8 Clinical Trials for Various Conditions
Background: - Biomarkers are substances in people s blood and tissues. They help researchers understand diseases and signs of aging. Scientists want to do more research on biomarkers to find ways to improve quality of life in old age. Objective: - To learn more about biomarkers and their relationship to aging. Eligibility: - Adults at least 20 years old who weigh at least 110 pounds and have a body mass index below 30. They must agree that their genetic samples can be collected, studied, and stored. Design: * Participants will be screened with medical history, physical exam, and blood and urine tests. They will have heart tests and nurse will assess their veins. They will fill out a questionnaire. * Participants will have a 2-day baseline visit. Then they will return every 2 years for up to 10 years. These follow-up visits will repeat the baseline visit: * Repeat of screening procedures. * Physical performance tests like balance and walking tests. * Leg and grip strength tests. * Health and mental state questions. * Memory and problem solving tests. * Cytapheresis. Blood will be removed through a needle in the vein of one arm and run through a machine. The blood will be returned through a needle in a vein of the other arm. * Visits may also include: * Magnetic resonance imaging scans. Participants will lie on a table that slides in and out of a machine that takes pictures. * Diabetes test. After fasting, participants will drink a sweet drink and give blood. * Breathing and walking tests. * Wearing a device that record physical activity. * Scan of the abdomen and the right leg. * A small amount of muscle tissue and/or skin removed.
The purpose of this study was to pursue statistical analysis on a series of molecular laboratory results obtained from chronic wounds. It elucidated diversity, quantification, and other aspects of microbial diversity in chronic wounds.
This is a study that will attempt to validate the process for detecting SARS-CoV-2 (COVID19) on a non-FDA-approved technology using self-collected saliva as the specimen. Investigators will compare self-collected saliva samples and healthcare-worker collected nasopharyngeal samples (Nasal swabs) to see if the self-collected saliva samples are similar in terms of diagnostic accuracy. Investigators will be performing this testing at the site where patients regularly go for COVID19 testing. There will be minimal risk of harm as consenting patients will only have to provide a small amount of saliva into a tube.
We will invite a convenience sample of up to 45 enrolled subjects to participate in an optional, self-administered blood specimen collection procedure to determine optimal procedures for collection.
The purpose of this research study is to validate (check the accuracy of) laboratory assays, intravenous catheter insertion, and equipment or devices and their reproducibility, which is necessary to perform high quality research on chronic diseases (obesity, pre-diabetes and type-2 diabetes, dyslipidemia, non-alcoholic fatty liver disease, cardiovascular disease, etc.), nutrition, and metabolism (the process by which a substance is handled in your body) at the University of Missouri. As technology changes and we start to use new testing methods, it is necessary to compare results from old tests, equipment and devices and new tests, equipment, or devices and the reproducibility of these measurements to make sure we are getting accurate results. Reproducibility means performing the same test more than once to see if the same results can be achieved each time.
Vikor Scientific Urine-IDTM is a molecular analysis technology which provides pathogen detection, quantification, and resistance gene identification. Urine-IDTM delivers its results through the technology platform Antibiotic Stewardship program (ABXAssist™), which provides results incorporating regional sensitivity and susceptibility patterns, medication costs, antibiotic spectrum of activity, and FDA guidance. This product aims to deliver prompt, patient-centered and value-based guidance to clinicians for antibiotic selection within 24 hours of delivery to testing facility. Proposed advantages of Vikor Scientific Urine-IDTM include: * Expeditious result (within 24 hours post-lab arrival) * Simultaneous detection of polymicrobial and monomicrobial infections * Identification of 49 most common antibiotic resistance genes * Provision of up-to-date regional sensitivity and susceptibility patterns * Provision of cost-sensitive treatment options and FDA guidance * Easy accessibility (mobile, web-portal and electronic health records Integration) This utility of this technology has yet to be investigated in a clinical study and could prove to be a viable alternative or adjunctive diagnostic tool to standard laboratory culture. Standard laboratory culture can take up to 7 days to return pathogen identification and antibiotic susceptibility, potentially delaying appropriate care and prolonging exposure to inappropriate empiric antibiotics. Our study aims to analyze the ability Vikor Scientific Urine-IDTM to improve time to identification of correct pathogen and accuracy of pathogen identification when compared to standard laboratory culture.
The investigators propose a cluster-randomized controlled trial (RCT) of computerized point-of-care alerts in the EHR to prevent errors related to laboratory monitoring at the initiation and continuation of drug therapy and a results management system to prevent errors related to the delay in follow-up of abnormal laboratory testing.
The primary focus of this study is to evaluate the role of Continuous Glucose Monitoring (CGM) with Levels Health software as a tool to provide feedback and accountability necessary to create sustainable behavioral changes in nutrition associated with improved metabolic health and resilience against chronic and infectious diseases.