185 Clinical Trials for Various Conditions
This is a prospective, longitudinal study involving 300 participants for a single visit to compare Long COVID neurocutaneous biosignatures with those of other disorders affecting the sensory and autonomic nervous system.
The IMPACT Long Covid Treatment clinical study (IMPACT-LC) is testing two repurposed and previously approved drugs, Maraviroc and Atorvastatin, for the treatment of non-hospitalized subjects with long COVID/Post-Acute Sequelae of COVID (PASC). The main goals of the clinical study are to determine if this combination drug therapy can improve neurocognitive and physical functions in Long Covid patients, such as fatigue severity, heart rate, blood pressure, digestion, breathing, dizziness, and cognitive function. A secondary goal is to determine if biomarker levels, measured by a diagnostic test, can improve during treatment. To qualify for the trial, a subject must be an adult ≥ 18 and ≤ 65 years of age and meets the WHO-defined post-COVID-19 condition and has one or more new-onset Long Covid symptom that persist ≥ 6 months after the diagnosis of acute COVID-19 infection. A total of 252 participants will take either two daily doses of two existing medications (Maraviroc and Atorvastatin together as separate tablets) or a placebo (pills with no active ingredient) for 16 weeks. Although these medications are not yet approved for Long Covid, they are FDA-approved for use in treating other health conditions.
The study is conducted in New York, New York at The Cohen Center for Recovery from Complex Chronic Illness at Mount Sinai. This is an IND-exempt, off-label, multi-ascending, randomized, placebo-controlled clinical trial of sirolimus (also known as rapamycin) in adults with Long COVID. There are 2 arms: Sirolimus and Placebo. This study aims to evaluate the efficacy of Sirolimus in adults with Long COVID. Efficacy will be evaluated by measuring patient-reported outcomes in response to Sirolimus.
This study is investigating the effects of using an Osteopathic Manipulative Therapy (OMT) treatment protocol that was shown to statistically improve smell in individuals suffering from Long-COVID olfactory (smell) dysfunction in a small single-blinded pilot trial conducted during 2021. The questions this study is trying to answer are: 1. Does this OMT protocol improve other non-smell related Long-COVID symptoms 2. Do 2 OMT treatments improve Long-COVID symptoms more than 1 OMT treatment Participants will: 1. Week 1: Take an digital survey regarding their Long-COVID symptoms undergo Long-COVID OMT treatment or a placebo treatment 2. Week 2: Take an digital survey regarding their Long-COVID symptoms then all will undergo Long-COVID OMT treatment 3. Week 3: Take an digital survey regarding their Long-COVID symptoms 4. Week 8: Take an digital survey regarding their Long-COVID symptoms
Growing evidence indicates that many people who have chronic post-acute sequelae of SARS-CoV-2 infection (PASC) will experience ongoing neurological and musculoskeletal impairment that can affect gait and balance. Identifying the factors contributing to these impairments and how they influence functional mobility is the first step towards creating effective evaluation and treatment protocols. In this study the investigators will examine cognition, vision, proprioception, muscle strength, gait and balance in persons with and without PASC to understand how PASC may impact functional mobility through a cognitive-sensorimotor lens. Gait and balance will be studied in environments that stress cognitive and sensory abilities. Study outcomes will be critical for the development of evidence-based Veteran Health Administration diagnostic and standard-of-care protocols to address gait and balance dysfunction in Veterans with PASC for restoring their functional mobility and independence.
