22 Clinical Trials for Various Conditions
Olfactory dysfunction (OD) is a defining symptom of COVID-19 infection. As the number of total, confirmed novel coronavirus SARS-CoV-2 (COVID-19) cases exceeds 45 million in the United States, it is estimated that up to 85% of infected patients will experience at least some olfactory dysfunction. Therefore, we propose a Pilot single-site clinical trial to explore the efficacy of MBSR for Covid-19-related smell distortion (parosmia)
The purpose of the study is to assess the physiologic, immunologic, and mental health effects of a rehabilitation program on patients with Long Haul COVID (LHC).
The goal of this pilot study is to assess the feasibility and impact of using sodium citrate nasal spray as an adjunct to olfactory retraining in participants with long-term post-COVID-19 olfactory dysfunction. The main questions it aims to answer are: * Is sodium citrate nasal spray in addition to smell retraining feasible for participants to use in terms of participant need/desire, adherence, and adverse events? * Does sodium citrate nasal spray in addition to smell retraining further improve smell as compared to normal saline spray and smell retraining? Participants will: * Provide consent for enrollment. * Undergo smell testing via Sniffin' Sticks. * Use a nasal spray (either sodium citrate or normal saline) followed by olfactory retraining twice a day for 12 weeks. * Return for follow-up Sniffin' Sticks testing. Researchers will compare the sodium citrate group and the normal saline group to determine differences in smell improvement.
The purpose of the study is three-fold. The primary aim is to identify the proportion of Long-Haul COVID (LHC) and non-LHC volunteers with relevant symptoms actually have postural orthostatic tachycardia syndrome (POTS). The second is to determine benefit of ivabradine treatment. Ivabradine is a drug approved to treat tachycardia in persons with heart failure. The third is to characterize risk factors and outcomes among volunteers with and without LHC. This will include comparison with COVID-19-positive individuals who did not develop long-COVID symptoms. The study will improve basic and applied knowledge of LHC and its associated cardiovascular and autonomic consequences. Cellular and molecular characterization of LHC and non-LHC participants will be performed with a nested clinical trial for Ivabradine responsiveness on reduction of tachycardia. It is hoped that a greater understanding of LHC, and related autonomic dysfunction in particular will help to identify treatment paradigms and therapeutic targets for improving recovery and enhancing health for those affected.
This is a digital symptom tracking study of Formula C™, a full cannabis flower formulation, rich in cannabinoids and terpenes, that has been shown to improve symptoms in people with Long COVID. Participants 21 and older will take Formula C™ for 90 days. During that time, participants will answer weekly surveys to track symptoms and wellbeing.
This is a Phase 2, randomized, parallel-group, double-blind, placebo-controlled, 14-week study designed to evaluate the efficacy and safety of TNX-102 SL 5.6 mg (2 x 2.8 mg tablets) taken once daily at bedtime for the management of multi-site pain associated with Long COVID.
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 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.
Post-Acute COVID-19 Syndrome (PACS), colloquially known as Long COVID, is a prevalent phenomenon that affects thousands of Veterans in VA care. VA patients suffering from Long COVID not only experience lingering physical symptoms following COVID-19 infection, but have increased mental health problems including sleep disorders, anxiety disorders, trauma and stress-related disorders as well as increased use of opioid and non-opioid pain medications, antidepressants, and sedatives to treat these conditions. Developing recovery-oriented care, "a process of change through which individuals improve their health and wellness, live a self-directed life, and strive to reach their full potential" is a VA priority, however available Long COVID treatments primarily target symptom relief and are not designed to promote the recovery and rehabilitation of Veterans in a mental health context. Long COVID Coping and Recovery (LCCR) is a promising manualized, recovery-focused psychotherapeutic group intervention which aims to improve psychological adjustment to Long COVID symptoms, promote resilience, and facilitate coping, based on established psychotherapeutic techniques such as skills training, acceptance-based and identity-based principles. The investigators will assess rates of recruitment, intervention engagement, and session attendance (feasibility), Veteran satisfaction (acceptability), treatment adherence (fidelity) and preliminarily explore response to Long COVID Coping and Recovery (LCCR). Findings will be used to make a final adaptation of the treatment materials and to develop a research protocol for a large scale RCT of LCCR for Veterans with Long COVID. This study will pilot test a well-specified, group-based intervention tailored to the unique needs of Veterans with Long COVID. The results of the proposed study will provide data to 1) identify adaptations needed to optimize LCCR for Veterans with Long COVID; 2) identify possible benefits of LCCR; 3) inform development of a large scale RCT of LCCR for Veterans with Long COVID.
Background: COVID-19 can cause problems in different parts of the body. For most people, it causes fevers or trouble breathing. Some people might not recover all the way. Researchers want to see if a treatment can help with people who have recovered from COVID-19 but still have symptoms ("Long COVID"). Objective: To learn if human immunoglobulin (IVIG) will help with neurological symptoms of Long COVID. Eligibility: Adults ages 18 and older who had COVID-19 at least 12 weeks ago and have ongoing neurologic symptoms, such as dizziness, trouble walking, or problems with strength. Design: Participants will be screened with a medical record review. Participants will have a medical history and a physical exam and complete questionnaires about their health and quality of life. They will have a spinal tap. They will give blood samples. They will discuss their symptoms with a neurologist and have a neurological exam. Participants will take memory and thinking tests using a tablet. The tests will take 1 hour to complete. They will also take a smell and taste test. It will take approximately 30 minutes to complete. Participants will lie on a table that tilts for up to 40 minutes. Their blood pressure and heart rate will be monitored. Blood will be taken through an intravenous (IV) catheter. Participants will receive either IVIG, or saline by IV for 5 days. Then the participants will receive IVIG if they first received saline or saline if they first received IVIG by IV for another 5 days. They will not know what they receive. Participants will have an MRI of the brain if they have not had one recently. They will receive a contrast agent by IV as part of the MRI scan. Participants will be on the study for up to 4 months. They will have follow-up visits at the clinical center as well as fill out questionnaires at home. They may be asked to continue follow-up....
