34 Clinical Trials for Various Conditions
This study is designed to assess the effect of a diet-controlled nutrition program utilizing an egg-based higher protein diet on muscle composition and size, and indices of metabolic health and markers of systemic inflammation in older men and women who are slightly overweight.
Swallowing dysfunction after chemo-radiation is common, but there is no reliable evidence for how it should be managed. This pilot randomized controlled trial evaluated the relative benefit of a battery of isometric / isotonic exercises on the maintenance of muscle composition and function for swallowing in Head / Neck Cancer patients undergoing chemo-radiation therapy.
This study is a 12-week randomized active control trial that is investigating the effects of Carnipure(R) AAS on muscle hypertrophy, body composition, and muscular strength adaptations in healthy men performing a resistance training program.
The purpose of this 12-week, interventional study is to determine the effects of oral supplementation with Indus810 (dietary supplement with active ingredient Fenugreek) on body composition, muscular performance, and training adaptations
The purpose of the trial is to assess the effects of combining regular, generous intakes of high quality protein (primarily from dairy and other animal source proteins) with calorie restriction and low-intensity exercise on muscle quality and muscle adipose infiltration (along with bone mineral density \[BMD\] and a number of secondary outcomes) in frail, obese, older adults participating in a 6 month intervention. The investigators will compare these effects to those of a traditional control regimen of calorie restriction and low-intensity exercise over the same duration.
The purpose of this study is to determine the blood levels of testosterone gel administered for a week to women with hypopituitarism and determine if this leads to testosterone replacement in a normal range for women. An additional objective is to determine the baseline laboratory abnormalities and physical, brain function, emotional and sexual symptomatology of these women with hypopituitarism.
The purpose of this research study is to see whether wearing a weighted vest during a period of active weight loss can decrease the loss of muscle and bone that occurs during weight loss. We will also determine if study participants who wear the weighted vest will have greater improvements in physical function and self-reported disability, pain, stiffness, fatigue and quality of life. This knowledge could impact weight loss programs designed for older adults. Hypothesis: Participants randomized to VEST will experience similar weight loss, but less loss of lean mass and bone density, than participants randomized to Control.
The goal of this clinical trial is to evaluate how different exercise programs alter bone density, structure, and strength in adults. It will also collect data on hormones, factors released from skeletal muscle, and body composition. The main questions it aims to answer are: * Do exercise programs that are frequent with high-impact loading will cause greater improvements in bone health? * What changes in hormones, factors released from skeletal muscle, and body composition contribute to bone adaptations? Researchers will compare different exercise groups to see if the type of exercise influences bone adaptation compared to a recreationally active control group. Participants are asked to: * complete questionnaires, 5 blood draws across the study (3 at rest, 2 after strenuous exercise), dual energy x-ray absorptiometry (DXA) scans (to assess bone mineral density and body composition), high resolution tibial scans to assess bone structure and geometry, and physical performance testing. * attend up to 7 testing visits. * (for those randomized to the exercise training intervention) participate in exercise training sessions for 6 months.
The primary objective of this study is to assess the effect of enobosarm on total lean mass as measured by DEXA in patients maintained on GLP-1 receptor agonists.
The goal of this controlled-feeding cross-over diet intervention is to compare a beef diet to a vegetarian diet on muscle fatigue in older adults. The aims are: AIM 1: To test the hypothesis that muscle fatigue is attenuated in older adults consuming beef compared to older adults consuming a plant-based diet. AIM2: To test the hypothesis that daily beef consumption improves biochemical indicators related to muscle fatigue. Participants will be randomized to consume either a beef-based diet or vegetarian diet under controlled-feeding conditions for 8 weeks. After a 2-week washout period, participants will cross-over to consume either the beef diet or vegetarian diet for 8 weeks. Body composition and functional muscle outcomes will be measured during each 8-week feeding period. Blood samples will also be collected.
