10 Clinical Trials for Various Conditions
This study will enroll and randomly assign 30 sedentary, healthy overweight men and women to two groups. Participants will either start by consuming peanuts for 4 weeks, and then go on to exercise at high intensity intervals (HIIT) for 4 weeks, or the reverse order. The study will test and compare the effect of peanuts and exercise on inflammation and heart rate variability as indicators of heart health. Specifically, the study will measure inflammation in the blood because there is evidence that higher inflammation is found in heart disease patients. There is also evidence that inflammation is related to death as a result of heart disease in healthy individuals. Finally, there are ongoing trials targeting these markers to improve heart health. The study hypothesizes that peanuts and exercise will reduce inflammation. It is also expected to find less inflammation because exercise and peanut consumption activate a part of the nervous system that has been shown to cause a similar effect. Additionally, previous studies show that inflammation involves the mitochondria in the cell, the part of the cell that produces energy. For this reason, it is expected that exercise and peanuts will cause changes in the mitochondria. The study will test and compare mitochondrial activity in response to peanut consumption and exercise.
PRIME-Ataxia is a randomized controlled trial that aims to determine the feasibility and efficacy of an 8-week telehealth intervention of high intensity aerobic exercise prior to balance training compared to an 8-week telehealth intervention of low intensity exercise prior to balance training in people with spinocerebellar ataxias (SCAs). The investigators additionally aim to explore changes in motor skill learning on a novel motor skill task in a sub-group of participants pre and post intervention.
This Phase II, open-label, three-arm randomized controlled trial (RCT) will investigate the effects of 12 weeks of aerobic exercise vs. 12 weeks of resistance exercise vs. usual care in men with metastatic castration resistant prostate cancer to determine the safety, feasibility, and tolerance of exercise; quality of life indicators, and a prognostic score.
This study is a single-center RCT. Potential subjects with symptomatic non-permanent AF will be enrolled to determine the effect of sprint interval training (SIT) in comparison to moderate-intensity continuous training (MICT) and non-exercise control in reducing AF burden. The Investigators will enroll 60 patients during the first 12 months of the study. Baseline data collection will be conducted during the first month after enrollment. After baseline data collection, subjects will be randomized (1:1:1) to SIT vs. MICT vs. non-exercise controls. The exercise training will last for 3 months followed by final data collection which will be completed in 1 month.
Objectives: 1) Determine the effect of 4-weeks of high intensity interval training (HIIT) and free acid form β-Hydroxy-β-methylbutyrate (HMB-FA) on VO2peak, lactate threshold, critical power, anaerobic working capacity and neuromuscular economy in a population of endurance trained individuals. 2) Determine the effect of 4-weeks of HIIT and HMB-FA on changes in skeletal muscle physiological cross-sectional area (PCSA=Volume/Fascicle length) and muscle quality (MQ=echo intensity) in the rectus femoris and vastus lateralis. Subjects: Fifty males and females between the ages of 18 - 35 will be recruited to participate in this study. Subject will be randomized to one of three groups: a control group (CTL), an HIIT only group (HIIT) or a group which will take the amino acid metabolite HMB and perform HIIT (HMB-HIIT). Individuals assigned to CTL will undergo baseline testing. They will then be asked to continue their normal exercise routine for 4 weeks and will undergo post-testing after this time period. Study Protocol: Two testing sessions, on nonconsecutive days, will occur at least 72 hours prior to the start of the training period. The same testing protocols will be repeated at the end of the 4-week training period. Testing protocols include performance testing (VO2peak, lactate threshold, critical power, anaerobic working capacity and neuromuscular economy) and anthropometric measures (physiological cross-sectional area and muscle quality). The training protocol for individuals in the experimental groups will consist of 4-weeks of high intensity interval training with three sessions per week on an electronically braked cycle ergometer. Individual work -loads will be calculated based on the outcomes from each participant's preliminary testing.
6-week, single site, two parallel arm, randomized, controlled trial comparing the effectiveness of a High Intensity Interval Training (HIIT) versus a continuous Moderate Intensity Training (MIT) program on cardiovascular and metabolic health outcomes in overweight adolescent males. HIIT training may be a potent time-efficient strategy to induce similar metabolic and cardiovascular adaptations typically associated with MIT.
Aging is associated with a loss of brain function and conditions such as dementia and Alzheimer's disease. It is likely that decreased brain metabolism is contributing to the progression of age related degenerative diseases. Aerobic exercise training can increase brain volumes and is associated with decreased risk for degenerative brain conditions. However, little is know about the changes that occur to brain metabolism with aerobic training and aging.
A key early event in cardiovascular disease development is endothelial dysfunction, characterized by impaired flow-mediated dilation. Regular aerobic exercise ameliorates endothelial dysfunction in healthy older men, but the data in healthy postmenopausal women are inconsistent with many studies showing no effect. The primary objective of this study was to examine sex differences in acute and chronic endothelial responses to exercise training in older men vs. older postmenopausal women.
Hospitalization and treatment for cardiovascular disease is one of the main contributors to disability in older adults. Moderate intensity continuous aerobic and resistance training have been the cornerstone of cardiac rehabilitation (CR) for decades to remediate hospital-acquired functional deficits, but some groups receive less or minimal functional benefit from this training. The proposed studies seek to optimize recovery of aerobic fitness and physical function among older cardiac patients using a novel high intensity training regimen with the long-term goal of reducing subsequent disability and improving clinical outcomes.
The objective of this study is to determine the optimal training intensity and the minimum training duration needed to maximize immediate improvements in walking capacity in chronic stroke. A single-blind, phase II, 3-site randomized controlled trial has been planned. Fifty persons \>6 months post stroke will randomize to either moderate-intensity aerobic locomotor training or high-intensity interval locomotor training; each for 45 minutes, 3x/week for up to 36 total sessions over approximately 12 weeks. Clinical measures of walking function, aerobic fitness, daily walking activity and quality of life will be assessed at baseline (PRE) and after 4, 8 and 12 weeks of training (POST-4WK, POST-8WK, POST-12WK).