Oct 2, 2024New study on avoiding shoulder injuries in elite swimmers
As Australian swimming athletes proved their conviction with terrific success at the Paris 2024 Games, Griffith University researchers have devised a new strategy to help athletes avoid one of the most common injuries in competitive swimming — shoulder injuries.
Shoulder injuries are prevalent for competitive swimmers, but there is a limited understanding of the causes and risks.
Taking a novel approach, researchers worked with coaches, elite swimmers and experts to identify the most important shoulder injury risk factors in competitive swimming.
School of Health Sciences and Social Work, Exercise Science Ph.D. Candidate Alec McKenzie said the research aimed to identify the most effective prevention protocols to develop a new training protocol to prevent shoulder injuries.
The paper is published in the British Journal of Sports Medicine.
“We’ve gleaned valuable first-hand data from within the competitive swimming community and pooled it into a resource to determine the top three shoulder injury risk factors for competitive swimmers.
“This emerging practice in exercise science allowed us to identify evidence-practice gaps and give coaches and athletes new tools to help elite athletes realize their full potential.”
In partnership with the Queensland Academy of Sport and Swimming Australia, researchers worked with 27 elite swimmers, coaches, high-performance staff and applied researchers.
The experts involved then pointed out the best direction for future research.
The research proposed that swimming practitioners should prioritize the monitoring and addressing of these risk factors within their injury prevention strategies.
The top three key shoulder injury risk factors for competitive swimmers include:
- Low posterior shoulder strength-endurance
- Poor stroke technique
- Inconsistent/acute increases in training load.The study allowed researchers to identify emerging ultrasound technology as a potential new norm in monitoring shoulder tendon health, which picked up subtle changes better than a Magnetic Resonance Imaging (MRI) scan.
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Co-author and School of Health Sciences and Social Work, Exercise Science Dr. Steven Duhig said the strategy allowed them to compare the changes in the muscle tissue with the athlete’s training program to discover how athletes were responding to training.
*This is an issued press release from Griffin University.