The primary objective of this study is to evaluate the feasibility and acceptability of obtaining repeated measurements of lean muscle mass, physical function, and biological aging in children receiving active cancer therapy. The secondary objective is to evaluate the feasibility of using the D3-creatine dilution method (D3Cr) to measure skeletal muscle mass in children with cancer. Assessments will be collected at diagnosis, once during active treatment, and end of treatment in coordination with routine imaging to monitor changes in study outcomes during active cancer treatment. Key sociodemographic, treatment and health-related factors will be abstracted from the medical record.
This clinical trial is intended to evaluate the effects of protein intake graded to resistance training volume over a 10-week period on macroscopic skeletal muscle adaptations and body composition. Briefly, all participants will complete a progressive resistance training protocol for 10 weeks, with one group consuming a constant amount of total daily protein (RDA of 0.8g/kg/day) to serve as an active comparator. The alternative group will consume total daily protein and protein supplement in a graded manner designed to increase as overall training volume increases. Protein intake and resistance training protocols are described in full elsewhere. The investigators hypothesize that the graded protein intake group will see larger benefits to skeletal muscle function, size, and body composition than the active comparator.
This pilot study will determine the feasibility of implementing a combinatory rehabilitation strategy involving testosterone replacement therapy (TRT) with locomotor training (LT; walking on a treadmill with assistance and overground walking) in men with testosterone deficiency and walking dysfunction after incomplete or complete spinal cord injury. The investigators hypothesize that LT+TRT treatment will improve muscle size and bone mineral density in men with low T and ambulatory dysfunction after incomplete or complete SCI, along with muscle fundtion and walking recovery in men with T low and ambulatory dysfunction ater incomplete SCI.
The chronic phase of the study will evaluate the effects of pre-exercise and post-exercise ingestion of a multi-ingredient supplement on adaptations to a 6-week exercise program consisting of both resistance training and high intensity aerobic exercise, using a randomized, double-blind, placebo-controlled design. Participants will complete an enrollment/familiarization visit, a baseline testing session, followed by a 6-week supervised exercise intervention, and post-testing session identical to baseline testing. Participants will be randomized during the baseline session to groups receiving either 1) Active Treatment (pre-post supplementation), 2) placebo (noncaloric beverage), or 3) control, not participating in exercise or consuming a treatment. During the supervised 6-week resistance training program, participants will complete a moderate-intensity warm-up, a full-body resistance training workout (2 x per week) and an interval training session (1 x per week). Thirty-minutes prior to each training session, and within 15 minutes post-exercise, participants will consume their randomly assigned treatment beverage. Body composition, blood markers of muscle damage/recovery, strength, and performance tests will be measured before (baseline) and after training (Post) to evaluate the effects of supplementation. All data collection will be conducted by the Principal Investigator and Research Assistants. All subjects will report to the Applied Physiology Laboratory and Human Performance Center in Fetzer Hall for all testing and training sessions, which will span approximately 8 weeks.
One in every three children ages 2-19 years is overweight or obese. Although multifactorial in nature, obesity is primarily attributed to a mismatch between energy intake and energy expenditure (EE). Daily EE (DEE) can be partitioned between resting metabolic rate (RMR), EE associated with physical activity, and the thermic effect of food (TEF). RMR corresponds to the energy needed to sustain the body functions at rest and is also related to body composition (i.e., ratio of skeletal muscle mass to fat mass). Skeletal muscle mass is a large contributor to RMR; the more skeletal muscle mass, the higher the RMR (i.e., more energy expended at rest). In addition, muscle plays a central role in whole body protein metabolism and disrupted muscle metabolism is associated with the development of many common chronic diseases associated with obesity such as type 2 diabetes and cardiovascular disease. Although the contribution of disrupted muscle metabolism to chronic disease is well-established in older adults, the potential impact in children is unknown. The overall objective for this primary project application is to determine the role of breakfast protein consumption in improving energy metabolism, energy balance and skeletal muscle health in obese, school-aged children.
