View clinical trials related to Influenza.
Filter by:The study is aim to evaluate the safety and immunogenicity of one dose TetraFluvac TF vaccine (15 μg HA per strain per dose) of the GPO seasonal quadrivalent inactivated split virion influenza vaccine in healthy adults aged 18 years and above over 90 days post-injection.
The study is divided into 2 parts: Part 1 and Part 2. The purpose of Part 1 of this study is to generate sufficient safety, reactogenicity, and immunogenicity data to enable selection of an mRNA-1083 vaccine composition and dose level to evaluate in a subsequent Phase 3 clinical trial in adults. The purpose of Part 2 of this study is to generate safety and immunogenicity data for additional mRNA-1083 compositions and dose levels in young adults ≥18 years and <50 years of age.
Many cancer patients are highly susceptible to infection and respond poorly to vaccination. This observational study will determine molecular and cellular features of immunity to viral pathogens in participants with cancer and compare them to healthy controls. The aim is to identify how antiviral immunity in participants with cancer differs from that in healthy participants to understand why cancer patients are more susceptible to infections. In this context, the investigators will also evaluate immunity to medically indicated severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and seasonal influenza vaccine received by study participants during standard care (vaccines are not part of the study).
The main purpose of the study is to evaluate the safety, reactogenicity, and the humoral immunogenicity of mRNA-1010 and comparator influenza vaccines against homologous influenza A and B strains at Day 29.
To explore the immunogenicity and safety of quadrivalent split influenza virus vaccine in children aged 3-8 years with two doses and one dose. This clinical trial was designed as a self-controlled trial to observe the immunogenicity and safety. This study was an exploratory study. Sample size and test grouping: In this study, a total of 360 subjects were enrolled in a self-controlled trial design. In this study, 360 subjects aged 3 to 8 years old were enrolled. According to their previous influenza vaccine vaccination status, they were assigned to experimental group 1 (no previous influenza vaccine), experimental group 2 (one dose of influenza vaccine previously) and experimental group 3 (two or more doses of influenza vaccine previously), with 120 cases in each experimental group. All subjects received one dose of tetravalent influenza virus lysis vaccine on day 0,28 for immunogenicity and safety observation.
The study aims to characterize the community burden (including the clinical features) and transmissibility of SARS-CoV-2 within the context of a functional antibody response. In addition,the study will assess the effect of the interaction of SARS-CoV-2 with influenza virus and RSV on disease severity and transmission dynamics. A household-level prospective cohort study will be conducted in one rural and one urban community located in Mpumalanga Province and North West Province, respectively. The study will be conducted for 12 months of intensive follow up (July 2020 to August 2021) with a post-intensive follow-up continuing for a further 16 months (until December 2022). Two hundred households; 1,000 study participants of all ages; will be randomly selected from a list of 327 hoseholds that participated and successfully completed a 10-months follow-up period in a study similar to that currently proposed, but directed at community burden and transmission dynamics of influenza, respiratory syncytial virus and other respiratory pathogens. Each household and household member will be enumerated and the HIV infection status and the level of immunosuppression of HIV-infected individuals will be assessed. Each household member will be followed twice per week during the intense follow-up period (12 months) of the study. During this period upper respiratory tract samples will be collected irrespective of presence of symptoms and data on key symptoms, healthcare seeking, hospitalization and death will be captured at each follow up visit. Respiratory samples will be tested by reverse transcriptase real-time polymerase chain reaction (rRT-PCR) for SARS-CoV-2, influenza and RSV, and selected samples will be cultured and sequenced. An infection risk questionnaire will be administered to all study participants at enrollment and every month thereafter. Sera will be collected at enrollment and every 2 months during the 12-month intense follow-up period from all participants. In addition, sera will be collected every 2 months for a further 6 months following the 12-month intense follow-up period from study participants that tested positive for SARS-CoV-2 by rRT-PCR on respiratory specimens at 14, 16 and 18 months and from all study participants at 18 months. Sera will be tested for the presence of SARS-CoV-2, influenza and RSV antibodies. Wearable proximity sensors will be deployed for 8-12 days in each household over the 6-month intense follow-up period.
The complexities of the immune system make measuring the impact of dietary interventions upon its function challenging. The immune system is highly responsive to environmental influences, including the diet. An individual's diet provides the energy required to mount a strong and protective immune response, the building blocks required for synthesis of immune mediators such as antibodies and cytokines, and can also indirectly affect immune function via changes in the gut microbiome. Immune function varies across the lifecourse, with a well understood decline in immune function with age, resulting in impaired vaccination responses and an increased risk of infections and of severe complications and mortality arising from common communicable diseases such as influenza. This impaired immunity with ageing is known as immunosenescence and this affects both innate and acquired arms of the immune system.
Influenza outbreaks are a prevalent event in nursing homes (NHs). We will study baloxavir compared to oseltamivir when used for influenza prophylaxis when facilities identify an index incident case of influenza. This study will help guide nursing home's decision making and demonstrate the effectiveness of a novel antiviral for preventing influenza outbreaks.
Blood samples are collected and stored in a biobank for later analysis of circulating substances in peripheral blood and genetic variations in patients with severe critical illness and risk of death. The aim is to analyze stored samples in order to identify substances that can help predict the outcome of critically ill patients, but also to optimize treatment and possibly prevent serious illness and death in the future.
Influenza causes substantial morbidity and mortality worldwide despite available antivirals and vaccines. SAB Biotherapeutics, Inc. has developed SAB-176, an anti-influenza human immunoglobulin (transchromosomic [Tc] bovine-derived) intravenous therapeutic to treat past and current strains of Type A Influenza and Type B Influenza. This study will evaluate the safety, tolerability, and pharmacokinetics of SAB-176 in healthy participants.