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Muscle Injury clinical trials

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NCT ID: NCT05285020 Not yet recruiting - Muscle Injury Clinical Trials

Antigravity Treadmill With Alter G on the Postural Stability of Traumatic Lower Limb Injuries

ALTERG20
Start date: June 1, 2022
Phase: N/A
Study type: Interventional

This prospective randomised study aimed to test the investigators's hypothesis that anti-gravity treadmill therapy has beneficial effects on postural stability tests over a standard rehabilitation protocol in patients who have suffered traumatic injuries of the lower limb, demonstrating an improvement in the Biodex platform's values. The total of 30 patients participated in this study (n=30). There were 15 subjects in control group and 15 in experimental group.

NCT ID: NCT05279196 Not yet recruiting - Muscle Injury Clinical Trials

Biological Variables Associated With the Response to Intensive Training in Athletes

CareStress
Start date: September 2024
Phase: N/A
Study type: Interventional

There is in humans, at the muscular level, a great interindividual variability in response to the same mechanical stress. This phenotypic variability is multifactorial, influenced by environmental factors as well as multiple genetic variants. Thus, for the same level of muscle damage, two subjects with the same anthropometric characteristic, the same age, with the same medical history and the same level of physical activity, will present a variable level of muscle regeneration underpinned by the biological function of muscular stem cells and their microenvironment. Thus, faced with the same training, some athletes will develop iterative muscular lesions and more disabling repair deficits than others without knowing the reason of this greater susceptibility. Indeed, the links between the genotype of the skeletal muscle fiber and its response to exercise, as well as the regulation of muscle mass are poorly understood. Yet, in young adults, up to 70% of the observed variability in muscle strength and size is hereditary. This heritability of muscle size and strength seems to be lower in older people, probably related to increased comorbidity. Numerous experiments with athletes subjected to the same resistance exercise training have identified good and bad hypertrophic skeletal muscle responders. However, genetic variants that contribute to skeletal muscle strength and mass are largely understudied while a growing body of evidence indicates that epigenetic effectors, which modulate gene expression, may contribute to human muscle response heterogeneity to the same mechanical stress. Thus, to date, no analysis of the role of the interaction between genetic and epigenetic factors involved in the muscle functional response to exercise exists. The main hypothesis is that the epigenetic status of muscle stem cells (satellite cells) is an important contributor in muscle mass response to exercise by modulating chromatin architecture. Thus this study will identify the epigenetic modifications induced by training and their interaction with the genetic factors involved in the response of the biological function of the satellite cells to this training and on the other hand, to be able to link it to a blood signature.

NCT ID: NCT04277481 Not yet recruiting - Muscle Injury Clinical Trials

The Acute Effect of Cold Pack Therapy Applied on Healthy People for Different Periods

Start date: February 12, 2020
Phase:
Study type: Observational

The cold pack application, which is a special silicate gel impregnated with water in a soft rubber envelope, is frequently applied in the clinic. It has been shown in the literature that local cold application causes increased resistance to movement. It is also reported that the muscle can change its mechanical properties in a short time. However, the effect of the cooling package application applied in different periods on the mechanical properties of the muscle is unknown. Therefore, in the current study proposal, the investigators aim to investigate the acute effect (0 min, 5 min, 10 min, 15 min, 20 min and 30 min) of cold pack therapy applied on healthy individuals for different periods (10-12-15-20 minutes).

NCT ID: NCT04170101 Not yet recruiting - Muscle Injury Clinical Trials

RCT Deep vs Moderat NMB on Surgical Conditions During THP

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

A clinical deep NMB might relax the anterior muscles of the upper leg better than a moderate/superficial block giving a better exposure for the surgeon with less muscle trauma by traction to expose the hip. a continuous deep NMB (group A) versus a non deep NMB (group B) having a moderate to superficial block imitating common practice today as control group. Primary objectives are surgical exposure and Secondary objectives are Muscle damage creatine kinase changes, C-reactive protein (CRP), first time leaving bed postoperative, post operative pain as measured by opioid use postoperative at 24h, with a control of max VAS score during first 24 hour, length of hospital stay (LOS), number of adverse events using the Dindo-Clavien surgical complication score, QoR15 measured at 24h on the ward.

NCT ID: NCT01097798 Not yet recruiting - Trauma Clinical Trials

To Evaluate the Efficacy and Safety Aliviador Compared to Gelol in Patients With Contusions, Sprains, Trauma and Muscle Injury.

LBB-ALI-01/09
Start date: June 2010
Phase: Phase 3
Study type: Interventional

Multicenter, randomized, double-blind trial, to evaluate the efficacy and safety Aliviador compared to Gelol in the relief of signs and symptoms in patients with contusions, sprains, trauma and muscle injury start with less than 24 hours or patients of myalgia, myofascial pain and tendinitis.