Previous research suggests that prolonged sitting increases risk for cardiometabolic diseases and the risk factors associated with cardiometabolic diseases. However, no study to date has examined if a chronic intervention that breaks up prolonged sitting in a real-world environment results in a reduction in the metabolic risk factors associated with cardiometabolic diseases. Thus, the objective of this study is to examine the potential health benefits of breaking up sitting bouts throughout the workday using a small cycling device (DeskCycle) in office workers involved with jobs that require prolonged bouts of sitting. The investigators hypothesize that breaking up sitting will be associated with improvements in cardiometabolic disease risk factors. More specifically, the investigators hypothesize that breaking up sitting will decrease blood glucose during an oral glucose tolerance test (OGTT), increase cardiorespiratory fitness (VO2max), decrease blood pressure, decrease body fat, increase HDL cholesterol, and decrease LDL cholesterol, total cholesterol, and triglycerides.
About two-thirds of adults in the United States are overweight or obese with likely adverse health consequences. A Moderate weight loss by dieting and exercise is recommended to improve health. We are interested to know whether eating dietary protein at different times of the day influences changes in body composition, muscle and indices of health. The purpose of this study is to examine the effects of within-day patterning of dietary protein intake (even vs. skewed) on energy-restriction and resistance training-induced changes in body composition, muscle size, appetite, and clinical health (including blood glucose and blood pressure).
Background: - Advancing age is associated with greater risk of heart disease. High blood pressure and hardening of the arteries also have more complications with age. Studies suggest that age-related inflammation may affect fatty tissue in the body. If this fat develops in the muscles or around the heart, it may increase risks of heart disease. Researchers will study body composition in older adults to see if age-related changes in body fat are related to higher risks of heart disease. Objectives: - To study the relationship between fat deposits and aging, and greater risks of heart disease. Eligibility: * Participants in the Baltimore Longitudinal Study of Aging between 50 and 80 years of age. * Individuals between 50 and 80 years of age who have been diagnosed with coronary artery disease. Design: * Participants will be screened with a physical exam and medical history. * Participants will provide blood and urine samples. They will also have their height and weight measured. Waist circumference will also be taken. * Participants will have a DEXA scan to study their muscles. * Participants will have magnetic resonance imaging scans. These scans will study heart function and muscle and blood vessel health. * Participants with coronary artery disease will have catheterization. Blood samples will be collected during the procedure....
Stroke, a leading cause of disability in the aging population, increases the risk for diabetes, subsequent stroke recurrence, and cardiovascular disease complications. The downsizing of private and federal health care resources, along with the anticipated increase in stroke rates as our population ages, mandate that alternative strategies be developed to reduce the public health burden of stroke. This pilot study may facilitate our knowledge of the timing of paretic leg muscle atrophy, fiber type shift, and the progression of worsening of glucose tolerance after stroke. Knowledge of the skeletal muscle changes occurring in the sub-acute stroke period is essential to create new guidelines incorporating exercise rehabilitation, much like cardiac rehabilitation, in order to facilitate and improve the health care of veteran stroke survivors.
The purpose of this study is to determine whether HIV-positive patients with extremely low viral loads (level of HIV in the blood) have a greater gain in lean tissue during anti-HIV (antiretroviral) therapy than patients with higher viral loads. Many HIV-positive patients experience changes in body composition (muscle, fat, etc.) while on antiretroviral therapy. However, any weight gained while taking antiretrovirals is mostly fat. A patient's viral load may affect whether weight gained is a result of increased fat or increased muscle. A large-scale study is needed to closely evaluate the effects of antiretroviral therapy on body composition.
The primary objective of this proposal is to determine the effects of post-exercise peanut consumption on long-term aerobic and resistance exercise training adaptations in middle-aged men and women. The investigators will determine the impact of peanuts on exercise training-induced improvements in muscle strength, gains in muscle mass, and improvements in cardiorespiratory fitness and metabolic capacity.
