Category: Pathophysiology

LOW VASOPRESSIN IN MYALGIC ENCEPHALOMYELITIS/CHRONIC FATIGUE SYNDROME

Abstract:

Objective: The complex clinical picture of ME/CFS includes orthostatic intolerance with symptoms and signs suggesting abnormal water homeostasis and hypovolemia. Since many ME/CFS patients report polyuria-polydipsia, we conducted an observational study based on series of plasma and urine osmolality (P-Osm and U-Osm) as well as plasma levels of vasopressin (P-VP) or copeptin in consecutive patients diagnosed with ME/CFS according to the International Consensus Criteria.

Methods: P-VP as well as P-Osm and U-Osm were measured in 111 patients after 10 hour overnight fasting and fluid deprivation. Additional 13 patients were assessed for copeptin, when P-VP measurements were no longer available. The clinical routine also included brain MRI and blood chemistry.

Results: P-Osm was abnormally high (>292 mOsm/kg) in 71/124 (57.3 %) and U-Osm below the reference interval (< 750 mOsm/kg) in 82/124 (66.1%) patients. P-VP was below the level of detection (<1.6 pg/mL) in 91/111 (82.0 %) patients. A normal P-VP level compared with their P-Osm was found in 11/111 (9.9 %) patients. Copeptin levels were all within the given reference range, albeit in the lower end in most patients. No indication of relevant pathology in either hypothalamus or hypophysis was present.

Conclusions: Our findings suggest that chronic down-regulation of VP mimicking central diabetes insipidus is an important measurable part of the disease mechanism that potentially contributes to criterial symptoms of ME/CFS.

Source: Huhmar HM, Soinne LS, Bertilson BC, Ghatan PH, Bragée BA, Polo OJ. LOW VASOPRESSIN IN MYALGIC ENCEPHALOMYELITIS/CHRONIC FATIGUE SYNDROME. Endocr Pract. 2025 Dec 29:S1530-891X(25)01349-7. doi: 10.1016/j.eprac.2025.12.020. Epub ahead of print. PMID: 41475665. https://www.endocrinepractice.org/article/S1530-891X(25)01349-7/fulltext (Full text)

Mapping the complexity of ME/CFS: Evidence for abnormal energy metabolism, altered immune profile, and vascular dysfunction

Abstract:

Myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) is a complex disorder with undefined mechanisms, no diagnostic tools and treatments. To investigate concurrent system dysfunctions, we recruited age- and sex-matched ME/CFS patients and healthy controls for a multimodal analysis of energy metabolism, immune profiles, and plasma proteomics.

Immune cells from ME/CFS patients show elevated adenosine monophosphate (AMP) and adenosine diphosphate (ADP) with a reduced ATP/ADP ratio, indicating decreased ATP generation and cellular energy stress. Immune profiling reveals skewing toward less mature effector subsets of CD4+, CD8+, and γδ T cells, with reduced CD1c+CD141 conventional DC type 2 and CD56lowCD16+ terminal natural killer cells.

Elevated levels of plasma proteins associated with thrombus formation and vascular reactivity may contribute to the endothelial dysfunction observed in ME/CFS patients. Classification and regression tree modeling identifies variables with strong predictive potential for ME/CFS. Together, this study provides insights into the somatic symptoms and underlying biology of ME/CFS.

Source: Heng B, Gunasegaran B, Krishnamurthy S, Bustamante S, Pires AS, Chow S, Ahn SB, Paul-Heng M, Maciver Y, Smith K, Tran DP, Howley PP, Bilgin AA, Sharland A, Schloeffel R, Guillemin GJ. Mapping the complexity of ME/CFS: Evidence for abnormal energy metabolism, altered immune profile, and vascular dysfunction. Cell Rep Med. 2025 Dec 16;6(12):102514. doi: 10.1016/j.xcrm.2025.102514. PMID: 41406947. https://www.sciencedirect.com/science/article/pii/S2666379125005877 (Full text)

Alterations in gut microbiota and associated metabolites in patients with chronic fatigue syndrome

Abstract:

To investigate differences in gut microbiota composition and short-chain fatty acids (SCFAs) metabolism between patients with Chronic Fatigue Syndrome (CFS) and Healthy Controls (HC), and to explore their associations with the CFS pathogenesis. This case-control study included 80 subjects, comprising 40 patients with CFS and 40 age- and sex-matched HC.

