Clinical Trials Logo

Muscle Strength clinical trials

View clinical trials related to Muscle Strength.

Filter by:
  • Completed  
  • Page 1 ·  Next »

NCT ID: NCT06264986 Completed - Muscle Strength Clinical Trials

The Effects of Ashwagandha (Withania Somnifera) Supplementation on Exercise Performance in Female Footballers

Start date: January 13, 2024
Phase: N/A
Study type: Interventional

The goal of this clinical trial is to evaluate the effects of short-term root extract ashwagandha supplementation on exercise performance in female footballers. The main question it aims to answer are: Will short-term supplementation of root extract ashwagandha improve muscle strength markers in female footballers? Will short-term supplementation of root extract ashwagandha improve perception of recovery following high-intensity exercise in female footballers? Participants will either supplement 600mg (5% withanolides) root extract ashwagandha or placebo once a day for 28 days. There will be three data points: baseline, 14 days and 28 days. Researchers will compare values of intervention against placebo to see if there is an effect on muscle strength or perception of recovery.

NCT ID: NCT06202924 Completed - Balance Clinical Trials

Muscle Strength and Balance in Individuals With Joint Hypermobility

Start date: January 15, 2024
Phase:
Study type: Observational

Joint hypermobility is a clinical condition characterized by joints having a range of motion beyond their normal limits. Joint hypermobility (JH) makes the joints more vulnerable to trauma in individuals with increased joint range of motion, changes in neuromuscular reflexes and decreased joint position sense. Individuals with JH have difficulty in stabilization and end of extension range of motion compared to healthy individuals. Accordingly, findings such as balance problems and an increased risk of falling occur in these patients. Recent evidence suggests that children and adults with JH may be identified with seemingly unrelated, common clinical problems such as chronic fatigue, anxiety, and a range of gastrointestinal functional disorders. The use of internal and external focus in learning motor skills is important in terms of performance and activity. In the external focus of attention (EF), attention is directed to movement and an environmental stimulus. In the internal focus (IF), attention is directed directly to body movements. In revealing positive effects in external focus; Methods such as metaphor, analogy, imaginary objects, mental analogies can be used. Adopting an external focus of attention (focusing on the effects of movements on the object or environment), as opposed to an internal focus of attention (focusing on body movements), has been found to significantly improve performance on a variety of tasks. For example, to improve balance performance, while a patient performs a single-leg balance task on a Bosu ball, the therapist may instruct the patient using an internal focus of attention such as "minimize movement of the feet." However, instructions can also be given externally by changing just one word, such as "minimize Bosu's movement." Additionally, a metaphor (e.g., "stand still as if stuck to Velcro"), analogy ("imagine being on top of a mountain, stay on the mountain!"), an object attached to the body ("keep the tape stuck to the chest still"), or the target of the movement An imaginary object (e.g., straight line) of which a mental image is obtained has been used within external focus instructions.

NCT ID: NCT06196268 Completed - Muscle Strength Clinical Trials

Core Strengthening vs Pilates Exercises on Posture, Body Awareness and Fatigue Among Female Athletes

Start date: October 20, 2023
Phase: N/A
Study type: Interventional

The study is randomized and single-blinded. Ethical approval is taken from ethical committee of Riphah International University, Lahore. Participants who meet the inclusion criteria will be enrolled and allocated in group A & B through sealed envelope method by Non-probability Convenient random sampling technique. Subjects in Group A will receive Core Strengthening exercises. Group B will receive Pilates exercises.

NCT ID: NCT06151860 Completed - Muscle Strength Clinical Trials

Acute Effect of Static Stretching and Pilates Stretching on the Muscle Strength

Start date: April 5, 2022
Phase: N/A
Study type: Interventional

Introduction: Studies have shown that static stretching performed immediately before strength exercises impairs performance. However, unlike static stretching, dynamic stretching performed immediately before muscular strength exercises does not seem to result in worse performance, and in some cases may even provide greater strength performance. Still, the literature is controversial and inconclusive to date. Objective: To verify the acute effect of static stretching versus dynamic stretching on the muscle strength of young university students. Methods: The sample will consist of 102 physically active young university students, of both sexes, aged between 18 and 25 years old, subdivided into three groups: Group 1 - static stretching; Group 2 - dynamic stretching; and Group 3 - control. Everyone will undergo assessment of the isokinetic peak torque of the knee extensor and flexor muscles at 60º/s and 180º/s in the dominant lower limb. Next, the experimental groups (Groups 1 and 2) will perform static or dynamic stretching exercises for the quadriceps and hamstring muscles, while the control group will not perform any activity. Finally, everyone will undergo muscle strength assessment again according to the same procedures used initially. Analysis of covariance (ANCOVA) will be used to compare groups, with data from the initial assessment as adjustment covariates.

NCT ID: NCT05964556 Completed - Muscle Strength Clinical Trials

Relationship Between the Functional Movement Screen and Isokinetic Muscle Strength of Knee in Different Sport Branches

Start date: January 1, 2017
Phase:
Study type: Observational

This study was conducted to demonstrate the correlation between the functional movement screen and the isokinetic muscle strength with objective data. Investigators conclude that the use of FMS in combination with isokinetic systems will provide more detailed information on the prevention of injuries to sports and the improvement of performance.

