View clinical trials related to Muscle Performance.
Filter by:The experimental procedures will be composed of two sessions. The following steps will be constituted the first session: warm-up on the cycle ergometer, and familiarization with the isokinetic dynamometer then baseline measurement of isokinetic parameters. Afterward, the placebo or active TECAR therapy will be applied (according to the randomization). At the end, isokinetic parameters will be taken again. After 7 days, the second session will be performed following identical procedures to the first session. However, an inverse mode of TECAR therapy from the first session (placebo or active) will be applied for each individual. The two sessions will be held 7 days apart, either on a Sunday or Tuesday. Procedures are summarized in Figure 1. The dominant lower limb test will be used to elect the lower limb selected for isokinetic Dynamometer. Figure 1: Timeline for the period of evaluation of groups (Active and Placebo TECAR). Muscle performance measurement by Isokinetic Dynamometer: The quadriceps muscles of dominant lower limb will be tested for all participants with Biodex isokinetic dynamometer (Biodex Medical System, Shiley, NY, USA, linked to IBM PC-computer software). Calibration of the Biodex for torque and angular speed will be done according to the prescribed manufacturer's guidelines before each recording session. Prior to assessment, the volunteers held a 5-min cycle ergometer warm up (speed in the range of 60-70 rpm and no load). After that, participants will be positioned with hip angle of 100o on the previously calibrated isokinetic dynamometer and will be properly aligned and stabilized with straps in order to avoid possible compensatory movements. Thus, the dominant knee axis (lateral epicondyle of the femur) of each subject was adjusted to the dynamometer rotation axis. The lever arm of the equipment was fixed approximately 2 cm above the tibial malleolus. The chair height, backrest distance, seat angle, and dynamometer base were adjusted for each subject and noted for the second session. Before starting the recording of isokinetic muscle performance, there will be a familiarization period with the apparatus consisting of five submaximal voluntary concentric muscle contractions in the full range of standardized and preprogrammed motion (90-20°) according to the guideline procedures of the dynamometer, with a constant angular velocity of 180°/s. the isokinetic protocol will be performed with a set of 60 concentric/eccentric contractions of quadriceps. The participants will be visually and verbally encouraged throughout the test protocol to achieve maximum effort from the beginning. The muscle performance, in terms of work fatigue index, peak torque, average power, and total work of the knee extensor muscles, will be evaluated by isokinetic dynamometry in accordance with the guidelines of the equipment manufacturer (Biodex Medical System Inc.). Experimental protocol of TECAR therapy: Immediately after the baseline measurement of muscle performance of each session, the participants will be received placebo or active TECAR therapy. In this experiment, Transfer Electrode Capacitive and Resistive (TECAR) Therapy (radio frequency therapy; INDIBA, Spain) will be used. TECAR therapy is a systematic treatment for providing capacitive energy transfer (CET) and resistive energy transfer (RET). In CET mode, heat transfer is concentrated on the skin and superficial muscles, which are tissue with high electrolytes, while the RET mode focuses heat transfer on bones, tendons, joints, and deep muscles. In this study, both CET and RET modes will be applied to the participant' quadriceps for 15-20 minutes at stable frequency of 448 KHz. According to the manufacturer's guidelines for safety, the CET mode will be first implemented for 5 minutes. Then will be continued in RET mode using for the rest of the treatment. Participants will be asked to lie down comfortably, and treatment will be beginning. The intensity of the current will be set at the level of comfort between 0%-100%, averaging about 40%. TECAR therapy will be applied by a physical therapist for all participants.
High intensity exercise can lead to muscle damage, resulting in muscle soreness, swelling and reduction in muscle strength. If the recovery is not sufficient or efficient it can increase the risk for injury and decrease the ability of the athlete to perform repetitive exercise and maintain overall performance. There are a variety of recovery aids which are being used by athletes, such as: the use of compression garments, massage, cold water immersion, sauna etc. Additional recovery strategy currently growing in popularity is the application of vibration. The evidences regarding the benefits of vibration therapy as a recovery aid are limited, specifically in athlete. Therefore, the proposed study will examine the use of vibration therapy as a recovery tool. The efficacy of this technique will be measure using functional and field tests.
Warfighters often experience physical overload, as the uniform and associated gear that they carry burdens them with substantial loads. The loads increase energy expenditure to levels that exceed a Warfighter's typical energy intake. The typical assault load is approximately 25 kg, although loads as high as 55 kg are often carried, which when combined with extreme energy expenditures can degrade health and performance, and increase the risk of injury. Branched-chain amino acid (leucine) supplementation may confer protection against the negative effects of operational stress by stimulating muscle protein synthesis and reducing degradation. This study will determine if leucine-enriched nutrition supplementation confers protection against the negative consequences of sustained load carriage exercise, and explore the mechanisms by which leucine might impart protection.