View clinical trials related to Coronavirus Infections.
Filter by:The COVIDOUT study will prospectively investigate the serological immunity of outpatient cancer patients to evaluate the prevalence of previous severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infections and dependency of serological immunity on systemic (chemo)therapy after COVID19 disease as well as after vaccination.
The main objective of this cohort is to characterize COVID-19 patients hospitalized in infectious disease department. The collection of clinical and biological data from start of hospitalization to long-term follow up will contribute to a better description of the patient care, to the identification of predisposition to complication related to the disease, and to the evaluation of the impact of different therapeutical strategies.
Background: Respiratory viruses circulate throughout the year and around the globe. Wearable and sensor devices, like smartwatches, may be able to help monitor infectious diseases. Researchers want to use them to learn how respiratory viruses affect people in different ways. Objective: To use digital devices to collect data from participants in challenge studies that could indicate subtle changes in health during an infection that might otherwise go unnoticed. Eligibility: Healthy adults who have enrolled in a challenge study. Design: Participants will stay at NIH for at least 9 days and then they will have outpatient visits. While at NIH, participants will wear a smartwatch at all times. It will record data like temperature, heart rate, breathing rate, and movements. Participants will have 2 smartphones. One will be recording at all times to listen for coughing. Participants will use the other smartphone to check their vital signs. They will collect data like heart rate, temperature, and the level of oxygen in the blood every 4 hours during the daytime. Participants will perform tasks every 4 hours during the daytime. They will record themselves coughing, breathing in deeply, and reading aloud. They will take pictures and videos of their face. A bedside sensor will record participants while they sleep. It will record heart rate and breathing rate. It will also look at sleep activity, such as movements participants make during sleep and how deeply they sleep. Participants sharing the same room will be exposed to the same challenge virus. For outpatient visits, participants will use one smartphone and the smartwatch to complete the above tasks. Participation will last from 10 weeks to 1 year.
The intersectoral platform is part of the National Pandemic Cohort Network (NAPKON) and will be used to provide a comprehensive and harmonized collection of data and biomaterial for researchers from national consortia, pharmaceutical companies and for participation in international research collaborations for the purpose of studying COVID-19 disease and future pandemics.
This nested project of the Swiss Multiple Sclerosis Cohort (SMSC) is to assess the severity of COVID-19 and the magnitude of antibody response after infection with Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) in patients already treated or not with various immunotherapies for multiple sclerosis followed in the framework of the SMSC.
NAPKON-HAP is the deep phenotyping platform of the National Pandemic Cohort Network (NAPKON) in Germany. NAPKON is a data and biospecimen collection of patients with COVID-19 and is part of the University Medicine Network (NUM) in Germany. The primary objective of the study is to provide a comprehensive collection of data and biosamples for researchers from national consortia and for participation in international research collaborations for studying COVID-19 and future pandemics. Data is collected from patients with COVID-19 three times per week during their hospitalization and at follow-up visits after hospital discharge 3, 6, 12, 24, and 36 months after symptom onset. Data include epidemiological and demographic parameters, medical history and potential risk factors, documentation of routine medical procedures, and clinical course, including different patterns of organ involvement, quality of care, morbidity, and quality of life. Moreover, extensive serial high-quality bio sampling consisting of various sample types is performed to allow deep molecular, immunological, and virological phenotyping. Patients not requiring Intensive Care Unit (ICU)/ Intermediate Care (IMC) treatment will receive 7 and patients requiring ICU/IMC treatment will receive 16 full-phenotyping visits including sampling for biobanking. During hospitalisation the planned blood sampling rate in total is 35 ml at each visit. The total amounts and/or sampling dates may differ according to the ethics committee's regulations for different study centers. At follow-up visits, the clinical assessment includes an update of the medical history and recent medical events from which additional clinical data is collected (i.e. outpatient CT-scans, echocardiography, external laboratory data). Clinical symptoms are recorded and a physical examination will be performed. Vital signs are recorded and routine blood testing and biosampling is continued. Quality of life is measured with patient-reported outcome questionnaires. Follow-up visits at months 3 and 12 are "deep phenotyping" visits with a comprehensive and detailed set of examinations. In the following visits at months 24 and 36, only examinations with pathologic results from the last deep phenotyping visit at month 12 will be performed. A shorter follow-up visit to record quality of life, recent medical events and with a reduced number of examinations focusing on cardiorespiratory performance will take place at month 6. In case of relevant medical events, new medical information or changes in the participant´s health status, an unscheduled visit can take place anytime within the entire study period. Data collection during follow up includes standardized quality of life assessment including PROMIS® (Patient-Reported Outcomes Measurement Information System). The pulmonary characterization will include body plethysmography, diffusion capacity, respiratory muscles strength measurement, spiroergometry, capillary blood gas analysis and lung imaging studies (low-dose Computed Tomography (CT), Magnetic Resonance Imaging (MRI) of the lung). Cardiological phenotyping includes echocardiography, electrocardiogram (ECG), 24h-ECG, 24h-blood pressure monitoring, stress cardiac MRI and pulse wave analysis. Neurocognitive testing includes brain MRI, electroencephalogram (EEG), somatosensory testing, refractometry (Visit 3 and 12 months), physical activity test, neurocognitive tests, somatosensory phenotyping, taste- and smell-test. Endocrinological phenotyping will incorporate Advanced Glycation Endproducts (AGE) reader, continuous glucose monitoring for 14 days, Air Displacement Plethysmography (ADP) or bioelectrical impedance analysis (BIA).
As part of the Coronavirus Infectious Disease 2019 (COVID19) pandemic, the hospital care system is facing a major strain. Patients with SARS-Cov2 (severe acute respiratory syndrome coronavirus 2 ) infection can worsen very quickly, possibly presenting, within hours, severe respiratory failure requiring urgent specialized care. Therefore, it is essential to develop emergency assessment tools to assess relevant criteria to decide which patients must be kept under hospital monitoring and which patients can be treated on outpatient care. The aim of this study is to assess the efficacy of STST in the decision to hospitalize patients consulting emergency department for a SARS-Cov2 infection. The investigators wish to show that the addition of this test to the usual hospitalization criteria reduces the proportion of patients hospitalized 48 hours after their first visit to the emergency department.
A series of microbiota were correlated inversely with the disease severity and virus load. Gut microbiota could play a role in modulating host immune response and potentially influence disease severity and outcomes.
The purpose of this study is to examine how patients with multiple myeloma (MM) have been impacted by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) pandemic. The study will use a questionnaire to further understand how patients are being affected and gather information in order to track the long-term effects of the coronavirus. The scope of the questionnaire will include, COVID-19 diagnosis and treatment, changes in myeloma treatment and care, clinical trial familiarity, health and fitness, and quality of life. This questionnaire is a follow-on to the "MM and COVID-19" questionnaire.
Best Practices to Prevent COVID-19 Illness in Staff and People With Serious Mental Illness and Developmental Disabilities in Congregate Living Settings is a research study aimed at developing, implementing, and evaluating a package of interventions specifically designed to reduce COVID-19 and other infectious-disease incidence, hospitalizations, and mortality among staff and adults with Serious Mental Illness and Intellectual and Developmental Disabilities in congregate-living settings.