15 Clinical Trials for Various Conditions
The primary purpose of this study is to assess changes in epigenetic markers of aging and physiological parameters in overweight older adults consuming a mixed greens-based supplement over a 30-day period in a randomized crossover design.
This study aims to assess the impact of hyperbaric oxygen therapy on a number of outcomes, including epigenetic aging, inflammation, and cellular health.
This is a prospective, clinical pilot study (n=20) to evaluate the impact of a ketamine treatment for Major Depressive Disorder (MDD) or Post Traumatic Stress Disorder (PTSD) on epigenetic aging by the TruAge epigenetic age laboratory test.
Assessing the effects of Quercitin and Dasatinib over a 16 week period on participatns' epigenetic biological aging. The patients are being tested at baseline, halfway point, and after the trial period.
This is a single center, prospective study to evaluate correlations between epigenetic aging (as measured via DNA methylation) and NAD+ levels in healthy volunteers.
The TRIIM-X trial is an expanded pilot clinical study that will evaluate a personalized combination treatment regimen for thymus regeneration. The thymus is a part of the immune system that declines markedly with age, and regenerating it may prevent or reverse key aspects of immunosenescence (immune system aging) and potentially prevent or reverse key parts of the aging process more generally. The study will evaluate biomarkers for epigenetic aging and immunosenescence, as well as evaluate established clinical measures and risk factors for prevention of physical frailty, cancer, cardiovascular disease, diabetes, dementia, and also infectious diseases, including flu and COVID-19. The study uses multiple agents in combination with personalized doses of recombinant human growth hormone (somatropin), metformin, and DHEA, in a similar manner to how the combination treatment was applied in the earlier TRIIM trial at Stanford, which demonstrated strong statistical significance for the primary efficacy endpoints that will be evaluated in TRIIM-X. Somatropin is approved by the FDA for adult growth hormone deficiency and its use in the study is guided by prior safety data established for that use and also based on safety data available on its prior use in the TRIIM trial and in clinical practice in healthy elderly individuals. There will also be control groups that enable testing of biomarker variability and the contribution of individual medications within the combination treatment. The objective of the study is to obtain information needed for designing an effective personalized and adaptive treatment regimen for a larger and more diverse study population, and to obtain additional proof of principle for the new use of the medications and biomarkers for preventive medicine. The duration of treatment in the TRIIM-X trial will be 12 months.
Design: Single-center open-label clinical trial. Objective: Evaluate if tildrakizumab reverses peripheral blood leukocyte DNA methylation (epigenetic aging) observed in chronic psoriasis. Number of subjects: 30. Intervention group: 20 (10 men, 10 women) with moderate-to-severe psoriasis. Control group: 10 (5 men, 5 women) with other skin diagnosis. Population: \>35-year-old subjects will be recruited from Brown Dermatology clinics. Biological samples: Blood samples will be collected for all subjects at screening, and weeks 16, 28 and 52. Urine pregnancy tests will be performed for females of childbearing potential at weeks 4, 16, and 28. Serum pregnancy test and QuantiFERON test for tuberculosis will be performed at screening visit. Safety parameters: Adverse events, and screening, week 16, week 28 blood samples laboratory results. Females of childbearing potential: serum pregnancy test at screening visit, urine pregnancy test at weeks 4, 16, and 28. Data Safety Monitoring Board will review data and laboratory flags quarterly. Study center: Rhode Island Hospital, Providence, RI, USA. Trial Duration: One year.
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.
Our greatest public health challenge is obesity and the co-morbidities of metabolic syndrome (MetS). Age is an established risk factor for MetS and specific to women, data indicates that the prevalence of MetS increases substantially with the menopausal transition with postmenopausal women having a 60% increased risk of MetS. Menopause also contributes to reductions in strength, physical function and often psychological well-being (e.g. fatigue). Obese individuals also have: a) impaired immune function and chronic inflammatory responses associated with changes in the white blood cell population in blood and fat tissues; and, b) increased secretion of and signaling by proteins in their fat cells. Weight loss, which requires an energy deficit through increased physical activity and/or caloric restriction (EX+CR), reduces risk for MetS in older sedentary obese women by reducing insulin resistance and chronic systemic inflammation. Science and clinical practice will be advanced by examining the molecular mechanisms by which EX+CR affects risk for MetS in older women. The primary aim is to determine if CD4+ T cells will report the differential epigenetic reprogramming of relevant gene expression associated with metabolic indices resulting from EX+CR induced weight loss in older women known to be at risk for MetS. This pilot data will be used to generate an NIH proposal of the same topic. A secondary aim is to assess the impact of weight loss on physical function and psychological well-being which will provide pilot data for an additional grant proposal regarding weight management in postmenopausal women.
This study is being conducted to confirm whether skin tape stripping methodology can identify changes in gene expression (i.e. whether different genes are turned on to make proteins) in aged skin after use of a retinoid.
This is a prospective, interventional, double-blinded placebo-controlled study of up to 40 participants to evaluate the effect of a botanical formulation on inflammatory biomarkers and epigenetic age.
This is a trial to assess the effects of the Trulacta supplement on biological age, sleep quality, immune system and wellness markers.
This is a prospective, interventional, single-arm, open-label pilot study of 50 patients to evaluate the effect of a polyphenol-rich nutritional supplement on epigenetic and cellular markers of immune age.
Topical Rapamycin ointment will be applied to participant forearms to test whether epigenetic changes in the skin are elicited.
This trial is designed to study the effects of monthly transfusions of young healthy male donor plasma on biological age as assessed by DNA methylation levels, and changes in cognitive, renal, and pulmonary function, muscle strength, telomere length, testosterone, estrogen, DHEAS, IGF-1, high resolution C-Reactive protein, and expression of P16INK4a in peripheral blood T lymphocytes and skin biopsies.