Post-COVID ME/CFS Clinical Trial
Official title:
Observational Study of Repeat Immunoadsorption (RIA) in Post Covid ME/CFS Patients With Elevated ß2 Adrenergic Receptor Autoantibodies
The evidence for an autoimmune etiology in postinfectious myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) is growing. The investigators observed in a not yet published study that in ME/CFS triggered by COVID, similar to ME/CFS after other infections, there is a close correlation of ß2 adrenergic receptor (ß2R) autoantibodies with symptom severity. Immunoadsorption (IA) to remove autoantibodies has been used successfully in many autoantibody-mediated diseases. The investigators have already performed two proof of concept studies of IA in postinfectious ME/CFS with elevated ß2R antibodies, which resulted in improvement in most patients. This observational study aims to assess symptom outcome and functional ability in 20 patients with Post-COVID Syndrome (PCS) meeting ME/CFS diagnostic criteria with elevated ß2R antibodies undergoing antibody depletion by IA. The study will be conducted as a non-interventional observational study. IA with Miltenyi's TheraSorb® column in PCS will be performed in the approved use. Patients who have symptom improvement after the 1st IA will receive two additional IAs at 3 and 6 months, which will also be documented. The results of this observational study will provide the basis for a randomized controlled clinical trial (RCT) combining IA with B-cell depletion therapy preferentially with Obinutuzumab.
Studies indicate an overlap between post-COVID syndrome (PCS) and ME/CFS (Kedor et al., 2022). Post-infectious ME/CFS (ICD-10 code G93.3) is a complex and severely disabling disease with no approved treatment and thus, a very high medical need. Following an acute infection, patients suffer from severe central and muscle fatigue, chronic pain, cognitive impairment, and immune and autonomic dysfunction. The key symptom of ME/CFS is exertion intolerance with minor exertion resulting in symptom aggravation, also called post-exertional malaise (PEM), lasting until the next day up to weeks. Various pathogens are known to induce post-infectious ME/CFS, including the Epstein-Barr virus and SARS-CoV-2 (Sotzny, 2018). The investigators' ongoing Charité PA-COVID study (Berlin prospective COVID-19 patient cohort) and other reports show that SARS-CoV-2 triggers ME/CFS in a subset of mostly younger patients without preexisting comorbidities (Kedor et al., 2022). Due to the rapid increase of COVID-19 incidence worldwide, the prevalence of post-COVID-19 ME/CFS will likely be a substantial problem for health care and society. The evidence for an autoimmune etiology in post-infectious ME/CFS is growing (reviewed in Sotzny et al., 2018). Also, COVID-19 is a disease with a high risk for autoimmunity and developing ME/CFS due to the infection of many different cell types and the severity of immune activation. There is evidence from several studies from the investigators and other groups that natural regulatory autoantibodies targeting G protein-coupled receptors (GPCR) are involved in the pathogenesis of various autoimmune diseases. The investigators and others described enhanced levels and dysfunction of ß2R autoantibodies in ME/CFS and their correlation with the severity of key clinical symptoms (Freitag et al., 2021). The investigators' working hypothesis is that GPCR-specific autoantibodies with altered binding affinity or epitope specificity lead to immune dysregulation and autonomous dysfunction, and play a significant role in the pathomechanism of ME/CFS (Wirth et al., 2020). The investigators observed -- in a not yet published study -- a close correlation of ß2R antibodies with symptom severity in ME/CFS after COVID, similar to ME/CFS after other infections (Freitag et al., 2021). Two small proof-of-concept studies with immunoadsorption (IA) in patients with ME/CFS after other infections have shown improvements in symptoms in most patients (Scheibenbogen et al., 2018; Toelle et al., 2020). In this observational non-controlled trial, PCS ME/CFS patients who receive IA will be evaluated for clinical efficacy, a decrease in autoantibodies, and a change of biomarkers. IA with Miltenyi's TheraSorb® column will be performed in the approved use. Patients who have symptom improvement after the 1st IA will receive two additional IAs at 3 and 6 months, which will also be documented. Symptom severity will be assessed by online questionnaires and at repeated time points. Patients will be recruited for IA from the investigators' ongoing observational study with a follow-up of at least six months without disease improvement (Kedor et al., 2022). Patients have received a comprehensive diagnostic assessment to exclude other diseases, central nervous system, or organ comorbidity. ß2R autoantibodies in serum are determined by ELISA (Celltrend). Within four weeks prior to IA, patients will be assessed for eligibility for study participation by clinical investigation, laboratory analysis, and symptom questionnaires. The first ten patients will be treated end of August - mid of October and analyzed for efficacy until the beginning of December 2022 with a grant from the Weidenhammer-Zoebele foundation. The subsequent ten patients will be treated and analyzed with funding from the Federal Ministry of Education and Research(BMBF). These ten patients will also receive vessel diagnostics before (within four weeks) and four weeks after the first IA. In all 20 patients, blood will be collected the week before and four weeks after the first IA. All visits and treatments will take place in outpatient clinics. Antibody depletion in PCS using IA has yet to be investigated in a clinical trial. The results of this observational study will provide the basis for a RCT using IA and, in responders, consecutive B-cell depleting therapy with an anti-CD20 monoclonal antibody versus placebo. ;