Fecal microbial community structure was analyzed using 16S rRNA gene high-throughput sequencing. Fecal SCFAs concentrations were quantified using Gas Chromatography-Mass Spectrometry (GC-MS). Spearman correlation analysis with false discovery rate (FDR) adjustment was performed to elucidate associations among gut microbiota, SCFAs, and clinical scores.

Compared to the HC group, the CFS group exhibited reduced gut microbiota α-diversity (e.g., ACE, Chao1, Shannon indices, all P < 0.01) and significantly altered β-diversity (ADONIS, P = 0.006). After FDR adjustment, fecal levels of acetate, butyrate, isobutyrate, and isovalerate remained significantly lower in the CFS group (all q < 0.05). Differential abundance analysis revealed a significant reduction in key taxa including the phylum Firmicutes (q = 0.010), class Verrucomicrobiae (q = 0.038), order Clostridiales (q = 0.043), and families Rikenellaceae (q = 0.011) and Ruminococcaceae (q = 0.049). Spearman correlation analysis solidified functional connections: key SCFA-producing taxa (e.g., Faecalibacterium, Subdoligranulum, Ruminococcaceae) were positively correlated with butyrate levels (r = 0.52-0.56, all q < 0.05).

Furthermore, reduced abundances of Rikenellaceae and Alistipes were associated with lower SF-36 scores (r = 0.26, q = 0.032) and higher fatigue scores (FSS/FS-14, r = – 0.28 to – 0.30, q < 0.05). Isovalerate levels were negatively correlated with FS-14 scores (r = – 0.307, q = 0.014). Among CFS patients, those with higher dietary fiber intake had significantly higher levels of acetate and isovalerate than those with lower intake (both q < 0.05).

Patients with CFS exhibit significant gut dysbiosis and abnormal SCFA metabolism. The reduction in key SCFA-producing taxa, their positive correlations with SCFAs levels, and the negative correlations of both with fatigue severity solidify a functional link between gut microbial depletion, reduced SCFAs, and clinical symptoms in CFS. Higher dietary fiber intake may partially ameliorate SCFAs metabolic disturbances in CFS patients.

Source: Cheng X, Wang W, Xu T, Wang Y, Zhen X, Man W, Gao S, Yin Y. Alterations in gut microbiota and associated metabolites in patients with chronic fatigue syndrome. Sci Rep. 2025 Dec 12;15(1):43681. doi: 10.1038/s41598-025-27564-y. PMID: 41387992; PMCID: PMC12700865. https://pmc.ncbi.nlm.nih.gov/articles/PMC12700865/ (Full text)

Glymphatic System Dysregulation as a Key Contributor to Myalgic Encephalomyelitis/Chronic Fatigue Syndrome

Abstract:

Defined by the World Health Organization as a neurological disorder, Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS) is a disabling illness, affecting millions of people worldwide. First reported in the early nineteenth century, ME/CFS is uniquely characterized by a wide array of symptoms, including fatigue, brain fog, post-exertional malaise (PEM), sleep dysfunction, and orthostatic intolerance (OI). Despite decades of extensive research, there are no effective medical treatments or simple diagnostics for ME/CFS, with an estimated 90% of patients remaining undiagnosed.

The recently discovered glymphatic system, a lymphatic analog of the brain, is believed to be responsible for the removal of toxic metabolic wastes accumulated in the course of daily activities, primarily during sleep. A link between glymphatic dysfunction and some neurological disorders such as Alzheimer’s disease has already been established, raising the possibility of its involvement in ME/CFS. Accordingly, we believe the ME/CFS medical/scientific community will be interested in seriously considering GD an important contributor to its pathophysiology. If so, therapeutics that modulate glymphatic function may also benefit patients with ME/CFS.

Source: Nemat-Gorgani M, Jensen MA, Davis RW. Glymphatic System Dysregulation as a Key Contributor to Myalgic Encephalomyelitis/Chronic Fatigue Syndrome. Int J Mol Sci. 2025 Nov 27;26(23):11524. doi: 10.3390/ijms262311524. PMID: 41373677. https://www.mdpi.com/1422-0067/26/23/11524 (Full text)

Mucosal Viruses in Myalgic Encephalomyelitis/Chronic Fatigue Syndrome: A Missing Piece of the Puzzle?