This is an Intermediate- Size Patient Population Expanded Access Protocol to evaluate the safety and efficacy of HB-adMSCs for the treatment of patients with Post-COVID-19 Syndrome. The investigational product will be an add-on treatment to the standard of care.
This study is being conducted in two parts, A and B. Part A is a randomized, double-blind, parallel arm study to evaluate the safety and efficacy of LYT-100 compared to placebo in adults with post-acute COVID-19 respiratory complications. Part B is an Open Label Extension (OLE) study for patients who complete Part A.
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.
The novel coronavirus SARS-CoV-2 infection, COVID, continues to rage throughout the world with 115,000,000 confirmed cases and over 2,500,000 deaths (as of Mar 3, 2021). This translates to millions of people surviving COVID19 infection. While the lungs are ground zero, COVID tears through organ systems from brain to blood vessels. We are now beginning to see people recover but complain of ongoing problems, including lingering cognitive problems, depression, and anxiety. We have brought together 2 laboratories with complementary techniques including psychological testing and neuroimaging methods togethers with markers in the blood that may signal damage in the brain. A close look at these problems is timely and imperative if we are to understand the pathophysiology of 'COVID brain' and prepare for downstream problems.
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 goal of this study is to determine if a mind-body intervention can help people suffering from symptoms associated with Long COVID. The study is a randomized trial examining the effectiveness of a mind body intervention in reducing somatic symptoms from Long COVID in participants as compared to usual care and an active control (second mind body intervention). The investigators will secondarily investigate whether the intervention alleviates individual somatic complaints and improves daily functioning, relative to usual care and the active control
COVID-19 is a systemic inflammatory disease involving many organs including the lungs, vascular system liver and myocardium that lead to severe pathologies. Patients with severe cardiopulmonary symptoms usually require weeks to months to fully recover. Studies of clinical and subclinical impairments of COVID-19 patients are important for medical practice and public health as well as providing pathogenic insight to the viral infection and secondary immune response. Chronic damage of vital organs and systems, and the potential long-term effects is of serious concern. In this study the investigators plan to quantify and characterize chronic consequences of COVID-19 in individuals who receive similar medical care related to disease severity and duration in a single health care system. Using state-of-the-art Computed Tomography (CT) and Magnetic Resonance Imaging (MRI) technology, we will study the pathology in major organ systems in comparison to matched controls. The results of this study may facilitate measures to prevent, detect, and manage complications from COVID-19 infections.
The purpose of this study is to test the effect of Auricular Percutaneous Electrical Nerve Field Stimulation (a Neurostim device) on children with pain and Post Concussion symptoms. An additional purpose of this study is to demonstrate that PENFS improves functioning in children with post Covid-19 symptoms.
The objective of this study is to compare the impact of the coronavirus disease (SARS-CoV-2, or COVID-19) on cognitive function in the population of patients who have been diagnosed, treated and recovered from the COVID-19 infection versus patients who have not been infected. Primary endpoint is to evaluate the percentage of cognitive decline observed in both study arms (subjects with or without COVID-19 history) using assessments of Cognivue Clarity, MMSE and MoCA. Secondary endpoint is to see the correlation of Depression and anxiety scales (i.e., Patient Health Questionnaire-9 (PHQ-9) and/or Geriatric Depression Scale (GDS)) and Cognivue scores while comparing the trend of difference between both study arms.
Investigators are conducting a study on alternative treatments for patients who have received an current or previous positive COVID-19 diagnosis with mild-serve symptoms or undiagnosable condition after testing positive for severe acute COVID-19 infection and are experiencing long-haul symptoms. The symptoms of long COVID can include extreme tiredness (fatigue), shortness of breath, memory and concentration issues (brain fog), heart palpitations, dizziness, joint pain, muscle aches, cough, headaches, anxiety, and depression. It's important to note that there are various other symptoms that individuals can experience after a COVID-19 infection, such as loss of smell, chest pain or tightness, difficulty sleeping (insomnia), pins and needles, depression, anxiety, tinnitus, earaches, nausea, diarrhea, stomach aches, loss of appetite, cough, headaches, sore throat, and changes to the sense of smell or taste. To be included in the study, participants must have had symptoms for more than 4 weeks. The goal of the study is to measure biomarkers, identify new ones through clinical trials, and individualize and optimize treatment plans, which may or may not include COVID-19 post-market antivirals, vaccines, and medical care. It's essential to conduct thorough clinical trials to understand the long-term effects of COVID-19 and to develop personalized treatment plans for individuals experiencing long-haul symptoms.
The present study is a feasibility study in which we will determine if a mind-body program that we have previously developed for chronic back pain can improve the multiple somatic complaints associated with the COVID Long Haul Syndrome.
The purpose of this research study is to assess if glutathione, along with NAC (N-acetyl cysteine) and Alpha lipoic acid (ALA), can help reverse some of the COVID long-haul symptoms.Subjects will be randomized in to one of two groups. Depending on the group they are randomized in to, subjects will be taking either a combination of NAC, Alamax CR, and liposomal GSH or the same three nutritional supplements with a multivitamin and magnesium. Regardless of the group, subjects will be asked questions to assess their COVID symptoms, physical and mental health status. They will also be asked to take blood samples.