View clinical trials related to Musculoskeletal Injury.
Filter by:Background: Lower back injuries are a common occurrence in athletes, sports programs, and in the military (Bengtsson, 2018; Lovalekar, 2021). The Army's new fitness test includes a three-repetition maximum deadlift, and this inclusion has raised concern amongst servicemembers and healthcare workers due to the association between deadlifts and lower back injuries. There is debate amongst researchers about the role of deadlift form in lower back injury prevention, specifically related to flexion of the spine (Sjoberg, 2020). Purpose: The purpose of this study is to investigate the effect of low back pain education (either cautionary regarding injury risk or reassuring regarding spine resiliency) on deadlift performance (weight lifted), and if this education has an effect on self-efficacy and perceived spine vulnerability. Participants: Participants will be incoming new cadets at the United States Military Academy (USMA). Inclusion criteria are cadets age 17-26 (cadets under the age of 18 are legally emancipated therefore able to consent), those participating in the ACFT, and speak and understand English. Study Design: This study will be a randomized controlled trial with parallel design and 1:1 allocation ratio. The investigators plan to use cluster randomization. There will be three groups- control, cautionary, reassuring (Jackson, 2005). The investigators are also planning a prospective cohort study to assess self-efficacy, injury, and performance over time. Procedures: Data will be collected at the United States Military Academy during the summer of 2022 during cadet basic training. Shortly after new cadets arrive at USMA, the investigators will gather demographic and initial self-efficacy information. The randomized control element of this study will occur before and during the maximum deadlift (MDL) of the Army Combat Fitness Test (ACFT). At the start of cadet basic training, investigators will randomly allocate each company of cadets into one of three groups (three companies per group.) The investigator will administer the education (cautionary, reassuring, or control) shortly prior to cadets taking the MDL, and will collect results after the ACFT. The cautionary education is similar to standard information provided to many servicemembers before the start of an ACFT or a maximum deadlift.
Traumatic physical injuries result in significant disability and a high proportion of survivors suffer from chronic pain and mental health disorders. A key predictor of good outcomes following trauma is "coping self-efficacy" - a person's belief that they can cope with life's challenges. Interventions that enhance coping self-efficacy post-injury are most likely to optimize recovery. However, these interventions are not standard approaches in rehabilitation settings.Our inter-disciplinary team will undertake a trial to assess the efficacy of supportive-expressive group therapy in rehabilitation inpatients who have had traumatic injuries. We wish to test whether persons who undergo the group therapy have significant improvements in coping self-efficacy compared to those receiving standard care. Sixty patients with traumatic injuries admitted to St. John's Rehab will be randomized to either supportive-expressive group therapy (n=30) or to standard rehabilitation (n=30). Additionally, up to 12 staff participants will be recruited.The goal of this project is to establish a gold standard for inpatient rehabilitation in the trauma NMSK injured population by widening the access to emotional wellbeing supports, which could translate into better physical, mental and social health in the community.
The research is a study with methodological design. The validity, reliability and practicality of the Örebro Musculoskeletal System Screening Questionnaire-12 will be investigated. In this context, a questionnaire will be applied to the participants to take part in the study after the translation process is completed.
The investigators aimed to assess the impact of long-distance running on musculoskeletal system of runners, by doing high resolution magnetic resonance imaging analysis before and after marathon running.
This study aims to prospectively investigate the relationship between a number of clinical and biomechanical variables and running-related injuries among a group of novice and recreational runners over a two year time period. To date, the incidence of running injuries among runners is high, with a lack of prospective research investigating the factors related to injury. It is thought that loading in excess of the tissues capabilities may be be a contributing factor to sustaining a running related injury. As such, this study hypothesizes that biomechanical factors may be related to injury. Healthy participants will perform a battery of clinical tests at baseline, as well as completing a survey that details their injury history and training habits. Kinematic and kinetic motion analysis will be used as participants perform a series of functional movements and a treadmill run. Enrolled participants will be monitored for the occurrence of running-related injuries via email for the duration of the study.