Abstract:

Myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) is a debilitating chronic condition without a definitive aetiology, no reliable diagnostic test, and no proven effective treatment. Despite most patients reporting a post-viral onset of illness, findings to date are conflicting on whether a single virus or multiple viral triggers are involved. Most studies to date have focused on detecting viruses in blood and circulating immune cells with relatively few investigating the presence of viruses in mucosal sites.

In this review, we propose that this represents a critical gap in understanding the pathophysiology of ME/CFS knowledge, as mucosal tissues are primary entry points for most pathogens and often serve as reservoirs where viruses may persist. Consequently, they represent ideal niches for identifying persistent infections in ME/CFS. Emerging evidence from saliva and other mucosal samples in ME/CFS patients is consistent with this proposal and that latent viruses can persist and periodically reactivate in mucosal tissues from where they can potentially contribute to immune dysregulation, chronic inflammation, and increased symptom severity that defines ME/CFS.

Source: Perera KD, Cameron P, Sarwar T, Carding SR. Mucosal Viruses in Myalgic Encephalomyelitis/Chronic Fatigue Syndrome: A Missing Piece of the Puzzle? Int J Mol Sci. 2025 Nov 19;26(22):11161. doi: 10.3390/ijms262211161. PMID: 41303644; PMCID: PMC12652652. https://pmc.ncbi.nlm.nih.gov/articles/PMC12652652/ (Full text)

The Clinical Relevance of Mast Cell Activation in Myalgic Encephalomyelitis/Chronic Fatigue Syndrome

Abstract:

Background/Objectives: Growing evidence suggests that mast cell activation (MCA) may contribute to Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS), a debilitating disorder characterized by persistent fatigue and post-exertional malaise (PEM). Particularly in relation to orthostatic intolerance (OI), including postural orthostatic tachycardia syndrome (POTS), this study aimed to investigate the prevalence and clinical relevance of MCA in an Austrian ME/CFS patient cohort.

Methods: Two data sets were analyzed. The CCCFS data set, a comprehensive, patient-centered online questionnaire consisting of 687 filled surveys, focuses on patient stratification. Self-reported clinical features, disease progression, and treatment responses were analyzed. Preliminary findings were validated in a second, retrospective study, analyzing data of 383 Austrian ME/CFS patients with regard to MCA involvement and OI.

Results: Among followed-up ME/CFS patients, MCA prevalence increased over the disease course, with up to 25.3% meeting the criteria for clinically relevant MCA. ME/CFS patients with Mast Cell Activation Syndrome (MCAS) and OI reported symptom alleviation significantly more often following mast cell-targeted treatment than those without MCAS (p < 0.0001). With regard to IF-channel inhibitors, ME/CFS patients diagnosed with MCAS responded more frequently than those without MCAS (p = 0.076), while no significant differences were observed in response to beta blockers (p = 0.637). In both cohorts, OI, particularly POTS, was significantly more common in patients with MCA involvement.

Conclusions: MCA appears to be a frequent and clinically relevant comorbidity in ME/CFS and is associated with a higher prevalence of OI, particularly POTS. Stratifying patients based on MCA involvement may support personalized treatment approaches and improve clinical outcomes.

Source: Rohrhofer J, Ebner L, Schweighardt J, Stingl M, Untersmayr E. The Clinical Relevance of Mast Cell Activation in Myalgic Encephalomyelitis/Chronic Fatigue Syndrome. Diagnostics (Basel). 2025 Nov 7;15(22):2828. doi: 10.3390/diagnostics15222828. PMID: 41300853; PMCID: PMC12651186. https://pmc.ncbi.nlm.nih.gov/articles/PMC12651186/ (Full text)

A Comparative Study of the Coagulation Systems and Inflammatory Profiles of Patients with Myalgic Encephalomyelitis/Chronic Fatigue Syndrome and Patients with Long COVID

Abstract:

