View clinical trials related to Influenza-like Illness.
Filter by:a multicenter, double-blind, randomized, placebo-controlled trial. Patients aged less than 60 years old with no previous medical history consulting the emergency department for covid and covid-like illness and who were not hospitalized were included. Those who have known allergy or severe side effect on the study drugs and those who refused to consent were excluded. Pregnant women were not included. For all the included patients, a PCR test for the detection of SARS COV2 was realized. Patients were assigned in a 1:1 ratio to the treatment group or the placebo group. The treatment group received two pills in the morning containing Vit C Vit D zinc and minerals and one pill of 2 mg of melatonin in the evening . Patients from the placebo group received three similar pills . The pills were identical in color, taste, smell, consistency, and container
Influenza is a seasonally-epidemic viral infection causing 3-5 million severe illnesses and up to approximately 500,000 annual deaths around the world. Influenza-like illnesses (ILI) is a simple constellation of symptoms and signs that was introduced to capture influenza cases in surveillance system. The elderly are more susceptible to cancers and viral infections including influenza infection and complications that was attributed to the phenomenon of immunosenescence or age-associated decline of immune system activity. Biobran/MGN3 is a natural nutritional supplement that was shown to exhibit potent immunomodulator effect such as enhancement of natural killer cell (NKC) activity and up-regulating the production of cytokines such as tumor necrosis factor-α (TNF- α), interferon-gamma (IFN-γ) and -lambda (IFN-λ). The protective effect of Biobran/MGN-3 against viral infection such hepatitis C virus (HCV) and human immunodeficiency virus (HIV) as well as several cancer types has been previously reported in experimental animal models and humans. The objective of the current study was to investigate the effect of Biobran/MGN-3 on some innate immune system components and the incidence of ILI in the older adult population. The studied innate immune system included NKC activity and the expressions of intracellular viral nucleic acid sensors such as retinoic acid-inducible gene 1 (RIG-1), melanoma differentiation-associated protein 5 (MDA5) and some of their downstream signals such as ISG15 and MX1.
This is a Phase 2b, multi-center, double-blind, randomized, placebo-controlled, parallel-group study of NKT versus placebo in otherwise healthy adults presenting with acute uncomplicated ILI due to influenza or other respiratory viruses in a community setting.
This study uses a prospective cohort design to investigate if the seasonal influenza vaccine is equally effective when given early and late before the proceeding influenza season. All health care workers will be vaccinated for seasonal influenza either 3 months before or 1 month prior to the start of the influenza season. HCWs that consent to take part in the study will have 4 blood samples taken for an antibody check. The initial antibody checks will be done just prior to vaccination as well as 2 weeks after vaccination. Subsequent samples will be taken at the peak of influenza season and at the end of the influenza season. HCWs that develop ILI during the course of the influenza season will be asked to complete a questionnaire and oropharyngeal self-swab. HCWs will also provide exhaled breath samples and wear a mask in order to evaluate novel non-invasive methods for diagnosis of influenza. Influenza positive and negative inpatients identified through the University of Leicester's laboratory system will also be asked to provide breath samples to evaluate this technique for the diagnosis of influenza.
Coronavirus Disease 19 (COVID-19) represents an unprecedented challenge to the operations and population health management efforts of health care systems around the world. The "Pandemic Research Network (PRN): Duke Community Health Watch" study leverages technology, clinical research, epidemiology, telemedicine, and population health management capabilities to understand how to safely COVID-19. The target population is individuals in the Duke Health region as well as individuals beyond the Duke Health region who have flu-like symptoms, a viral test order for COVID-19, confirmed COVID-19, or concern for exposure to COVID-19. A subgroup of particular interest within the target population is health care workers (HCW) and families of HCW. Community members will enroll in the study electronically and for 28 days will be reminded via email or SMS to submit signs and symptoms related to COVID-19. Participants who report symptoms will be provided information about COVID-19 testing (if needed) and established mechanisms to seek care within Duke Health. Instructions for telemedicine and in-person visits, which is available publicly at https://www.dukehealth.org/covid-19-update, will be presented to participants. Participants who are unable to report symptoms independently may be contacted via telephone by Population Health Management Office (PHMO) or Clinical Events Classification (CEC) team members. Data collected through the "Pandemic Response Network (PRN): Duke Community Health Watch" study will be used for three objectives. - First, to characterize the epidemiological features of COVID-19. Specifically, we will have a high-risk subgroup of HCW and families of HCW that we enroll. - Second, to develop models that predict deterioration and the need for inpatient care, intensive care, and mechanical ventilation. - Third, to develop forecast models to estimate the volume of inpatient and outpatient resources needed to manage a COVID-19 population. The primary risk to study participants is loss of protected health information. To address this concern, all data will be stored in Duke's REDCap instance and the Duke Protected Analytics Compute Environment (PACE).
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 is a Phase 2b, multi-center, double-blind, randomized, placebo-controlled, parallel-group study of NKT versus placebo in otherwise healthy adults presenting with acute uncomplicated ILI due to influenza or other respiratory viruses in a community setting.
To asses the effect of the probiotic and influenza vaccination alone and combination on enhancing immune response to influenza-like illness (ILI) and reducing ILI incidence in the elderly
Vaccines work by stimulating the body to produce a high-quality, rapid and specific immune response upon exposure to infection by a particular disease-causing microorganism - the microorganism targeted by the vaccine. Evidence is emerging that some vaccines may have additional 'non-specific effects' (NSEs); that is, effects on the immune system beyond the direct protection against the diseases for which the vaccines were developed. It has been proposed that rabies vaccine has protective NSEs in people and animals, with receipt of rabies vaccine in children associated with a reduced risk of meningitis and cerebral malaria in one study, and a history of rabies vaccination in free-roaming dogs associated with increased survival rates in another study. Studies in mice have shown that prior rabies vaccination protects against bacterial sepsis. The biological mechanism of action of any such NSE of rabies vaccine is unknown. Other vaccines with reported protective NSEs (e.g. bacillus Calmette-Guerin vaccine against tuberculosis, a disease caused by Mycobacterium tuberculosis) have been show to reprogram the immune system, leading to enhanced protection against infection with disease-causing microorganisms unrelated to M. tuberculosis. In this study, we will test the hypothesis that rabies vaccine has non-specific protective effects against common infectious disease (CID) syndromes (upper respiratory illness, diarrhea and fever) in a population of veterinary students. We will randomly assign previously-unvaccinated students who volunteer for the study to receive a primary course of three injections of rabies vaccine (experimental group) or an identical course of three injections of sterile water (control group). Participants will not know to which group they have been assigned. We will ask all participants to report episodes of illness through an online survey each week for 26 weeks, and will also record all clinically- and laboratory-confirmed cases of illness with CID syndromes. We hypothesize that rates of self-reported new episodes of CID illness over 26 weeks will be at least 25% lower in the experimental group, relative to the control group.
The purpose of this study is to determine if different influenza vaccines produce different outcomes in nursing facility residents receiving the required annual influenza vaccination.