NCT ID: NCT05882981 Completed - Muscle Strength Clinical Trials

Increased Femoral Anteversion and Physical Performance

Start date: October 20, 2023
Phase:
Study type: Observational

It is important to determine how high femoral anteversion, which is one of the lower extremity malalignments, affects physical performance and to what extent it affects the daily life of the individual. As far as we know, there is no study on this subject except for a study conducted by Staheli et al. in 1977. Therefore, the investigators planned to determine whether and to what extent high femoral anteversion has an effect on physical performance in healthy young adults.

NCT ID: NCT05869383 Completed - Sarcopenia Clinical Trials

Effect Of Ophiochepalus Striatus Extract On Serum IGF-1 And IL-6 Levels In Elderly Patients With Sarcopenia

Start date: May 1, 2023
Phase: Phase 2/Phase 3
Study type: Interventional

The goal of this Clinical Trial is to analyze effect of Ophiochepalus striatus extract on serum IGF-1 and IL-6 levels in elderly patients with sarcopenia. The main questions it aims to answer are: 1. Can giving Ophiocephalus striatus extract at a dose of 2x5 grams for 2 weeks increase IGF-1 levels in elderly people with sarcopenia? 2. Can administration of 2x5 grams dose of Ophiocephalus striatus extract for 2 weeks reduce IL-6 levels in elderly with sarcopenia? 3. Can the administration of Ophiocephalus striatus extract at a dose of 2x5 grams for 2 weeks reduce the SARC-F score in elderly people with sarcopenia? 4. Can the administration of Ophiocephalus striatus extract at a dose of 2x5 grams for 2 weeks increase muscle mass in elderly people with sarcopenia? 5. Can the administration of Ophiocephalus striatus extract at a dose of 2x5 grams for 2 weeks increase muscle strength in elderly people with sarcopenia? 6. Can administration of Ophiocephalus striatus extract at a dose of 2x5 grams for 2 weeks improve physical performance in elderly with sarcopenia? Participants will: 1. Consume Ophiochepalus striatus extract 2x5 grams a day. 2. Checked blood before and after the intervention. 3. Measured muscle mass, muscle strength, and physical performance before and after the intervention.

NCT ID: NCT05679596 Completed - Physical Inactivity Clinical Trials

Exogenous Ketosis During Bed Rest in Older Adults

KBR
Start date: February 27, 2023
Phase: N/A
Study type: Interventional

The goal of this randomized, double-blind, parallel group interventional study is to evaluate the effect of ketone bodies on healthy older adults (65-85 y) during 5 days of bed rest. The main questions it aims to answer are: Does supplementation of ketone bodies prevent the typical decline in muscle protein synthesis, muscle size, muscle function, insulin sensitivity, and muscle mitochondrial function that occurs in response to bed rest? Researchers will compare ketone supplements (KET) to an energy matched control beverage (carbohydrates and fats) to see if the ketones can rescue the decline in muscle protein synthesis rates, muscle loss, muscle function, insulin sensitivity, and mitochondrial function due to 5 days of bed rest. This may positively impact the heath of older adults subjected to bed rest.

NCT ID: NCT05573139 Completed - Muscle Weakness Clinical Trials

Reliability and Validation of New Manual Dynamometer to Measure Lower Limb Strength

Start date: March 20, 2021
Phase: N/A
Study type: Interventional

INTRODUCTION: There are several ways to assess muscle strength: not only subjective ways, but also high standard equipment, such as isokinetic dynamometers. These, however, are expensive, and require extensive training. Over the years, manual dynamometers were produced, portable equipment that simplify its use. Among them, a national equipment was developed, but its reliability and validation are yet to be confirmed, compared to equipment already used, such as the Lafayette®. OBJECTIVE: Assess the reliability of a new manual dynamometer - Medeor® device (SP Tech model) -, in relation to the gold standard, Lafayette® device (model 01165), already validated, in the evaluation of muscle strength of the knee and hip groups. METHODS: A total of 26 recruits of both sexes were selected. Muscle strength was measured by Lafayette® and Medeor® dynamometers in the following groups: knee flexors and extensors; flexors, extensors, abductors, adductors, hips internal and external rotators. Each data was collected 3 times, and then the average was calculated.

NCT ID: NCT05523232 Completed - Muscle Strength Clinical Trials

Effects of Vibrations on the Biceps Brachii Muscle and Grip Strength

Start date: April 23, 2018
Phase: N/A
Study type: Interventional

It has been suggested that applying acute vibration exercises enhances muscle force, like several weeks of resistance training. The present study investigated the effects of local vibration with two different frequencies on biceps brachii isometric muscle strength and grip strength in healthy young men. Isometric strength of the biceps brachii muscle and grip strength were assessed at baseline and after vibration training (immediate, 10 minutes, and 20 minutes post vibration training).