Myalgic Encephalomyelitis/Chronic Fatigue Syndrome is a chronic condition that severely debilitates patients, yet it remains largely unfamiliar to many. Faced with scepticism as a real clinical entity for decades, the recognition of ME/CFS has improved with the emergence of Long COVID. This chronic illness manifests after an acute COVID-19 infection. With two-thirds of ME/CFS cases reported to be post-viral, a clear overlap emerges with Long COVID, as both conditions arise following an infectious illness.
The parallels between post-infectious ME/CFS and Long COVID are striking, with similarities in both symptomology and pathophysiology. One overlapping mechanism in both conditions, systemic inflammation, may be perpetuated by pathogen persistence or reactivation. While inflammation alone may not be accountable for the symptoms experienced in both conditions, it can lead to disruption in other physiological mechanisms. Owing to a bi-directional link with inflammation, coagulopathy and vascular changes may be exhibited in ME/CFS and Long COVID. Given the accessibility of blood samples, it is imperative to explore these mechanisms to uncover potential biomarkers for these conditions, both of which currently lack standardised diagnostic biomarkers.
A total of 83 participants were included in the study. The control group consisted of 19 healthy controls and 10 inflammatory controls (individuals with known inflammatory conditions), used to assess inflammation in a step-increase manner. The post-infectious group included 54 individuals, subdivided into 20 ME/CFS patients and 34 Long COVID patients. Statistical analyses were performed using GraphPad Prism 10 and R-Studio, with comparisons made using parametric or non-parametric tests, depending on data distribution. Significant results were considered at P<0.05. Multiple regression analyses were conducted to control for the effects of age and sex on the outcomes.
The techniques utilised in this dissertation focused on Virchow’s triad, a model explaining that hypercoagulability, stasis, and endothelial damage contribute to the aetiology and risk of thrombosis, particularly deep vein thrombosis. Framing the dissertation around this model offered a valuable framework to investigate potential pathological mechanisms and identify relevant biomarkers for these conditions. Common viscoelastic point-of-care devices, including TEG and ClotPro, were employed to examine the hypercoagulability component of Virchow’s triad.
These techniques demonstrated how standard laboratory tests are inefficient in revealing pathological alterations in Long COVID and ME/CFS, and how the insignificance of these results has prompted researchers and healthcare professionals to question the validity of these conditions. Despite this, newly developed fluorescent microscopy techniques revealed an increased presence of plasma structures resistant to fibrinolysis in the post-infectious groups, providing evidence of coagulopathy. This technique effectively distinguished the two conditions, with the Long COVID group showing a 2.75-fold increase in these plasma structures compared to the ME/CFS group. Additionally, the post-infectious groups displayed a marked presence of hyperactivated platelets and megakaryocytes in circulation, with platelet activation and aggregation being 1.35-fold higher in the Long COVID group compared to the ME/CFS group.
However, such microscopy techniques are low-throughput and labour-intensive, making them less practical for diagnostic purposes. An innovative high-throughput diagnostic technique known as real-time deformability cytometry was employed to investigate the second component of Virchow’s triad: alterations in blood rheology.
When isolating anomalous events and large clots in whole blood using the combined filter technique, the Long COVID group showed a 1.30-fold decrease in deformation compared to the ME/CFS group, indicating greater rigidity of these structures. Additionally, the ME/CFS group had a 1.31-fold decrease in the volume of these clots compared to the Long COVID group. Although significant differences were observed in both conditions and likely impact blood rheology, this technique requires further standardisation due to its novelty.
Lastly, endothelial biomarkers previously studied in other inflammatory diseases were investigated to better understand the extent of endothelial damage, the final aspect of Virchow’s triad. The flow luminescence immunoassay revealed a 1.29-fold reduction in cadherin-5 levels in the ME/CFS group compared to healthy controls. No significant differences were found in other endothelial biomarkers between the post-infectious groups, suggesting these biomarkers cannot be repurposed for these conditions.
Furthermore, the lack of replicability in endothelial analyte concentrations among different studies raises concerns about the reproducibility of this technique. When the findings of this dissertation are considered collectively through biomarker stratification, it becomes clear that distinct subgroups may exist within the studied populations. This highlights the importance of a multiparameter approach for diagnosis, although these novel investigations require further validation and should be replicated with larger sample sizes.
Through an examination of these mechanisms, this dissertation illustrated some commonalities between these diseases and demonstrated how Virchow’s triad may be implicated to some extent in both conditions. However, key differences were also identified between the conditions, highlighting the unique challenges each presents. As we investigate whether Long COVID signals the early onset of ME/CFS and consider whether insights gained from decades of combating ME/CFS can enlighten our understanding of Long COVID, we progress toward a deeper understanding of post-infectious conditions and the creative solutions required to address them.
Source: Arron, H. E. 2025. A Comparative Study of the Coagulation Systems and Inflammatory Profiles of Patients with Myalgic Encephalomyelitis/Chronic Fatigue Syndrome and Patients with Long COVID. Unpublished doctoral thesis. Stellenbosch: Stellenbosch University [online]. Available: https://scholar.sun.ac.za/items/1a98fb4e-a91f-497b-892e-716a25ee5358

