM). This is different from simply feeling tired. “This term is often conflated with fatigue, but it’s very different,” said David Putrino, PhD, director of rehabilitation innovation at the Mount Sinai Health System in New York, who says that he sees it in about 90% of patients who come to his long COVID clinic. 

PEM is the worsening of symptoms after physical or mental exertion. This usually occurs a day or 2 after the activity, but it can last for days, and sometimes weeks. 

“It’s very different from fatigue, which is just a generalized tiredness, and exercise intolerance, where someone complains of not being able to do their usual workout on the treadmill,” he noted. “People with PEM are able to push through and do what they need to do, and then are hit with symptoms anywhere from 12 to 72 hours later.”

Dysautonomia. This is an umbrella term used to describe a dysfunction of the autonomic nervous system, which regulates bodily functions that you can’t control, like your blood pressure, heart rate, and breathing. This can cause symptoms such as heart palpitations, along with orthostatic intolerance, which means you can’t stand up for long without feeling faint or dizzy. 

“In my practice, about 80% of patients meet criteria for dysautonomia,” said Dr. Putrino. Other research has found that it’s present in about two-thirds of long COVID patients.

One relatively easy way primary care providers can diagnose dysautonomia is to do the tilt table test. This helps check for postural orthostatic tachycardia syndrome (POTS), one of the most common forms of dysautonomia. During this exam, the patient lies flat on a table. As the head of the table is raised to an almost upright position, their heart rate and blood pressure are measured. Signs of POTS include an abnormal heart rate when you’re upright, as well as a worsening of symptoms.

Exercise intolerance. A review published in the journal JAMA Network Open analyzed 38 studies on long COVID and exercise and found that patients with the condition had a much harder time doing physical activity. Exercise capacity was reduced to levels that would be expected about a decade later in life, according to study authors. 

“This is especially important because it can’t be explained just by deconditioning,” said Dr. Purpura. “Sometimes these patients are encouraged to ramp up exercise as a way to help with symptoms, but in these cases, encouraging them to push through can cause postexertional malaise, which sets patients back and delays recovery.”

While long COVID can cause dozens of symptoms, a paper Ms. McCorkell coauthored zeroed in on some of the most common ones: chest pain, heart palpitations, coughing, shortness of breath, belly pain, nausea, problems with mental skills, fatigue, disordered sleep, memory loss, ringing in the ears (tinnitus), erectile dysfunction, irregular menstruation, and worsened premenstrual syndrome.

While most primary care providers are familiar with some of these long COVID symptoms, they may not be aware of others. 

“COVID itself seems to cause hormonal changes that can lead to erection and menstrual cycle problems,” explained Dr. Putrino. “But these may not be picked up in a visit if the patient is complaining of other signs of long COVID.” 

It’s not just what symptoms are, but when they began to occur, he added. “Usually, these symptoms either start with the initial COVID infection, or begin sometime within 3 months after the acute COVID infection. That’s why it’s important for people with COVID to take notice of anything unusual that crops up within a month or 2 after getting sick.”
 

Can you prevent long COVID?

You can’t, but one of the best ways to reduce your risk is to get vaccinated. Getting at least one dose of a COVID vaccine before you test positive for COVID lowers your risk of long COVID by about 35% according to a study published in Antimicrobial Stewardship & Healthcare Epidemiology. Unvaccinated people who recovered from COVID, and then got a vaccine, lowered their own long COVID risk by 27%. 

In addition, a study published in JAMA Internal Medicine found that women who were infected with COVID were less likely to go on to get long COVID and/or have less debilitating symptoms if they had a healthy lifestyle, which included the following: a healthy weight (a body mass index between 18.5 and 24.7 kg/m²), never-smoker, moderate alcohol consumption, a high-quality diet, 7-9 hours of sleep a night, and at least 150 minutes per week of physical activity

But Ms. McCorkell noted that she herself had a healthy preinfection lifestyle but got long COVID anyway, suggesting these approaches don’t work for everyone.

“I think one reason my symptoms weren’t addressed by primary care physicians for so long is because they looked at me and saw that I was young and healthy, so they dismissed my reports as being all in my head,” she explained. “But we know now anyone can get long COVID, regardless of age, health status, or disease severity. That’s why it’s so important that primary care physicians be able to recognize symptoms.”

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