View clinical trials related to Muscle Function.
Filter by:The goal of this clinical trial is to compare the applicability and effectiveness of an aquatic rehabilitation training program with a conventional land-based rehabilitation program in terms of lower extremity biomechanics and knee function in Anterior Cruciate Ligament Reconstruction (ACLR) patients. The main questions it aims to answer are: - Does aquatic rehabilitation accelerate the recovery of gait symmetry and muscle function in patients after ACLR? - Previous studies have not uncovered the training characteristics of aquatic rehabilitation, which allow for training movements that cannot be performed on land, and it is unknown whether these different training movement characteristics are more effective for patients with ACLR. Participants were randomly divided into an aquatic rehabilitation group (AR) and a land-based rehabilitation group (LR), and each group performed 70-90 minutes of training per session for a total of 6 sessions. This included warm-up activities, mobility training, strength training, functional exercises, and finishing activities. Each training session was conducted 1-2 days apart, 2-3 sessions per week, and the training was completed within 2-3 weeks.
Participating in regular physical activity has been shown to reduce the risk of developing some diseases and disabilities that can occur with ageing. Muscles naturally decline with age, and in females this appears to occur more so around the time of menopause. Time, work, family commitments and the availability of facilities have all been identified as barriers to exercise in middle age. Increasing activity levels in middle age appears to improve muscle function and bone health. However, there is a lack of evidence in how muscle function responds to low impact resistance exercise in middle aged females. This study aims to assess the effectiveness and the mechanisms associated with building muscle as well as the effect on quality of life in middle aged (40-60 years) females using a low impact resistance training programme.
Hamstring muscle injuries (HMI) occurs frequently during excessive motions of the physiologic capability of these muscles. It is reported in the literature that impairments in muscle architecture, such as a decrease in the eccentric strength of the hamstring muscles of the knee (lengthening and contraction of the muscle), delay in the reaction time of the hamstring muscles, overactivity of the hamstring muscles, a decrease in the length of the hamstring muscle fibers, and inadequate cognitive functions may lead to HMI. Preventive and therapeutic exercises of HMI consist many different eccentric exercises, such as the Askling L-protocol and particularly Nordic hamstring exercise, for increasing the hamstring flexibility. However, it has been stated in recent studies that hamstring muscles should not be focused on alone, and a holistic exercise intervention that includes and addresses the present risk factors related to HMI is needed. Within our knowledge, the effect of a defined or improved holistic exercise approach to prevent and/or treat HMI has not been studied in the literature. Considering the risk factors underlying HMI, an exercise involving a holistic approach is needed to prevent all the risk factors. Turkish Get Up (TGU) exercise is a kind of cognitive exercise which activates all muscles and let to contract simultaneously during standing up from the supine position and turning back in 7 stages. Since the exercise originates from former Turkish athletes, it has been included in the literature as TGU. Hence, the exercise originates from former Turkish athletes, it has called as TGU. TGU exercise improves the effective and strong transition ability of the body while developing the pattern of standing up from the lying position on the floor and turning back by increasing condition/ endurance. Meanwhile, this exercise is a progressive coordinative and cognitive exercise, it requires completing each step before the next movement. The role of cognitive skills and neuroscience in the interpretation, prediction and improvement of sports performance is getting popular in recent years. Previous researches reported that athletes with reduced cognitive skills had lower sportive achievements. It has also stated that the impairment in cognitive skills tend muscles to be injured. However, no studies that investigate the effectiveness of cognitive function in preventing HMI have been encountered. So, the present study will be the first study investigating effects of a special exercise addressing cognitive function which is generally ignored in the treatment of HMI. It is aimed to figure out whether Turkish Get Up exercise or Supine sliding leg curls and Nordic Hamstring exercises are more effective on hamstring muscle function, ınjury risk, agility and cognitive function. Healthy recreational people aged between 18-25 will assign to this study. The participants will randomly be allocated four groups (Nordic protocol group, Supine sliding leg curls group, Turkish Get Up (TGU) and control group). The exercise protocols will be applied two days a week for 6 weeks, and the control group will receive no special exercise training. Participants' hamstring muscle strengths will be evaluated with ISOMED 2000 isokinetic dynamometer, the hamstring flexibility with digital inclinometer device, injury risk with FMS™, agility with T-agility test, and the cognitive function with CNS Vital Signs in computer environment at baseline and 6 weeks after interventions.