Long COVID is a condition where debilitating symptoms can persist for months after a COVID-19 infection. This study aims to evaluate the effects of NE3107 on several neurological symptoms reported in people with Long COVID including difficulty concentrating or remembering things ("brain fog") and fatigue. Researchers will compare NE3107 to a placebo (a look-alike substance that contains no drug) to see if NE3107 works to treat neurocognitive and fatigue symptoms of long COVID. Participants will: * Take NE3107 or a placebo twice daily for 84 days * Visit the clinic 5 times for checkups and tests and have a follow up phone call
The SARS-CoV-2 virus causes COVID-19, which ranges from mild initial symptoms to severe multi-organ dysfunction. While some patients recover to their baseline states, others develop a long COVID, or post-acute sequelae of SARS-CoV-2 (PASC) consisting of symptoms persisting \>2-6 months post-infection. PASC symptoms include post-exertional malaise, fatigue, and heart palpitations as well as incident GI disorders, cognitive dysfunction, and arthritis. Based on prevalence/incidence studies, it is estimated that more than 30 million people in the US have ever developed PASC with 10-11% of patients or 11 million people continuing to feel symptoms to the present day10. SARS-CoV-2 vaccines are only \~32% effective against infection at 4 months post-vaccination11, only 15% effective against the development of PASC12, and only 20% of American adults have received an updated booster as of December 202313. It is therefore imperative that the scientific community make progress in identifying underlying causes of PASC to develop effective treatments. This study will identify microbial metabolites associated with PASC-mediated gut dysbiosis and establish a tractable in vitro model to test T cell-gut epithelium dynamics to develop novel bio-therapeutics for multiple post-viral conditions. This case-control study will collect biospecimens (matched stool \& blood) samples from 400 people with and without long COVID (200 participants/group) to understand how COVID-induced dysbiosis impacts symptom severity, immune suppression, and gut barrier dysfunction both ex vivo and in vitro.
Plain Language Summary: This study is a clinical trial to see if ketamine can help treat symptoms of Long COVID, especially fatigue and problems with thinking clearly (often called "brain fog"). Long COVID is a condition that affects people even after they have recovered from COVID-19, causing ongoing health issues like tiredness, memory problems, and difficulty concentrating. Right now, there are very few treatments available for these symptoms, and many people are looking for new options to feel better. What is the study trying to find out? Does ketamine help reduce fatigue and improve thinking skills in people with Long COVID? Does ketamine improve overall quality of life and mental health for people with Long COVID? Is ketamine safe and well-tolerated for people with Long COVID? How does ketamine affect the body's biological processes, like inflammation and brain function? How will the study work? The study will include 20 adults between 18 and 65 years old who have Long COVID symptoms like fatigue or brain fog. Participants will first meet with researchers to answer health questions, take surveys about their symptoms, and do tests to check their thinking skills. Some participants will also have a brain scan (MRI) and give a blood sample to look at markers of inflammation. Participants will then receive four ketamine treatments over two weeks at a specialized clinic. The ketamine will be given as an injection, with the dose slightly increasing during the treatment period. After six weeks, participants will return for follow-up tests to see if their symptoms have improved. This includes repeating the surveys, thinking tests, and for some, another MRI and blood test. Why ketamine? Ketamine is a medicine originally used for anesthesia but has also been found to help with depression and other mental health issues. Researchers think it might help with Long COVID symptoms because it can reduce inflammation in the brain and improve how the brain functions. People with Long COVID often have signs of inflammation and changes in brain chemicals, which ketamine might help balance. What are the potential benefits? Participants might experience less fatigue and clearer thinking after ketamine treatment. They could also feel better overall in terms of mood and quality of life. Since ketamine can work quickly, some people may notice improvements shortly after starting the treatment. What are the risks? Ketamine can cause side effects like feeling dizzy, anxious, or having an unusual sense of reality (sometimes called dissociation). It may also cause temporary increases in blood pressure or heart rate. All treatments will be carefully monitored by healthcare professionals to ensure safety. Who can participate? Adults aged 18-65 with Long COVID who have significant fatigue or thinking problems can join. People will not be able to participate if they have certain health conditions like severe heart disease, uncontrolled high blood pressure, or a history of severe mental health disorders. Why is this study important? Long COVID affects millions of people, and many are struggling to find treatments that work. This study is one of the first to explore ketamine as a potential treatment for Long COVID symptoms. If ketamine helps, it could lead to more research and eventually new treatment options for people living with Long COVID.
The purpose of this study is to assess the feasibility of an at-home MMT treatment in patients with cognitive dysfunction related to PASC, and to collect data on safety and efficacy to inform the design of larger clinical studies. A prospective randomized controlled study of 30 participants with PASC and moderate to severe cognitive dysfunction. Total study duration will be 8 weeks, including 4 weeks of treatment and 4 weeks of untreated follow up.
