View clinical trials related to Muscle Strain.
Filter by:A total genotype risk score was generated based on the findings of previous research for non-contact injury, non-contact muscle injury, tendon injury, ligament injury, fracture injury and apophysitis injury. This score was then compared with the incidence of injury between those with high, medium and low risk scores for each injury. The influence of different rates of growth, stages of physical maturation and loading exposure were then also included in the risk model to see if any interaction effects could be observed between genetic risk score and susceptibility to injury in different categories of growth, maturation and loading exposure.
The investigators postulate that there is a difference in the acquisition of Fundamental Laparoscopic Skills (FLS) between general surgical and Obstetrics & Gynaecology (O&G) trainees. This discrepancy is also likely to influence the musculoskeletal and cognitive fatigue trainees experience within both specialties. Additionally there is likely to be a discrepancy in the expectations of consultants and trainees on skills perceived to be important at the completion of training (CCT). This study aims to compare and evaluate the discrepancy in FLS acquisition amongst O&G and GS trainees in order to identify areas for improvements in the training pathway, the associated fatigue experience and highlight the expectations perceived to be required at the completion of training.
The functional condition of the leg muscles is not only relevant to performance in sports, but is also of great importance in health, prevention and rehabilitation, where not only the general strength level is decisive but also the relationship between individual muscle groups. Among other things the H-Q-ratio (strength ratio of "hamstring" muscles to quadriceps muscles) is often used to diagnose possible imbalances. Isokinetic force measurements have established themselves as the gold standard in competitive football. In this context, however, force tests in the open kinetic chain (OKC) have almost exclusively been used so far. Especially force measurements in the closed kinetic chain (CKC) could have a higher relevance regarding functionality. The H-Q-ratio should better be called the flex-ext-ratio in the CKC due to the involvement of the hip muscles. There is little data in the literature on leg force or flex-ext-ratio in CKC. In particular, there is hardly any comparative data for isokinetic measurement systems in the CKC. Using a cross over design and randomly allocating 28 competitive football players into two groups (n=14 each) that either started tests with the leg press or legcurl device, the investigators assumed (1) a significantly lower flex-ext-ratio in the CKC compared to the OKC, (2) a correlation between the isokinetic measurement systems in the OKC and the CKC, and (3) a significant superiority of the leg press to predict functional performance of the lower limbs.
Firstly, the investigators aim to study the biochemical, structural and functional changes associated with acute muscle strain injury in the acute phase and during rehabilitation in vivo. Specific factors present after the injury and their effects on connective tissue cells will be examined in vitro. Secondly, the investigators will investigate individuals with chronic pain, scar tissue and inferior function after a previous muscle strain injury and test a specific rehabilitation program to alleviate pain and disabilities associated with the preceding muscle injury. The investigators have the following hypotheses: 1. Humoral growth factors and pro-inflammatory macrophages released into the injured area post strain injury stimulate formation of connective tissue in vitro. 2. Early onset of rehabilitation will be superior to a delayed start of rehabilitation for the healing process, in regards to structural improvement of tissue and better clinical function. 3. Scar tissue following a muscle strain injury is characterized by disorganized structure of connective tissue. 4. Mechanical loading in the form of heavy eccentric muscle activity for 12 weeks will lead to a local re-modeling of scar tissue, and result in improved function and reduced symptoms in patients with chronic pain and impaired function after a previous muscle injury.