Abnormal breathing patterns and hyperventilation are common in patients with chronic fatigue syndrome during exercise

Introduction: Patients with myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) experience symptoms of fatigue, dyspnea, mental fog, and worsening fatigue after physical or mental efforts. Some of these patients have been found to hyperventilate. In long COVID patients, many of whom also have ME/CFS, dysfunctional breathing (DB) has been described. Whether patients with ME/CFS, independent of COVID-19, experience dysfunctional breathing is unknown, as well as how it may relate to hyperventilation.

Methods: We performed serial 2-day cardiopulmonary exercise testing (CPET) in 57 patients with ME/CFS and 25 age- and activity-matched control participants. Peak oxygen consumption (VO2), ventilatory efficiency slope (VE/VCO2), O2 saturation, end-tidal CO2 (PetCO2), heart rate, and mean arterial blood pressure were measured in all patients during upright incremental bicycle exercise. Ventilatory patterns were reviewed using minute ventilation (VE) versus time, respiratory rate, and tidal volume versus minute ventilation graphs. Chronic hyperventilation (HV) was defined as a PETCO2 of <34 mm Hg that persisted during low-intensity exercise. Dysfunctional breathing was characterized by a 15% increase in oscillations in minute ventilation during at least 60% of the exercise duration or by a scatterplot pattern of respiratory rate and tidal volume plotted versus minute ventilation.

Results: The patients with ME/CFS had an average age of 38.6 ± 9.6 years, and a mean body mass index (BMI) of 24.1 ± 3.4, which was comparable to the sedentary controls. All participants performed maximal exercise, achieving a respiratory exchange ratio (RER) of >1.05. For the patients with ME/CFS, peak VO2 averaged 22.3 ± 5.3 mL/kg/min, which was 79 ± 20% of predicted and comparable to that observed in the sedentary controls (23.4 ± 4.6 mL/kg/min; 81 ± 12%; p = NS). A total of 24 patients with ME/CFS (42.1%) met the criteria for dysfunctional breathing compared to four sedentary controls (16%) (p < 0.02). In total, 18 patients with ME/CFS (32%) had hyperventilation compared to one sedentary control participant (4%) (p < 0.01), and nine patients with ME/CFS had both hyperventilation and dysfunctional breathing, whereas no sedentary participant exhibited both. The patients with ME/CFS and hyperventilation had significantly higher VE/VCO2 ratios (HV+: 34.7 ± 7.2; HV−: 28.1 ± 3.8; p < 0.001). A total of 15 of 18 patients with hyperventilation (83%) had either elevated VE /VCO2 ratios (n = 15) or dysfunctional breathing (n = 9) compared to 44% (n = 17) of the 40 non-hyperventilators (p < 0.01).

Conclusion: Dysfunctional breathing and hyperventilation are common in patients with ME/CFS and could present a new therapeutic target for these patients.

Source: Mancini Donna M. , Brunjes Danielle L. , Cook Dane , Soto Tiffany , Blate Michelle , Quan Patrick , Yamazaki Tadahiro , Norweg Anna , Natelson Benjamin H. Abnormal breathing patterns and hyperventilation are common in patients with chronic fatigue syndrome during exercise. Frontiers in Medicine, Volume 12 – 2025. DOI=10.3389/fmed.2025.1669036. ISSN=2296-858X https://www.frontiersin.org/journals/medicine/articles/10.3389/fmed.2025.1669036 (Full text)

The Gut-Brain-Immune Axis in Environmental Sensitivity Illnesses: Microbiome-Centered Narrative Review of Fibromyalgia Syndrome, Myalgic Encephalomyelitis/Chronic Fatigue Syndrome, and Multiple Chemical Sensitivity

Abstract:

Environmental sensitivity illnesses-including fibromyalgia syndrome (FMS), myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS), and multiple chemical sensitivity (MCS)-are chronic, disabling disorders characterized by hypersensitivity to environmental stimuli, persistent fatigue, widespread pain, and neurocognitive and autonomic dysfunction. Although their diagnostic criteria differ, increasing evidence suggests overlapping clinical features and shared biological mechanisms. A unifying hypothesis highlights the gut-brain-immune axis, where alterations in the intestinal microbiome, epithelial barrier dysfunction, and aberrant immune signaling interact with central sensitization and systemic metabolic dysregulation.