The goal of this clinical trial is to learn if probiotics can improve symptoms and quality of life in participants with Long COVID. The main questions it aims to answer are: 1. Do probiotics reduce the number and severity of symptoms in those with Long COVID? 2. Do probiotics improve physical and mental health quality of life in those with Long COVID? 3. Do probiotics improve return to work and daily activities in those with Long COVID? Researchers will compare probiotics to a placebo (a look-alike substance that contains no probiotics) to see if probiotics works to treat Long COVID. Participants will take the study medication (placebo or probiotic) for 4 months. They will then cross-over (take the other medication) for an additional 4 months. Participants will complete a survey at baseline, 4 months, and 8 months.
The overarching goal of this study is to determine if baricitinib, as compared to placebo, will improve neurocognitive function, along with measures of physical function, quality of life, post-exertional malaise, effect of breathlessness on daily activities, post-COVID-19 symptom burden, and biomarkers of inflammation and viral measures, in participants with Long COVID.
This study aims to assess the effects of both acute and chronic exposures to hypoxia and hypercapnia in patients with Long COVID syndrome.
The primary purpose of this phase 2a study is to compare the efficacy of abrocitinib to placebo in improving severe fatigue in non-hospitalized adults with symptomatic Post-COVID Condition (PCC) (also called Long COVID). We are also interested in learning if abrocitinib is effective in improving overall health status in people suffering from severe fatigue from PCC. Eligible participants with a confirmed history of COVID19 infection who also have PCC according to the World Health Organization definition, will be randomized to receive abrocitinib at a dose of 50 mg, 100 mg, or placebo by mouth daily for 12 weeks (84 days).
This is a pilot randomized trial of rTMS for symptoms of fatigue and brain fog, and other neuropsychiatric symptoms of Long-COVID (Post-COVID, post-acute sequelae of COVID-19 infection, PASC). Twenty participants diagnosed with Long-COVID and recruited from the UCLA Long-COVID clinic will be randomized to receive active rTMS versus sham stimulation for 15 treatments followed by another 15 open-label rTMS treatments. Investigators will compare the safety and tolerability of rTMS vs Sham and examine within-group changes in symptoms of fatigue, sleep, pain, mood, and subjective and objective cognitive impairment. This project will provide information and pilot data for future larger clinical trials.
A prior open label study has shown that transcutaneous vagus nerve stimulation \[tVNS\] can improve the health of some patients with postacute sequelae of SARS-CoV-2 infection (PASC), severely affected enough to also fulfill criteria for myalgic encephalomyelitis / chronic fatigue syndrome (ME/CFS). The purpose of this study is to compare two sets of stimulus parameters to determine the one that best improves the health-related quality of life of these patients over a period of 6-weeks. Patients using their assigned device for at least 30 of the 42 possible opportunities will receive the best device for an additional 6-week period.
The purpose of this study is to evaluate the effects of fermented foods on bacterial gut microbiome diversity of long-COVID subjects.
The trial will test if two repurposed HIV antivirals can reduce symptom burden in adult participants with Long Covid compared to placebo. Viral infection and viral reactivation have been documented in Long Covid. Participants will be randomly allocated to receive antivirals, Truvada (tenofovir disoproxil/emtricitabine, TDF/FTC, Group 1) or Selzentry (Group 2), or a placebo (pill) (Group 3), taken daily for 90 days.
This will be a pilot multi-arm clinical trial investigating the feasibility of Lumbrokinase (LK) as an intervention in three clinical cohorts: * Long Covid (LC) * Post-treatment Lyme disease syndrome (PTLDS) * Myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS)
This study is to find out if the Attention Processing Training program is a potential treatment for brain fog symptoms, reported by people with Long-Covid. Also investigating the feasibility of completing this program virtually.
The goal of this preliminary study is to test methods and procedures to be used in a fully-powered trial to evaluate acupuncture treatment effectiveness. Specifically, we will test the feasibility of conducting a 2-arm randomized clinical trial for evaluating the effectiveness of acupuncture for pain in patients with long COVID. Researchers will compare pain intensity and impact on general activities over 5 months in those who receive acupuncture treatment compared to patients who are receiving usual long COVID care. Participants will complete 4 online surveys at weeks 0, 4, 8, and 20. These surveys include validated mental and physical health questionnaires. Participants who are randomly selected to receive the intervention will receive 8 acupuncture treatment sessions.
The primary objective of this study is to evaluate the safety and efficacy of Xiflam versus Placebo in patients who present with signs and symptoms of Long COVID. Xiflam (n=10) or placebo (n=5) will be administered orally once a day (QD) for 12 weeks.
