View clinical trials related to Resistance Training.
Filter by:The present study will answer the following question: what are the effects of strength gain and muscle hypertrophy on interface pressure, static stiffness index, and working pressure amplitude in the elderly using inelastic compression?
Background: Aging is associated with muscle mass and strength loss and "oldest" old people (≥85 y) are at a far greater risk of developing sarcopenia. Training increases muscle mass and strength in a variety of populations, yet the efficacy has not been clearly defined for individuals in the fourth age (≥80 y). Hypothesis: The following hypotheses will be investigated: - Twelve weeks of progressive resistance-type exercise training increases muscle mass and strength in young old (65-75 y) and oldest old (85 y and over) subjects. - The training-induced increase in muscle mass and strength is relatively greater in young old subjects when compared to oldest old subjects. Goals: The primary aim of this study is to compare the effect of resistance-type exercise training on skeletal muscle mass (i.e. quadriceps cross-sectional area and whole body lean mass) in young old and oldest old subjects. Specific goals - Determine whether resistance-type exercise training can increase muscle mass and muscle strength in young old and oldest old subjects. - Determine whether resistance-type exercise training can improve physical performance in young old and oldest old subjects. - Identify whether inflammatory markers (i.e., TNFα, IL-4, IL-6, IL-10, IL-13) are up- or down-regulated in young old and oldest old subjects before and after resistance-type exercise training. Methodology: Study design Sixty older females and males (young old group: n=30, 65-75 y; oldest old group: n=30, 85 y and over) will be included in this prospective clinical trial. All volunteers will be subjected to 12 weeks of whole-body resistance-type exercise training (3x/wk). Before, and after 6 and 12 weeks of training, a computed tomography (CT) scan of the upper leg will be performed to assess quadriceps cross sectional area. On those days, fasting blood samples will be obtained and whole-body dual energy x-ray absorptiometry (DEXA) scan will also be performed. Maximal strength will be determined by 1-repetition maximum (1RM) and physical functioning by the short physical performance battery (SPPB) at the same time points.
Interventional study to show the effects of strength exercise on fall risk in elderly with Alzheimer's disease
The main objective of this study is to analyse the effectiveness of core stability exercises to increase motor control, function and resistance strength of the abdominal muscles, compared to a traditional abdominal and trunk exercise program in semi-professionals soccer players
This study is a randomized, double-blind, placebo-controlled crossover trial examining the effects of caffeinated and non-caffeinated pre-workout supplements on resistance exercise performance. Resistance-trained adults will be randomly assigned to complete three study conditions (caffeinated pre-workout, non-caffeinated pre-workout, and placebo) in one of the six possible condition orders. During each condition, participants will report to the laboratory for ingestion of the assigned beverage and subsequent muscular performance testing. Major performance outcomes will be force production variables from a mechanized squat device and maximal strength and muscular endurance on the bench press and leg press exercises.
Strength, and proprioception training of upper body following injuries is commonly recommended. However, there are no previous studies investigated the effects of Biodex balance training on the strength, stability and function of the upper quarter. So, the purpose of this study will investigate the effect of Biodex balance training on improving the strength, dynamic stability and function of the upper quarter in young recreational weightlifters.
The aims of this clinical study are evaluated the effects of Blood Flood Restriction training on the sport performance of professional and semi-professional soccer players. The participants are twenty male professional and semi-professional soccer players who are playing at RCD Mallorca. Participants will be assigned in two different groups. Both groups develop for six weeks a strength training programs. The first group will base their training in Low Load using Blood Flow Restriction (20-50% of one maximum repetition). The second group will base their training in High Load (60-80% of one maximum repetition). This training program includes three type of exercises in each training session; back squat, single deadlift and barbell hip thrust. Before and after this program the investigators will collect sociodemographic and anthropometrics data. On top of that, the investigators will evaluate the muscle mass, the electrical activity produced by skeletal muscles, the muscle strength and the sprint ability of every participant. Before to the evaluation, the soccer players will warm-up during 15 minutes under the control of the evaluators.
To analyze the autonomic behavior in recovery post-acute resistance exercise performed in different intensities and body segments.
Fatigue is one of the most frequently reported and disabling impairments in multiple sclerosis (MS) and is associated with activity limitations, participation restrictions and reduced health-related quality of life (HRQL).MS fatigue is thought to be related to the disease itself, where increased levels of inflammatory biological markers (cytokines) are contributing. Resistance training may have an anti-inflammatory effect where a higher intensity is thought to have a more profound effect. Moderate-intensity resistance training is well tolerated in people with MS (PwMS) and can reduce self-reported fatigue. There is, however, a lack of high-quality studies including only fatigued PwMS when evaluating exercise regimes. Furthermore, the optimal dose (i.e. the combination of duration, frequency and intensity) is not known. Our hypothesis is that high-intensity resistance training will have positive effects in fatigued PwMS on functioning (fatigue, mood, activities and participation) and wellbeing/HRQL; and a positive immunomodulatory effect measured by inflammatory biological markers in blood. Further, that high-intensity resistance training twice a week will be superior to once a week
The goal of the study is to test the feasibility and acceptability of a supervised, online-delivered, individualized, physical activity program in a sample of post-active treatment breast cancer survivors. The proposed intervention will use a 2-arm randomized controlled trial study design to compare a 12-week resistance-based physical activity program to an attention control (i.e., printed individualized physical activity program) group on feasibility, acceptability and changes in strength as measured by 10 repetition maximum (10RM). Both groups will wear accelerometers. The main hypothesis is that participants randomized to the intervention arm will rate the online-delivered physical activity program as feasible and acceptable compared to attention control participants. The overall rationale is that delivering a physical activity intervention online may increase uptake of the intervention, which may lead to maintained physical activity behavior and associated health benefits. The primary outcomes are feasibility as measured by participant retention and acceptability as measured by adherence to physical activity program (recorded by physical activity log). Secondary outcomes include changes in strength as measured by 10RM, objectively measured physical activity levels as measured by the accelerometer, satisfaction, physical functioning and health-related quality of life. Additionally, a select number of participants will be invited for an interview to talk about their experiences in the program, motivation and barriers to exercise. Interview description: Participants will complete one-on-one interviews with the PI or research staff over videoconferencing software (Rutgers Zoom). The interview will be 45 to 60 minutes in duration and audio recorded using the "record meeting" function. Prior to the interview, participants will consent to being audio recorded. The recording will be stored on Box (a HIPAA compliant cloud drive). A transcript of the audio will be generated using the "audio transcript" function on Rutgers Zoom and transcribed by a third party to ensure accuracy.