Growing evidence suggests that dynapenic abdominal obesity is associated with a greater risk of falls, functional disability and hospitalisation compared to those with dynapenia, obesity or neither phenotype. Understanding the pathogenesis underlying this phenotype has the potential to inform potential treatment strategies. MicroRNAs can act as messengers at the cellular level to promote or block processes for muscle growth and repair, amongst other things. There is evidence that ageing changes microRNA levels in the muscle and that these changes may result in reduced muscle quality and quantity. However, it is not known whether being obese can change microRNA levels in muscle and how this relates to physical performance. The aim of this study is to investigate the effect of dynapenic abdominal obesity on microRNA levels in serum and muscle quality and quantity in the legs of older women. This is an observational, cross-sectional study. The investigators will recruit 4 groups of older women: normal weight, normal weight with dynapenia, obese and obese with dynapenia. The investigators will measure the microRNA levels in serum. The investigators will measure the quantity and fat content of muscle in the legs using magnetic resonance imaging. Muscle strength, fatigue and balance will be measured using gait (walking) analysis, balance tests, and a machine designed to measure leg strength and fatigue. The investigators will measure and compare microRNA levels between groups. The investigators will use databases and computer programmes to look at all of the microRNAs which are different between groups and see how they affect the muscle. The investigators will compare muscle strength, size and fatigue between groups. The investigators will explore relationships of muscle quantity and quality measures with microRNA changes in the muscle. This approach will allow the investigators to understand how obesity affects the microRNA profile of muscle and whether this translates into impairment of function and mobility.
The purpose of D-pro is to investigate the combined and separate effects of milk protein and vitamin D on bone health, growth, muscle function, body composition and cardiometabolic health in 6-8-year-old children.
This is a randomized, double-blind, single-center, placebo-controlled Phase 2 trial enrolling 66 healthy elderly subjects (33 placebo and 33 AMAZ-02 administration) who are ≥65 and ≤ 90 years of age with evidence of low mitochondrial function. AMAZ-02 or placebo will be orally administered for 4 months.
Muscle size declines at around 0.5-1% per year after 50 years of age, with muscle strength declining up to twice as fast as muscle size. This may eventually lead to loss of independence if tasks of daily living become too strenuous to be performed safely. Exercise is recognized as a safe and effective means to counteract muscle loss during aging, however access to gym equipment may be logistically challenging or unpalatable to older adults. This research is designed to investigate the effect of 28 days of home-based leg exercise that doesn't require exercise equipment or supervision (exercise snacking), accompanied with a daily protein supplement in the form of commercially available yogurt, on the skeletal muscle health (i.e. function and size) of independent, community-dwelling older adults. To achieve this, two groups will be compared; one group will undertake exercise snacking and consume a 150 g yogurt with the breakfast meal for four weeks, with the second group only receiving the daily yogurt with no exercise snacking.
People living at Northern latitudes are at risk of suffering from vitamin D insufficiency due to low sun exposure and the risk may be even more pronounced among elite swimmers since indoor training further reduces sun exposure. In light of this, the investigators want to examine vitamin D status in young elite swimmers and if there is an association between vitamin D status and muscle strength.
Carnosine (made by bonding β-alanine and histidine) has been suggested to contribute to the extension of physical exercise, counteracting the decline in muscle performance due to fatigue. However this process is largely restricted by the levels of β-alanine available in the human body. Carnosine levels can be raised through long term ingestion of food products, such as meat, fish and poultry, however it can also be significantly increased by β-alanine supplementation. Improved β-alanine levels can potentially advance exercise capacity and exercise performance, which may have been previously limited. Recently research has demonstrated no beneficial effect of β-alanine supplementation on neuromuscular performance in active, healthy males when they were well rested, with no prior exercise or fatigue of the assessed muscle. It remains unknown if β-alanine supplementation would aid physical performance when the muscle has already been fatigued. This is currently being investigated in older adults (60-80 years), however there is no clear comparison between the potential effects in younger and older participants. Therefore this investigation hopes to examine the effects of 4 week β-alanine supplementation on lower limb contractile and force properties, pre and post muscle specific fatigue in 18-30 year old males.
Part A: The study is a double-blind, randomized, single ascending doses, study in 24 healthy elderly male and female volunteers. Each subject will be randomized for two subsequent doses in three cohorts. Part B: The study is a double-blind, randomized, multiple ascending doses study in 36 healthy elderly male and female volunteers. Subjects will be randomized to receive study product or placebo for 28 days.