4 Clinical Trials for Various Conditions
Masons have the highest rate of overexertion injuries among all construction trades and rank second as an occupation for back injuries in the United States. Identified ergonomic solutions are the primary method of reducing exposure to risk factors associated with musculoskeletal disorders. However, many construction workers lack knowledge about these solutions, as well as basic ergonomic principles. Construction apprentices, as they embark on their careers, are greatly in need of ergonomics training to minimize the cumulative exposure that leads to musculoskeletal disorders. Apprentices receive safety training; however, ergonomics training is often limited or non-existent. In addition, apprenticeship programs often lack "soft skills" training on how to appropriately respond to work environments and practices that are unsafe. The SAVE program - SAfety Voice for Ergonomics - strives to integrate evidence-based health and safety training strategies into the mason apprenticeship skills training to teach ergonomics, problem solving, and speaking up to communicate solutions that reduce musculoskeletal injury risk. The central hypothesis is that the combination of ergonomics training and safety voice promotion will be more effective than no training or either ergonomics training alone or safety voice training alone. Following the development and pilot testing of the SAVE intervention, SAVE will be evaluated in a cluster-randomized controlled trial at 12-15 masonry training centers across the U.S. Clusters of apprentices within centers will be assigned at random to one of three intervention groups (n = 32 per group): (1) ergonomics training only, (2) combined ergonomics and safety voice training, or (3) control group with no additional training intervention. Outcomes assessed at baseline, at the conclusion of training, and then at six and 12 months post training will include: musculoskeletal symptoms, general health perceptions, knowledge of ergonomic and safety voice principles, and perception and attitudes about ergonomic and safety voice issues.
The long-term objectives of this research project are to enhance program participation and improve the employment prospects of people with work disability due to arthritis and related musculoskeletal disorders (ARMD) who are actively seeking vocational (job-related) rehabilitation (VR) services. This study is designed to compare the employment situations of a group of people receiving a two-part intervention and a group that is not receiving the intervention. The intervention consists of training sessions to help prospective VR clients with ARMD successfully enter and complete the VR program, and training sessions for a randomly selected group of VR professionals to help them serve VR clients with ARMD more effectively.
Carpal tunnel syndrome is the most expensive upper extremity work-related musculoskeletal disorder, impacting 10 million people annually and costing employers up to $113,695 per incident. There is currently no established method to detect this disorder prior to the onset of symptoms and nerve damage. Preliminary research suggests that sonography-a relatively inexpensive, widely available, increasingly portable technology-can provide a non-invasive and pain-free method of early detection that could reduce incidence, improve targeted interventions and ultimately reduce costs. The primary aims of this study are to establish predictive validity of a novel method for early detection using sonographic imaging and to identify task components of intensive functional hand activity associated with morphologic changes.
The study is working to identify actions of surgeons in the operating room that can contribute to work-related musculoskeletal disorders. This includes poor positioning and time spent in poor positioning while working in the operating room. The study is also looking to determine if fatigue plays a role in work-related musculoskeletal disorders and whether an education intervention will change ergonomic risk.