View clinical trials related to Muscle Strength.
Filter by:Crossfit® is a method of strength training and fitness built on functional movements, constantly varied and executed at high intensity. Competitions such as the Crossfit® involve physically demanding activities, which in addition to being performed at high intensity also use great measures of aerobic capacity related with performance. These characteristics cause metabolic and muscular stress, as well as a decrease in physical performance. The demand for intensity is the cause of concern regarding the practice of Crossfit® and the risk of injuries. Studies using photobiomodulation therapy combined with static magnetic fields (PBMT/sMF) to delay fatigue and increase performance have obtained positive results in different types of exercise and application times. However, there are no studies investigating the effects of PBMT/sMF in training with similar characteristics as Crossfit®. Therefore, the aim of this project is to verify the effects of PBMT/sMF on performance and muscle recovery of Crossfit® athletes at different times of application (pre workout of the day [WOD] and/or post WOD) in order to determine the best way to use the therapy.
The purpose of the present study is to investigate the effects of an in-season mixed training program on several physiological parameters of soccer players. Twenty-one U19 elite soccer players recruited and randomly assigned to either an 8-week specific training experimental group or a control group. The program will include an eccentric hamstring exercise, static balance exercises and core muscles strengthening exercises. Isokinetic hamstring and quadriceps strength, single leg static balance and lumbopelvic stability will be measured prior and after the intervention.
The purpose of this study will be to examine the effects of Oceanix supplementation on isometric mid-thigh pull force kinetics and salivary immunoglobulin A (indice of immune function) following a one-week intense resistance training protocol. The study will be carried out in a randomized, double-blind, placebo-controlled, parallel manner. Subjects will be stratified into quartiles based on peak force achieved in the isometric mid-thigh pull assessment during screen and prior to baseline testing. Subjects from each quartile will be randomly divided by into treatment and or placebo conditions. Following randomization, subjects will be baseline tested on isometric mid-thigh pull and salivary immunoglobulin A. Following baseline testing, subject will be given their respective supplement conditions and will be instructed to consume one serving (25mg) a day for 21 consecutive days. For days 1 through 14 subjects will be asked to refrain from resistance training. Subjects will undergo a five day intense resistance training protocol will on day 15 to day 19. Subjects will complete follow-up testing in a manner identical to baseline on day 20 and 21 (24- and 48-hours post completion of the training protocol).
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.
Golf is becoming increasingly popular in Germany. However, the biomechanical and motor challenge of golf should not be underestimated. Nevertheless, only very few amateur golfers carry out serious preparation and conditioning as part of a strength/stabilization program. The main argument for this limitation is the aspect of "limited time resources". A solution to this problem could therefore be the time-effective and highly individualizable whole-body electromyostimulation (WB-EMS) technology. The aim of the present study is to evaluate the effectiveness of 16 weeks of WB-EMSapplication on maximum strength of the lower extremities, trunk stability and (golf) handicap in male amateur golfers in a (randomized) controlled setting.
The aim of the present research is to define the effects of short manual treatment of soft tissues compared to mechanisms explaining in Delayed Onset Muscle Soreness (DOMS) among sport climbers and to address the mechanisms of peripheral and central sensitization involved in DOMS phenomena.
The present project aims to investigate the acute and chronic effects of laser photobiomodulation (PBM) at 808 nm on muscle performance in physically active elderly women. The hypothesis of this study is that laser PBM would improve muscle strength (i.e., MVIC and 1RM) and endurance (i.e., repetitions-to-failure, blood lactate levels), functional capacity (i.e., short physical performance battery score), and rating of perceived exertion when compared with placebo laser.
The study was conducted to investigate the effect of preoperative graduated abdominal strengthening exercises and Russian stimulation on the abdominal muscles strength after ventral hernioplasty by using isokinetic dynamometer and Ultrasonography as methods of measurement.
The present project aims to investigate the effects of high-quality protein (whey protein) vs. low-quality protein (collagen) on muscle mass and function (e.g., strength and power) during a 10-wk resistance training program in young adults. It will be tested the hypothesis that leucine-matched collagen should promote similar gains on muscle function and mass compared to whey protein supplementation.
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.