View clinical trials related to RSV Infection.
Filter by:The goal of this observational study is to compare the FINDER FLU A/B, RSV, SARS-CoV-2 Test to an FDA-cleared device. The study will utilize prospectively collected de-identified nasopharyngeal samples obtained from both pediatric and adult populations from subjects presenting with symptoms of respiratory illness. The main question it aims to answer are: • the study is to validate that the device intended use in terms that the device's performance meets the criteria for substantial equivalence with a predicate and satisfies the statutory criteria for Clinical Laboratory Improvement Amendments (CLIA) waiver.
The goal of this observational study is to learn about the influence of pre-existing mucosal immunity, i.e. antibodies and immune cells that are present at the nasal mucosa before infection, on the infectious viral load after infection with SARS-CoV-2, influenza virus and RSV. The investigators will include app. 320 participants which will be followed for up to 17 months. During this time, the investigators will monitor their nasal mucosal antibodies at regular intervals and compare them to their infectious viral load if they are infected with SARS-CoV-2, influenza virus or RSV. Participants are invited to take a test for SARS-CoV-2, influenza virus or RSV in case of respiratory symptoms. If participants are positive the investigators will follow their viral load kinetics by taking nasopharyngeal swabs every 2-3 days. The investigators will also record the duration and strength of the following symptoms: - Cough - Fever - Tired - Sore throat - Difficulty breathing - Respiratory distress - Headache - Loss (or alteration) of smell - Loss (or alteration) of sense of taste - Myalgias - Chills - Subjective fever - Pink sputum (or coughing up blood) - Thoracic pain - Runny nose - Abdominal pain - Nausea - Vomiting - Diarrhea - Constipation - Irritated or watery eyes - Rashes - Other
This is a randomized, double-blind, placebo-controlled Phase Ib/IIa study to evaluate the safety, tolerability, efficacy, pharmacokinetics, and immunogenicity of XW001 inhalation in children with RSV infection in China
The study will be a multicenter, hospital-based retrospective study. We plan to collect the clinical and laboratory data among all hospitalized ARTI cases in three hospitals in Wuhan from June 1, 2020 to May 31, 2023 and then analyze the epidemiological and clinical characteristics of RSV infection, clarify the gene types of epidemics under 5 years old children after the outbreak in Wuhan, China.
This is a comparative prospective diagnostic accuracy study reported according to the STARD guidelines. Citizens at an outpatient COVID19 test facility at Testcenter Danmark Valby will be invited to participate in the study on a volunteer basis. The enrolled participants will have the planned oropharyngeal swab performed in the test center and sent for a SARS-CoV-2 RT-PCR test at TestCenter Danmark, Statens Serum Institut, Copenhagen, Denmark as usual. Besides the planned oropharyngeal swab performed in the test center, the participants will have additional specimens collected in form of saliva, nasopharyngeal-, nasal-, and oropharyngeal swabs. These will all be used for the detection of nucleic acids from the four most common strains of influenza (B Yamagata, B Victoria, A H1N1 and A H3N2), SARS-CoV-2 and RSV A/B. Further we will measure immune mediating cytokines, chemokines, and interleukins in the different specimens. These analyses will be performed at Technical University of Denmark (DTU).
The goal of this observational study is to evaluate new non-invasive passive surveillance technologies, Level 42 AI imPulse™ Una and TOR devices for the detection of COVID-19, Flu, and/or RSV in asymptomatic and symptomatic individuals over age of 18 undergoing COVID-19, Flu, and/or RSV screening and testing at BAMC Ft Sam Houston, TX; with and without COVID-19, Flu, and/or RSV. The hypotheses are: (H1) The imPulseTM Una and the imPulseTM TOR e-stethoscopes have at least a similar discriminative and detection ability among symptomatic and asymptomatic COVID-19 carrier versus those not infected compared to gold standard RT-PCR. We will operationalize and deploy both the imPulseTM Una and imPulseTM TOR e-stethoscope into DoD use-cases and compare their usability between the devices. (H2) Identify if the imPulseTM Una and the imPulseTM TOR e-stethoscopes have at least a similar discriminative and detection ability among symptomatic and asymptomatic Respiratory Syncytial Virus (RSV), Influenza and Long COVID carriers versus those not infected compared to gold standard Rapid RSV and Flu Antigen Tests, or RT-PCR and molecular assays. We will operationalize and deploy both the imPulseTM Una and imPulseTM TOR e-stethoscope into DoD use-cases and compare their captured traces in the early identification of disease/illness analyzed by the devices built in algorithms. (H3) In the mid to long-term, this approach will also be explored as a diagnostic system to explore pursue the physical (structural and mechanical) properties of cells and tissues that maintain normal cell behavior (motility, growth, apoptosis), and the critical importance of the ability of cells to sense and respond to mechanical stresses, which will be operationally critical for assessment of both traumatic and unconventional exposures in austere environments. Participants will: - Be consented; - Be screened for COVID-19, Flu, and/or RSV symptoms according to BAMC's current screening procedures; - Have study data collected; - Complete a symptoms questionnaire; - imPulseTM Una and TOR e-stethoscopes examination will be conducted; - Participants will be compensated for completing all study requirements. (Active-Duty personnel must complete the study procedures while off-duty in order to receive compensation.)
This is a non-interventional study to perform the clinical performance evaluation of the Starfish Test using prospectively collected matched nasopharyngeal and nasal swab samples from the same donor.
This observational clinical trial is designed to confirm whether RESP™ Biosensor could be deployed to support clinical decision making in challenging pediatric cases, minimize clinician-to-clinician variability in lung sound interpretation, obviate the need to disrupt change of shift or chart rounds with physicians, and create a durable archive of the patient's lung sounds for longitudinal comparison within or across hospitalizations.
Approximately 8% of all births occur between 30-36 weeks of gestation ('moderate-late' prematurity). Respiratory tract infections (RTI) and wheezing illnesses disproportionally affect preterm infants resulting in a 1.5-2 fold higher hospitalisation rate during the first years of life compared to term born children. Besides prematurity, several other postnatal modifiable influencing factors are associated with increased risk of respiratory morbidity and impaired pulmonary development. These factors include RTI, rapid weight gain, air pollution, tobacco smoke exposition, vitamin D deficiency, maternal stress and antibiotic usage. The investigators hypothesize that a follow-up program aiming at prevention of modifiable influencing factors can reduce respiratory morbidity in moderate and late prematurity. Objectives: To reduce respiratory disease burden in moderate-late preterm infants in the first 18 months of life
This study is a randomized, double-blind, sponsor-open, placebo-controlled study. It will assess the safety, tolerability, and pharmacokinetics of orally administered single and multiple doses of EDP-323 in healthy adult subjects.