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The purpose of this study is to examine the role of the bacterial environments and metabolites in the early detection and prediction of ovarian cancer development. Vaginal swabs and stool samples will be collected from healthy volunteers, or those without a known ovarian cancer diagnosis or genetic ovarian cancer risk. These samples will be compared to samples from participants with increased cancer risk and ovarian cancer diagnoses.
The purpose of this study is to characterize the absorption, metabolism and routes of excretion of RE104 and its metabolites in healthy volunteers . This study will quantify drug and metabolites in blood, urine, and feces samples collected before study drug administration and through at least 168 hours after SC dosing of \[14C\]-RE104.
The purpose of this study is to assess the safety and tolerability of PRX019 in healthy adult participants.
This is a first-in-human study to evaluate safety, pharmacokinetics, and pharmacodynamics of single and multiple dose levels of KT-621 in healthy male and female adult participants.
The goal of this clinical study is to evaluate safety of Xenon gas inhalation in healthy volunteers. This first phase safety clinical study is part of evaluation of the xenon gas inhalation as a therapy for neurodegenerative diseases, such as Alzheimer's disease. The investigators will administer xenon gas in low concentration to people via anesthetic machine, observe participants for sedation and any unexpected side effects, collect blood at each visit and measure the vital signs. There are four treatment groups in the study, which correspond with the duration of xenon gas treatment. Individual participation will last approximately 14 days over five visits: screening visit accompanied by the electrocardiogram, blood, and urine test; treatment visit for xenon gas inhalation treatment; and three follow up visits.
To Assess the Effect of Severe Hepatic or Renal Impairment on the Pharmacokinetics of Bemnifosbuvir/Ruzasvir After a Single Dose
This is a two-part study of BIO 300 Oral Suspension in healthy male and female volunteers. The first part is a multiple ascending dose (MAD) study to test the safety, pharmacokinetics (PK) and pharmacodynamics (PD) of the drug when given as daily doses over 14 days. The study will enroll three cohorts each receiving a different daily dose: 2000 mg, 3000 mg, or 4000 mg. A fourth group may be added depending on results on the first three cohorts. Each cohort will include 10 participants (5 men, 5 women), with at least 8 completing all study steps. Participants will follow a special diet low in soy-based foods and will fast before certain doses. Blood samples and health checks will be done throughout the study to assess safety, drug is absorption and distribution in the body (PK), and its effects (PD). Safety will be reviewed after each group finishes to decide if the next dose level is safe to proceed. The second part of the study is a food effect study to examine how food effects the PK of a single dose of BIO 300 Oral Suspension. This study will enroll 16 participants (8 men, 8 women) and will be split into two groups: one group will take the drug after fasting for 10 hours and the other will take the drug after eating a high-fat meal. After a 7-day break, participants will switch conditions (the previously fasted group will take the drug with food, and the previously fed group will take the drug after fasting). Blood samples and health checks will measure how food influences drug absorption (PK) and safety. Both the MAD study and food effect study aim to ensure the drug is safe and provide data on how it behaves in the body under different conditions.
This is a single-visit non-invasive study of healthy volunteer subjects. Brain activity will be measured with infra-red light sensors attached to a cap worn on the head, while both ears are gently stimulated with plastic filaments.