View clinical trials related to Respiratory Viral Infection.
Filter by:COVID-19 (also known as Coronavirus) originated in the Wuhan China and has since spread to at least 159 countries around the world. It was declared a pandemic by the World health organisation on the 11th of March 2020. The cases in the United Kingdom continue to increase exponentially with up to 5 683 people diagnosed as on the 22nd of March 2020. It is estimated that 1 in 5 people diagnosed will require hospital admission and 1 in 20 intensive care treatment. By developing and improving diagnostic testing, we can accurately diagnose infected cases to triage appropriate treatments, identify individuals for quarantine in order to prevent transmission and obtain information regarding patient's immune systems. At present, the diagnostic test is a highly specific method of genetic amplification called 'Reverse Transcription - Polymerase Chain Reaction' or RT-PCR, which allows detection of very small amounts of genetic mutations caused by the COVID-19 virus. However, this method must be completed in highly specialised facilities, which are few and far between, increasing time to diagnosis (currently 48-72 hours), increasing exposure to non-infected individuals, and overburdening the analysing facilities. The ideal solution is a point of care (POC) test that can give results immediately. This study aims to harness the point of care technology of the SAMBA II device (Diagnostics for the Real World Ltd.), which is a CE-marked device that has been used with success in the identification of Human Immunodeficiency Virus (HIV), by amplifying genetic material without the need to increase and decrease temperatures during the amplification process. In the COVIDx study, 200 patients meeting the Public Health England's (PHE) inpatient definition of having suspected COVID-19 will be approached, consented and a sample from throat and nasal swab (combined) or tracheal fluid taken and tested using the SAMBA II method. A combination of the standard PHE RT-PCR and an additional validated laboratory PCR technique will be used as a control in line with standard clinical practice. Patients will undergo an additional serum tests on existing samples as made available after routine clinical assessments to monitor antibody response. Patients will be followed for clinical outcomes at 28 days post-admission.
Approximately 40 million people in the US are served by private wells, many of which are untreated. The investigators estimate that 1.29 million cases of gastrointestinal illness (GI) per year are attributed to consuming water from untreated private wells in the US. These cases of GI can cause a significant burden in terms of health care costs and lost work/school days, as well as increased risk to developing longer term health complications. This impact is magnified when accounting for vulnerable populations such as children under the age of 5, the elderly and the immunocompromised. The investigators are preparing to conduct the first household randomized controlled trial (RCT) to investigate whether consuming well water treated by ultraviolet light (UV) compared to consuming untreated private well water decreases the incidence of self-reported gastrointestinal illness and respiratory infections in children under 5. The investigators will collect illness symptom data using a combination of weekly text messages and online illness questionnaires.
The main goal of this research study is to use data from activity trackers (such as Fitbits), lab tests, and surveys to see if activity, sleep, and heart rate data can tell the difference between when someone has a respiratory illness (e.g., flu) and when they are feeling healthy. The research will also study an investigational flu@home test and app. If successful, results from the study could be used in the future to better identify people with respiratory illness. In addition, this study will test the accuracy of an at-home flu test kit compared to laboratory test results.
This study will evaluate a home-based approach to influenza infection control, using prepositioned home-based influenza self-test kits, telemedicine services, and rapid delivery of Xofluza (Baloxavir marboxil) for administration within 48 hours of symptom onset.
This study is a stepped-wedge cluster-randomized trial of on-site rapid testing and treatment for influenza in homeless shelters within the Seattle area to determine whether this strategy reduced the incidence of influenza in the shelter environment.
Respiratory Viral Infections (RVI) are particularly frequent in young children. Old data mention the deleterious role of some viruses such as the Respiratory Syncytial Virus in young children with cystic fibrosis (CF). However, recent epidemiological data on RVI in CF children are rare and the impact of most frequent viruses such as human rhinoviruses is usually not correctly evaluated. The aim of this study is to assess the frequency of lower and upper RVI during a 1 year follow-up in CF infants and to evaluate the impact of RVI at a clinical, microbiological and therapeutic level. Our hypothesis is that frequent and/or clinically severe RVIs have the worst impact in the short term and without any particular link with a specific virus as previously described.
A retrospective cohort of solid organ transplant (SOT) and hematopoietic stem cell transplant (HSCT) recipients will be assembled to determine the incidence of respiratory viral infections diagnosed during an inpatient admission in the first year post-transplant. A sub-cohort of patients that develop a respiratory viral infection within one year of transplantation will be leveraged to investigate factors associated with mortality in the three months after respiratory viral infection.