View clinical trials related to Muscle Strain, Multiple Sites.
Filter by:Acute muscle strain injuries occur both during sports, in leisure time activities and during manual occupation and represent a major clinical challenge and has societal economic costs. The recovery time is long and a substantial injury recurrence is observed. Despite current best evidence rehabilitation with early mechanical loading, a significant loss of muscle mass, fatty infiltration and formation of scar tissue is reported. Animal models and human in vitro experiments suggest that inflammation is vital in the early period after an injury, however an inhibition of inflammatory processes is beneficial for healing. We investigate here whether a pharmacological inhibition of inflammatory pathways in the 2nd week following a muscle strain injury will provide a better clinical outcome and an advantageous cellular profile than rehabilitative training alone would.
Muscle strain injuries are a particularly frequent type of sports injury in soccer, athletics, badminton/ tennis and cross-fit fitness, thereby affecting a broad range of popular leisure time activities. Depending on severity, sports-active individuals may experience long-term functional impairment and pain. Additionally, individuals having sustained one strain injury have a substantially increased risk of injuring the same muscle again. Strain injuries lead to long-term, potentially permanent, loss of muscle mass, thereby weakening the muscle. Muscle atrophy is likely a major factor in the high re-injury risk. Further, strain injuries are associated with a long-term inflammatory response. In the current study, the investigators seek to study interventions to prevent the loss of muscle mass and elaborate on strategies to address the prolonged inflammation observed at the site of the injured muscle. The primary aim of this study is to investigate the effect of protein supplementation on the reduction of muscle atrophy following a severe muscle strain injury in comparison to a carbohydrate supplement. As a second purpose, this study aims to elaborate on findings of prolonged inflammation intra-/ intermuscular by large-scale protein analysis and the characterization of cells active at the site of injury. The study includes the following hypotheses: 1. Protein supplementation administered in combination with a gradually increasing loading regime (rehabilitation with weekly progression in load/ intensity) will be effective in reducing the injury-related loss of muscle mass. 2. The environment at the site of injury is not only pro-inflammatory, but contains proteins associated with proteolysis. 3. Cells belonging to the group of fibro-adipogenic progenitors will be accumulating intra- and inter-muscularly.