AIM 1. Characterize cardiovascular phenotypes of long COVID by cardiopulmonary, meta-bolic, and cardiac mechanical/physiological responses to exercise and microvascular vasomotor function. AIM 2. Identify intercellular signaling between immune cells and cardiac cells associated with microvascular phenotypes of long COVID.
The value of clinical cardiopulmonary exercise testing (CPET) within healthcare settings has been established in the last decade. CPET methods remain highly relevant in the COVID-19 endemic phase and should be used to assess those recovering from COVID-19 (SARS-CoV-2) infection. This diagnostic tool could play an integral role in disease prognostication and evaluate the integrative response to incremental exercise. Date from such assessments can enable practitioners to characterise cardio-respiratory fitness and identify reasons for physical impairment or abnormal cardio-respiratory function. More than 50% of patients admitted to hospital will experience cardiorespiratory issues and significant morbidity during their recovery and will require significant rehabilitative support. In this context, measurements obtained from an assessment of cardio-respiratory responses to physiological stress could provide insight regarding the integrity of the pulmonary-vascular interface and characterisation of any impairment or abnormal cardio-respiratory function. Current approaches to rehabilitation are being developed on existing knowledge from Severe Acute Respiratory Syndrome (SARS) and Acute Respiratory Distress Syndrome (ARDS) related illness. These provide important insight but do not provide insight into the novel challenges provided by COVID-19.
The Primary objective of this study is to determine, using unblinded samples, if it is possible to develop an algorithm for the classification of specific blood RNA from patients with long COVID together and separately from the apparent health normal controls and other medical conditions that share the signs and symptoms of long COVID.
The goal of this observational study is to assess the clinical response and the effect of autophagy function in patients before, during and throughout oral low dose sirolimus (rapamycin) therapy. The main questions this study aims to answer are: * Does rapamycin reduce the overall symptom burden in this patient population and does it improve the quality of life? * Does rapamycin change mTOR driven autophagy deficits observed in a subset of patients? Participants will be asked to complete a series of questionnaires and quality of life instruments before starting rapamycin therapy prescribed by their physician and throughout their course of treatment. Study blood samples will be collected before starting therapy and throughout the course of treatment to assess serological markers of autophagy function.
Purpose: To decrease symptom burden, improve cognitive function, improve endurance, and decrease fatigue in subjects with post-acute sequelae of COVID-19 (PASC) or "long-hauler" COVID using amantadine. If amantadine use is determined to be efficacious in this population, the findings of this study will be used towards a subsequent randomized control trial.
The goal of this study is to evaluate the safety of using the \[5-cyano-N-(4-(4-\[11C\]Methylpiperazin-1-yl)-2-(Piperidin-1-yl)Phenyl)Furan-2-carboxamide\] (\[11C\]CPPC) radiotracer in positron emission tomography (PET) imaging of people with history of COVID-19 infection, with and without symptoms. The investigators are also interested to see whether use of this radiotracer reveals imaging differences between patients with history of COVID-19 infection and still exhibiting symptoms or healthy patients with history of COVID-19 infection but exhibiting no current symptoms.
This cross-over study will assess a no added sugar diet, a restricted daily eating window, and one or two full day water fasts to determine if there is an effect on self-reported symptoms of Long Covid (PASC).
The research objective is to assess the safety and potential efficacy of spleen ultrasound stimulation as an intervention for Long COVID in a pilot study. Specific Aims include: * Measure Long COVID disease activity before, during and after an 8-week course of spleen-directed daily ultrasound stimulation. * Measure molecular correlates of Long COVID disease activity before, during and after an 8-week course of spleen-directed daily ultrasound stimulation. * Track adverse events throughout the study to assess safety of the ultrasound intervention.
The overall goal of this study is to find out if rehabilitation exercise can help people who have long COVID. Participants will be randomized by chance to receive either aerobic exercise or breathing exercise (combined with stretches). Participants will be guided and supported in completing a tailored, 6-week home exercise program to be performed 5 - 6 days a week, prescribed and supervised by rehabilitation therapists. Participants will perform breathing exercises, which will be supervised by an occupational therapist. The focus of Aim 1 is to determine feasibility of implementing RESToRE in long COVID.