Long COVID Clinical Trial
Official title:
Cardiovascular Autonomic and Immune Mechanism of Post COVID-19 Tachycardia Syndrome
The term post-acute COVID-19 syndrome or Long COVID is a disabling syndrome that persists beyond the 3-month convalescence period after COVID-19 infections. This syndrome affects mostly women (~80%), present with chronic tachycardia and Orthostatic intolerance symptoms without any identifiable cause. In addition, non-specific symptoms such as fatigue, headache, and "brain fog", commonly described in POTS patients are also present in this novel condition, recently named post-COVID-19 tachycardia syndrome, POTS variant. Reduced Vagal activity and unresolved inflammation is post-COVID-19 POTS is hypothesized as the cause of Long COVID
Post-acute sequelae of COVID-19 infection or Long COVID is a growing concern, even in patients with mild initial illness. These patients develop numerous chronic debilitating symptoms including fatigue, chest pain, reduced exercise tolerance and tachycardia, with symptoms persisting weeks beyond the initial infection. Preliminary data shows that post-COVID-19 POTS patients have reduced parasympathetic (PNS) function. Given that the PNS protects against inflammation, it is hypothesize that post-COVID-19 POTS is caused by reduced PNS activity, which in turn, contributes to persistent inflammation, orthostatic intolerance (OI) symptoms Aim 1 of the study is to test the hypothesis that reduced PNS activity is associated with persistent inflammation in patients with post-COVID-19 POTS. Aim 2: Test the hypothesis that restoring PNS function in post-COVID-19 POTS patients with chronic transcutaneous vagus nerve stimulation (tVNS) will improve inflammation, orthostatic tachycardia and OI symptoms. Primary Outcome Measures: 1. To evaluate immune cell activation in post-COVID-19 POTS and patients with history of COVID-19 infection without sequelae and correlate this with the degree of decreased PNS activity. The primary endpoint is IL-6 levels. 2. Restoring PNS with chronic transcutaneous vagus nerve stimulation (tVNS), will improve the symptoms of orthostatic intolerance symptoms will Rationale: Elevated levels of IL-6, CRP and D-dimer are found in Long COVID patients, which resembles post-COVID tachycardia syndrome in POTS patients. Notably, stimulation of the efferent Vagus nerve has been shown to reduce cytokine production and systemic inflammation in response to endotoxin. Hence, decreased PNS function, as reported with acute SARS-CoV-2 infection and in post-COVID-19 POTS patients, may render these patients prone to persistent inflammation. The study aims to determine the link between PNS activity and immune activation in post-COVID-19 POTS. Study population: Total of 60 participants, 30 post-COVID-19 POTS patients and 30 controls with history of COVID-19 infection without sequelae. Study Visits: 5 visits, 3 in person and 1 telemedicine, Study procedures include EKG, urine and blood sample collection, Orthostatic Standing Test, Measurement of blood volume using carbon monoxide rebreathing technique, Tilt table test. Participants will be asked to complete an autonomic symptoms assessment questionnaire (COMPASS-31),32 quality of life EQ-5D and neuropsychological tests that includes Cambridge Brain sciences: Web based cognitive assessment platform and PROMIS scale: Functional Activities Questionnaire in Older Adults with Dementia. Transcutaneous Vagus Nerve Stimulation (tVNS): The device, which is FDA-approved TENS 7000 will be supplemented with ear clip electrodes, and the tragus or earlobe will be used as sites for vagal stimulation. The device will be used for 30 mins, twice a day for 28 days. Randomization: The subjects will randomized to any one of the two sites of stimulation on the ear. There will be 50% chance to be allocated to one of the sites that may have less stimulation. The risk of having side effects is the same for both stimulation sites. Data and Safety Monitoring Plan: The Data and Safety Monitoring Officer (DSMO) will provide objective review of treatment results as they relate to human safety and data quality. Dr. Cheryl Laffer, Professor of Medicine, Division of Clinical Pharmacology will serve as DSMO. The DSMO will review the initial protocol and will receive reports of the progress of the study every 12 months. These reports will provide information regarding recruiting, safety reporting, data quality, and efficacy. Statistical Considerations: Biostatistical Section Power analysis: The primary endpoint is serum IL-6. The proposed sample size of 60 (30 pairs of patients and controls) provides 90% power to detect an effect size of 0.62 for the mean difference in IL-6 between post-COVID-19 POTS (cases) and controls (COVID-19 infected w/o sequelae), with the two-sided type I error = 5%. This calculation is based on the preliminary data of mean difference of IL-6 ≈ 1.82 and the SD ≈ 2.94 in POTS.6 The effect size is defined as the ratio of mean IL-6 difference between cases and controls to standard deviation. Data analysis plan: Demographic information will be tabulated. Descriptive statistics, including means, standard deviations, and ranges for continuous parameters, as well as percent and frequencies for categorical parameters, will be presented. T-test or Mann-Whitney (as appropriate) will be applied to examine the mean differences between cases and controls with respect to the outcomes. The conditional logistic regression model will be applied for the multivariable data analysis. The adjusted p-values and the adjusted 95% confidence intervals (CIs) will be reported. ;
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