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Biological Aging clinical trials

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NCT ID: NCT06333301 Not yet recruiting - Biological Aging Clinical Trials

Translational Initiative to Map Epigenetics in Sleep

TIME-ZZZ
Start date: April 2024
Phase:
Study type: Observational

The primary aim of TIME-ZZZ is to explore the relationship between chronotype, incidence of depression and biological age, and whether individuals working "out-of-phase" with their chronotype are more likely to exhibit signs of depression and accelerated biological aging.

NCT ID: NCT05880095 Recruiting - Biological Aging Clinical Trials

Healthy Aging Through Time- Restricted Eating in Adults With Overweight/Obesity and Incipient Liver Disease: ENSATI

ENSATI
Start date: July 5, 2023
Phase: N/A
Study type: Interventional

The goal of this clinical trial is to evaluate the effect of a time-restricted eating (TRE) regimen on hallmarks of aging, in comparison with traditional caloric restriction and an unrestricted diet in adults with overweight/obesity. Investigators aim to assess: 1. If TRE is sustainable over 6-months. 2. If TRE positively affects metabolism and body composition 3. If TRE improves circadian rhythm/sleep. 4. If TRE benefits cognitive function, mood and quality of life (QoL). 5. If these beneficial effects are associated with changes in molecular hallmarks of aging. Participants will be randomly allocated to: - an unrestricted Mediterranean diet group (MedD) - a energy-reduced Mediterranean diet group (MedD_RC) - or to an unrestricted Mediterranean diet with TRE group (MedD_TRE) Intervention will be maintained for 6 months, and there will be an additional 6-months period of follow-up to assess the maintenance of the intervention without supervision. Changes from baseline in phenotypic and molecular hallmarks of aging, including: chronobiology, quality of life, cognition, metabolism and epigenetics among groups over the follow-up will be analyzed.

NCT ID: NCT05760547 Not yet recruiting - Biological Aging Clinical Trials

The Translational Initiative to Map Epigenetics in Aging (TIME-A)

TIME-A
Start date: March 8, 2023
Phase:
Study type: Observational

The Translational Initiative to Map Epigenetics in Aging (TIME-A) study aims to advance our understanding of the connections between epigenetics, lifestyle, demographics, and health and aging.

NCT ID: NCT04224038 Recruiting - Biological Aging Clinical Trials

The Inspire Bio-resource Research Platform for Healthy Aging INSPIRE Platform

INSPIRE
Start date: October 16, 2019
Phase:
Study type: Observational [Patient Registry]

Since aging is a systemic (not organ-specific) phenomenon, the main objective of Inspire Bio-resource Research Platform for Healthy Aging is to build a comprehensive research platform gathering biological, clinical (including imaging) and digital resources that will be explored to identify robust (set of) markers of aging, age-related diseases and IC evolution. The Inspire Platform will gather data and biospecimens from subjects of different ages (from 30 years or over - no upper limit for age) and functional capacity levels (from robust to frail to disabled) over 10 years.

NCT ID: NCT03440099 Recruiting - Biological Aging Clinical Trials

Sex-specific Adaptation to Resistance Training in Older Adults

Start date: January 1, 2018
Phase: N/A
Study type: Interventional

In general, men and women experience differing degrees of age-related decreases in physical function, with women having a greater prevalence of functional limitations and disability. A key predictor of this decrease in functional capacity is the reduction in leg muscle maximal power (product of force and velocity), which can be improved with exercise training. However, the development of exercise interventions to optimally improve skeletal muscle function in older adults has been difficult, in part because we now know that men and women respond differently to the same exercise training stimulus. In fact, the fundamental mechanisms by which habitual exercise improves physical function in older adults are still not well understood. The proposed studies are designed to address these knowledge gaps by examining the molecular and cellular mechanisms underlying the response to two distinct exercise training paradigms, and determining how these responses differ between older men and women. The investigators hypothesize that molecular, cellular and whole muscle contractile performance will be most improved in men by traditional low-velocity, high-load resistance training, and in women by high-velocity, low-load power training. Moreover, sex-specific structural responses in myofilament remodeling, protein expression and post-translational modifications will explain these sex-specific performance adaptations to each modality. To test these hypotheses, data will be gathered from 50 healthy, sedentary older men and women (65-75 years) prior to and following a 16-week unilateral exercise training program in which one leg undergoes resistance training and the other power training. The Specific Aims of this project are to identify the sex-specific effects of low-velocity resistance training versus high-velocity power training on: Aim 1) skeletal muscle function at the molecular, cellular and whole muscle levels, and Aim 2) protein expression and modification as well as size at the molecular and cellular levels. The within subject, unilateral intervention design provides a powerful model to minimize the effects of between-subject variability, and the translational approach will take advantage of our unique expertise with state-of-the-art measures from the molecular to whole body levels.

NCT ID: NCT03213340 Completed - Biological Aging Clinical Trials

Effects of Phytonutrients Upon Muscle Perfusion in Response to Feeding

Start date: September 14, 2017
Phase: N/A
Study type: Interventional

This is a random order cross over design trial to evaluate the efficacy of select nutritional ingredients on enhancing muscle perfusion in response to an acute meal stimulus.

NCT ID: NCT02629666 Completed - Physical Activity Clinical Trials

Exercise Referral Schemes Enhanced by Self-Management Strategies to Battle Sedentary Behaviour

SitLESS
Start date: July 2016
Phase: N/A
Study type: Interventional

The increase of the elderly population leads to increased prevalence of frailty, risk for poor health outcomes, and related health and social care costs. Lack of physical activity (PA) and established sedentary behaviours (SB) constitute an additional burden, as they are related to progression of chronic disease and disabling conditions. An existing initiative to battle SB and insufficient PA levels are exercise referral schemes (ERS) implemented in primary care, where insufficiently active individuals are referred to a third party service (sports centre or leisure facility) that prescribes and monitors an exercise programme tailored to the patients' needs. ERS had shown improvements in PA in the short-term, but may have limited power to change SB and produce long-term effects. Thus, ERS might be enhanced by self-management strategies (SMS) to promote behavioural change. Such strategies based on social cognitive theory have been shown to increase self-confidence, power to act, and involvement in exercise. In a first stage, a systematic review, focus groups and a feasibility study will be conducted. Then, a three-armed pragmatic randomized controlled trial (RCT) will assess the long-term effectiveness (18-month follow-up) of a complex intervention on sedentary behaviour (SB) in an elderly population, based on existing ERS enhanced by self-management strategies (SMS). It will be compared to ERS alone and to general recommendations plus two educational sessions. The RCT will include 1338 subjects and will have a follow up of 18 months. The effect on SB will be measured as sitting time and the number of minutes spent in activities requiring ≤ 1.5 Metabolic Equivalent Tasks, and PA as daily counts per minute and intensity of exercise, and daily step counts. Secondary outcomes will include: physical function, healthcare use and costs, anthropometry, bioimpedance, blood pressure, self-rated health and quality of life, activities of daily living, anxiety, depressive symptoms, social network, physical activity self-regulation, self-efficacy for exercise, disability, fear of falling, loneliness, executive function, and physical fatigue. In a subsample, the level of frailty-associated biomarkers and inflammation, and sarcopenia-associated markers of muscle quality will be analysed. A process evaluation will be performed throughout the trial. SITLESS will assess policy makers in deciding how or whether ERS should be further implemented or restructured in order to increase its adherence, efficacy and cost-effectiveness.