View clinical trials related to Covid19.
Filter by:The aim of this observational retrospective study is to evaluate the effect of supplementation with cholecalciferol D3 in reducing the risk of: - occurence of Long COVID syndrome after acute COVID-19 illness - occurence of SARS-CoV-2 infection after anti-COVID-19 vaccination
We 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 Covid19 pandemic, paradoxically, represents a valuable opportunity to carry out cohort studies that allow us to advance our knowledge about the relationship between inflammation, brain development and an increased risk of suffering from neuropsychiatric disorders or alterations. In addition, the current availability of sophisticated biological techniques and evaluation procedures represents an unique option for this purpose. Here, we propose a cohort study of sars-cov-2 (type 2 coronavirus causing severe acute respiratory syndrome) infected pregnant women and newborns. We will try to answer the following questions: (i) what is the inflammatory / immune status of newborns (NBs) of mothers infected by Covid19 like?; (ii) is there a relationship between the clinical characteristics of the maternal infection (severity / moment / of infection) and the inflammatory status of the newborn?; (iii) could these features increase the vulnerability to developing central nervous system (CNS) alterations at an early age, and at some point during adult life ?; (iv) How is the Covid19 infected mother's placenta altered? Do the placental alterations Covid19 mediated contribute to develop CNS alterations?; (v) is the infection associated with phenotypes obtained through neurological and neurodevelopmental clinical evaluation (hypotonia, clumsiness, impaired communication and sociability) in children at 6 months and 12 months? Our main objective is to explore how the presence of stressors and prenatal sars-cov-2 infection generates an abnormal inflammatory activity in the newborn, which is associated with neurodevelopmental disorders and which confers a greater risk of developing neuropsychiatric disorders. The biological information of the umbilical cord (fetus blood) and peripheral blood of the mother obtained after childbirth was provided by the cohort of women during the Covid19 pandemic monitored during their pregnancy, delivery, childbirth and postpartum. These samples and the clinical characterisation of the cohort of mothers and newborns, of which we will be able to do an exhaustive longitudinal follow-up, are tremendously valuable at this time. There is a need to establish new research strategies to understand the pathophysiology of neuropsychiatric diseases, and to discover new molecular and cellular mechanisms involved in the development of the CNS.
Duke University and the Clinton Health Access Initiative (CHAI), in partnership with the Ministries of Health (MoH) of Ghana, Malawi, Rwanda, Zambia, and Zimbabwe, aim to assess the implementation and impact of COVID-19 test -and -treat (T&T) demonstration programs
To investigate the clinical features of ocular manifestations during the novel coronavirus pneumonia pandemic in Hubei at the end of 2022
Perioperative SARS-CoV-2 infection significantly increases the risk of postoperative complications and mortality, while also exerting long-lasting impacts on multiple organs and systems. Due to the curtailment or cessation of non-emergency surgeries during the initial phase of the pandemic, there is a lack of evidence regarding the optimal timing and medium- to long-term postoperative outcomes of surgical intervention in breast cancer patients with prior SARS-CoV-2 infection, particularly after vaccination. We aim to investigate whether prior SARS-CoV-2 infection increases the risk of postoperative adverse outcomes in breast cancer patients and determine the optimal timing for surgical intervention during the pandemic, as well as to longitudinally assess the evolution of postoperative adverse outcomes within one year after COVID-19 and identify associated risk factors.
Objectives: To describe the standardized evaluation of the psychological and cognitive function of long COVID patients and their evolution, to compare immunological and HPA-axis related biomarkers between long COVID patients and healthy controls, to explore cross-sectional and longitudinal associations between immunological measures and long COVID symptoms. Study design: Cov-N-Psy is a longitudinal observational study. Three groups will be included from 2021 until 2023: long COVID patients with neuropsychological complaints (P), COVID-survivors without persistent complaints (Ca) and healthy volunteers without a history of COVID-19 (Cb). The total sample size is estimated on 130. Four visits are organized: at baseline, three, six and twelve months. The study is organized in three work packages (WP). WP1 includes a blood withdrawal and psychometric questionnaires and is part of every visit. WP2 includes cortisol measurement in saliva and takes place on the baseline visit for every participant and on the third visit for patients. Finally, WP3 includes a neurocognitive assessment at baseline for patients and Ca controls and on the third visit for patients.
This is a multicenter, observer-blind, randomized, controlled phase 3 study to evaluate the immunogenicity, reactogenicity, and safety of an investigational self-amplifying RNA COVID-19 vaccine (ARCT-2303) administered concomitantly with quadrivalent influenza vaccines or standalone in adults who previously received authorized COVID-19 vaccine.
This is an open label trial. There will only be 1 group in the study. All subjects will receive INAVAC vaccine and be followed for 6 months. The vaccine will be administered intramuscularly. This study will be started after the interim analysis of the phase III INAVAC trial in adolescent. This study will have two interim and one full analysis reports.
The purpose of this clinical trial is to see if combining a licensed COVID-19 vaccine and a licensed influenza vaccine into a single shot is safe and can help produce antibodies to defend the body against both SARS-CoV-2 (the virus that causes COVID-19) and influenza. Participants enrolled in this trial will be healthy adults, 50 years of age or older.