Post-resistance training high protein milk supplementation may be a viable method to elicit muscular gains. The investigators hypothesis is that high protein milk supplementation would improve skeletal regulatory markers, hormonal responses and body composition in resistance-trained men.
The goal of this clinical trial is to investigate the effects of a prebiotic and probiotic supplement on metabolic, cognitive, and muscle health in older adults. Participants in the study will be older adults who will receive a prebiotic and probiotic supplement containing different strains of Lactobacillus acidophilus, Bifidobacterium longum, Lactobacillus rhamnosus, and Lactobacillus gasseri. The study will collect data at baseline and after 3 months of supplementation to compare the effects on metabolic, cognitive, and muscle health. Additionally, genetic variants associated with vitamin D deficiency and muscle phenotypes will be identified in this population.
The goal of this intervention study is to determine if omega-3 fatty acid supplementation as compared to placebo improves performance in track and field athletes. The main questions it aims to answer are: 1. Can performance be improved 2. Can strength be enhanced 3. Will positive body composition changes occur (lean vs fat mass) 4. Will feelings of muscle soreness be diminished Participants will take either omega-3 fatty acid supplements or placebo and continue with their sport specific training regimen. Researchers will compare the supplement group to placebo group to determine if there are any significant differences.
Thirty active male and female athletes will be recruited for the study. Subjects will be examined at baseline for VO2max performance. Subjects will then be stratified and randomly divided equally (50% - 50%) into an Oceanix (supplemental) or placebo condition such that baseline VO2max match. Once randomization, subjects will be baseline tested for multiple measures of muscle force capacity, muscle soreness, immune function, and endocrine function. Upon completion of baseline testing, subjects will all complete a one-day, cross-training course in Tampa, Florida. The training course is known to be extremely vigorous and causes significant muscle damage. Subjects will then be retested for muscle function at 24, and 48 hours following the course. At 24- and 48-hours subjects will be asked to repeat a simulated time trial race. In this way, we will measure repeated race performance, recovery from intense exercise, muscle damage from exercise, and immune function during multiple races.
This study will examine the effects of Oceanix™, an antioxidant supplement, on muscle performance, immune and endocrine function, recovery and safety in participants undergoing resistance training. Measures of muscle performance will include isometric testing in the bench-press and mid-thigh pull and ground reaction forces in the counter movement- and squat-jump. Markers of immune function will include salivary immunoglobulin A (IgA) as well as serum total antioxidant capacity (TAC) and superoxide dismutase (SOD) while endocrine function will be measured by salivary cortisol and testosterone. Recovery will be measure by plasma creatine kinase (CK) and perceptual measures will be assessed using a validated perceived recovery status (PRS) scale. Safety metrics will be indicated by a comprehensive metabolic panel (CMP), complete blood count (CBC), and urinalysis (UA). Additionally, the modified Borg Rating of Perceived Exertion (RPE) will be administered following each training session to grade physical exertion and monitor progression of the training protocol.
Given the heightened cardiovascular disease (CVD) risk in post-menopausal women, studies are needed to explore novel, feasible methods for reducing risk in this population. Based on prior data, primarily in other populations, progressive resistance training is a promising candidate. This project will test the effectiveness of a practical, progressive resistance training regimen for lowering numerous CVD risk factors compared to both aerobic training and no exercise in post-menopausal women.
The overall goal of this study is to examine how regular exercise affects brain function, spatial memory, and virtual navigation. Participation in this research study will take approximately 4 months.
The goal of this research study is to examine whether an intervention to increase physical activity using a body-worn sensor affects cognitive (thinking) processes.
The purpose of this study is to determine whether testosterone plus finasteride treatment will improve musculoskeletal health, neuromuscular function, body composition, and metabolic health in hypogonadal men who have experienced ambulatory dysfunction subsequent to incomplete spinal cord injury. The investigators hypothesize that this treatment will improve bone mineral density, enhance muscle size and muscle function, and improve body composition, without causing prostate enlargement.