Recent studies demonstrate reduced microbial diversity, depletion of anti-inflammatory taxa (e.g., Faecalibacterium prausnitziiBifidobacterium), and enrichment of pro-inflammatory Clostridium species across these conditions. These shifts likely alter production of short-chain fatty acids, amino acid metabolites, and complex lipids, with downstream effects on mitochondrial function, neuroinflammation, and host energy metabolism. Moreover, emerging clinical interventions-including probiotics, prebiotics, synbiotics, and fecal microbiota transplantation-suggest a potential role for microbiome-targeted therapies, though controlled evidence remains limited.

This review synthesizes current knowledge on microbiome alterations in FMS, ME/CFS, and MCS, emphasizing their convergence on metabolic and immune pathways. By integrating microbial, immunological, and neurophysiological perspectives, we propose a microbiome-centered framework for understanding environmental sensitivity illnesses and highlight avenues for translational research and therapeutic innovation.

Source: Watai K, Taniguchi M, Azuma K. The Gut-Brain-Immune Axis in Environmental Sensitivity Illnesses: Microbiome-Centered Narrative Review of Fibromyalgia Syndrome, Myalgic Encephalomyelitis/Chronic Fatigue Syndrome, and Multiple Chemical Sensitivity. Int J Mol Sci. 2025 Oct 14;26(20):9997. doi: 10.3390/ijms26209997. PMID: 41155291. https://www.mdpi.com/1422-0067/26/20/9997 (Full text)

Autonomic phenotyping, brain blood flow control, and cognitive-motor-integration in Long COVID and myalgic encephalomyelitis/chronic fatigue syndrome: A pilot study

Abstract:

Myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) and the prolonged sequelae after COVID-19 (>3 months; Long COVID) have similar symptomology, are both associated with autonomic dysfunction, and a growing proportion of Long COVID patients are developing ME/CFS. We aimed to determine an autonomic phenotype of patients with ME/CFS vs Long COVID. We hypothesized that the groups would differ from controls yet be similar to one another.

We recruited sedentary controls (n = 10), mild/moderate ME/CFS patients (n = 12), and Long COVID patients (n = 9) to undergo 1) breathing 5 % CO2, 2) breathing 10 % O2, and 3) 5-minutes of 70° head-up tilt. Respiratory, hemodynamic, and cerebrovascular variables were measured throughout the 3 trials. Resting vascular function and cognitive-motor-integration were also assessed. ME/CFS and Long COVID were similar to the healthy controls and each other with regard to resting vascular function and the hemodynamic responses to hypoxia, hypercapnia, and head-up tilt (p > 0.05). However, in ME/CFS we observed a greater reduction of cerebrovascular resistance (p = 0.041) and impaired autoregulation (p = 0.042) during hypercapnia alongside impaired cognitive-motor integration (p < 0.02), and in Long COVID we observed reduced peripheral and end-tidal oxygen (p < 0.04) and less vagal withdrawal during tilt (p = 0.028).

Our findings suggest unique phenotypes when comparing ME/CFS and Long COVID whereby we have shown that Long COVID patients experience hypoxia while upright contributing to less vagal withdrawal, and ME/CFS patients experience impaired cerebrovascular control during potentially leading to reduced cognitive-motor integration. These differences could stem from disease severity/duration or some unique aspect of the COVID-19 virus.

Source: Badhwar S, Pereira TJ, Kerr K, Bray R, Tabassum F, Sergio L, Edgell H. Autonomic phenotyping, brain blood flow control, and cognitive-motor-integration in Long COVID and myalgic encephalomyelitis/chronic fatigue syndrome: A pilot study. Auton Neurosci. 2025 Oct 14;262:103358. doi: 10.1016/j.autneu.2025.103358. Epub ahead of print. PMID: 41138391. https://www.autonomicneuroscience.com/article/S1566-0702(25)00120-1/fulltext (Full text)