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Atrophy, Muscular clinical trials

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NCT ID: NCT05760066 Not yet recruiting - Atrophy, Muscular Clinical Trials

Effects of Resistance Training Preconditioning on Skeletal Muscle Recovery From a Period of Disuse in Young Adults

Start date: August 1, 2023
Phase: N/A
Study type: Interventional

The goal of this clinical trial is to compare the effects of resistance training (RT) preconditioning vs no training on disuse-induced atrophy and post-disuse resistance training in young healthy individuals. The main questions it aims to answer are: - To determine if performing RT prior to a period of disuse enhances the regain of strength, skeletal muscle size, and skeletal muscle quality while performing RT after a period of disuse. - To determine if performing RT prior to a period of disuse dampens the maladaptive effects of disuse on muscle size, muscle quality, and strength. - To determine the anabolic and proteolytic mechanisms underpinning the observed outcomes. Participants will: 1. Perform either 6 weeks of resistance training or maintain an untrained lifestyle 2. Perform 2 weeks of limb immobilization induced disuse of a randomized leg 3. Perform 6 weeks of resistance training Researchers will compare the resistance training preconditioning condition vs the non-trained condition to see if resistance training prior to a period of disuse is beneficial during the disuse period and in the return to training period on skeletal muscle size, strength, and underpinning molecular markers.

NCT ID: NCT05670080 Not yet recruiting - Shoulder Pain Clinical Trials

Does MI Have a Therapeutic Role in Arthroscopic Rotator Cuff Repair?

Start date: September 15, 2025
Phase: N/A
Study type: Interventional

Objective: The aim of this study is to investigate the effect of motor imagery on muscle activity, pain, and function in arthroscopic rotator cuff repair. Methods: As a result of the power analysis (G-Power), 36 participants are planned to be included in this study Block randomization will be used to divide participants into 2 groups, each with at least 18 participants: Group 1 (MI group) and Group 2 (Control group) (Randomizer.org). Both groups will receive a 4-week physical therapy program. MI (Motor Imagination) group will receive a motor imagination program in addition to the physical therapy program. Data will collect using the visual analog scale (VAS), goniometric measurement, circumference measurement, Disabilities of the Arm, Shoulder, and Hand Questionnaire (DASH), Kinesthetic and Visual Imagery Questionnaire- KVIQ-20, Tampa Kinesiophobia Scale, 3-question satisfaction questionnaire, superficial Electromyography (EMG) (BTS Bioengineering Free EMG 100 RT). Practice Implications: The current study will contribute to understanding how motor imagination affects muscle activity and muscle atrophy.

NCT ID: NCT05093985 Not yet recruiting - Atrophy, Muscular Clinical Trials

Blood Flow Restricted Electrical Stimulation During Immobilisation

Start date: November 15, 2021
Phase: N/A
Study type: Interventional

Following injury or surgery to a limb, it is often immobilised to allow tissue healing. Short periods of disuse cause loss of muscle size and strength and impaired mechanical properties of tendons, which leads to reduced function. Strategies to combat these deconditioning adaptations include neuromuscular electrical stimulation (NMES), however at present its effectiveness is limited. Recent research suggests that the effects of NMES can be augmented with blood flow restriction (BFR). At present, the effect of combining these two techniques on muscle function during limb immobilisation is unknown. Furthermore, the impact of BFR training during retraining following immobilisation is unknown.

NCT ID: NCT04861857 Not yet recruiting - Aging Clinical Trials

Effects of Parmigiano Reggiano on Muscle and Inflammatory Response to Eccentric Resistance Training in Older Adults

Start date: May 1, 2021
Phase: N/A
Study type: Interventional

Aging is associated with the loss of muscle mass and function (sarcopenia) and reduced tissue regenerative capacity. Eccentric exercise (ECC) is a model of RET that can be used with the elderly, due to the ability of the muscle to combine high muscle strength production with low energy cost. ECC contractions are significantly more damaging to the muscles and produce greater muscle strength, for these reasons there is a greater risk of inducing muscle damage before the muscle is able to adapt. Parmigiano Reggiano (PR) has some peculiar bromatological characteristics. The proteins contained in it, and in particular the potentially bioactive peptide sequences, can rapidly provide the amino acids necessary to promote muscle growth and repair during exercise. Furthermore, PR can be an important source of fatty acids, of which a significant amount of short-chain fatty acids (SCFA) which are known to have important clinical effects on body composition and metabolic health and can have a systemic anti-inflammatory effect. Therefore, the central hypothesize is that PR consumed while being engaged in a RET can provide more energy substrates and improve muscle recovery, redcue inflammatory markers and improve lipid metabolism. To date, no studies have studied its function on recovery from exercise nor in the elderly.