Matching Oars to Rowers. This project combines expert oar design, manufacture and advanced biomechanical analysis to produce new oar designs that match rowers? power generation characteristics with boat propulsion requirements. The outcome will be optimally configured oar designs that combine properties which maximise rowers? performance. The performance of the oar-rower combination will be race condition assessed, on-water, in a state-of-the-art measurement boat and an iterative process used to ....Matching Oars to Rowers. This project combines expert oar design, manufacture and advanced biomechanical analysis to produce new oar designs that match rowers? power generation characteristics with boat propulsion requirements. The outcome will be optimally configured oar designs that combine properties which maximise rowers? performance. The performance of the oar-rower combination will be race condition assessed, on-water, in a state-of-the-art measurement boat and an iterative process used to bring the oars to their final configurations. A range of specifications will result from matching the oar to different body types with emphasis on appropriate designs for women rowers.Read moreRead less
Bringing the boat into the lab: Rowing simulation. Rowing simulators are used for rowing training, rowing assessment and exercise. Their effectiveness for the first two depends on their exercise stimulus specificity to on-water rowing. Rowing simulators are also used in the fitness industry for exercise and in all applications the potential for injury should be minimised. This research will produce a "specification" of on-water rowing by characterising the magnitude and timing of the forces and ....Bringing the boat into the lab: Rowing simulation. Rowing simulators are used for rowing training, rowing assessment and exercise. Their effectiveness for the first two depends on their exercise stimulus specificity to on-water rowing. Rowing simulators are also used in the fitness industry for exercise and in all applications the potential for injury should be minimised. This research will produce a "specification" of on-water rowing by characterising the magnitude and timing of the forces and moments experienced on-water. Rowing simulator agreement with this specification will be tested, modifications suggested for their improvement, and one modified and retested. Simulator rowing will be computer-modelled and the potential for injury assessed.Read moreRead less
Tracking the musculoskeletal health and performance of talented adolescent female athletes. The vision is to gain an innovative understanding of risk factors for the early detection or prevention of injury, and to identify factors that promote participation longevity in young athletes. The biomechanics explored in this study will provide a basis for larger studies in future years. Large economic and social benefits can be gained from increased knowledge of injury prevention early in life. Lowere ....Tracking the musculoskeletal health and performance of talented adolescent female athletes. The vision is to gain an innovative understanding of risk factors for the early detection or prevention of injury, and to identify factors that promote participation longevity in young athletes. The biomechanics explored in this study will provide a basis for larger studies in future years. Large economic and social benefits can be gained from increased knowledge of injury prevention early in life. Lowered injury costs provide immediate cost benefits to the nation. Ultimately, in a nation familiar with the high costs of cardiovascular and musculoskeletal diseases, the health sector of Australia will be the greatest benefactor of this project.Read moreRead less
Evaluating the impact of obesity on knee load over time in those who have undergone optimal surgical re-alignment after total knee replacement . This project investigates the impact of obesity on alignment and knee load over time in those who have undergone total knee replacement. This information is critical for understanding whether obesity results in increasing knee load after surgery which can lead to more rapid wearing of the knee surfaces and an earlier need for revision surgery.
Foot-down not ground-up: moving from splint to natural models for children's shoe design. We will provide much-needed knowledge of the impact of children's footwear on their musculoskeletal development, by conducting rigorous experimental comparisons of a standard school shoe, a custom-built 'midfoot flexing' shoe, bare feet, and a new school shoe design concept developed by university researchers to enhance rather than disrupt natural foot function. The innovation will make Bata Australia the f ....Foot-down not ground-up: moving from splint to natural models for children's shoe design. We will provide much-needed knowledge of the impact of children's footwear on their musculoskeletal development, by conducting rigorous experimental comparisons of a standard school shoe, a custom-built 'midfoot flexing' shoe, bare feet, and a new school shoe design concept developed by university researchers to enhance rather than disrupt natural foot function. The innovation will make Bata Australia the first manufacturer to embrace evidence-based shoe design, and will be an opportunity for the Company to provide global leadership in the field. Our advances will inform health professionals, manufacturers and parents in the task of improving the musculoskeletal health of young Australians.Read moreRead less
A Wearable Motion Analysis System: Novel Clinical and Research Applications. Because the biomechanical analysis of human motion is confined to the laboratory, it often has restricted applicability. This is a recognized limitation, because laboratory studies cannot capture the true picture of how individuals move under conditions encountered during daily living. Consequently there are many situations where a more complete and realistic knowledge of biomechanics would be significant advantage such ....A Wearable Motion Analysis System: Novel Clinical and Research Applications. Because the biomechanical analysis of human motion is confined to the laboratory, it often has restricted applicability. This is a recognized limitation, because laboratory studies cannot capture the true picture of how individuals move under conditions encountered during daily living. Consequently there are many situations where a more complete and realistic knowledge of biomechanics would be significant advantage such as in the diagnosis, treatment and rehabilitation of movement disorders and injuries. The research project described in this proposal would for the first time, obtain comprehensive biomechanical data outside the laboratory using a fully integrated wearable motion analysis system.Read moreRead less
Children Walking Well. Healthy feet in childhood are the foundation for musculoskeletal health and mobility throughout life. However, little is known about the effect of shoes worn on children. This Australian project is the first to address this shortcoming. A multidisciplinary team will investigate: factors contributing to consumer decision-making; footwear usage and selection; and the relationship between footwear styles, anatomical profile, biomechanics and physical activity. From our id ....Children Walking Well. Healthy feet in childhood are the foundation for musculoskeletal health and mobility throughout life. However, little is known about the effect of shoes worn on children. This Australian project is the first to address this shortcoming. A multidisciplinary team will investigate: factors contributing to consumer decision-making; footwear usage and selection; and the relationship between footwear styles, anatomical profile, biomechanics and physical activity. From our identification of mismatches between evidence of the relationship between shoes and function and current stakeholder knowledge and decision-making, we will make recommendations for how shoe manufacturers and health professionals can promote healthy feet in children.Read moreRead less
Understanding Tendon Response to Sport and Exercise: Implications for Optimising Training, Injury Prevention and Accelerated Rehabilitation. This research will use frontier technologies to establish the effect of physical activity on tendon adaptation and injury. It will address National Research Priorities and lead to contemporary evidence-based physical activity practices to optimise health and fitness, prevent injury, and expedite rehabilitation after injury. Given the significant national in ....Understanding Tendon Response to Sport and Exercise: Implications for Optimising Training, Injury Prevention and Accelerated Rehabilitation. This research will use frontier technologies to establish the effect of physical activity on tendon adaptation and injury. It will address National Research Priorities and lead to contemporary evidence-based physical activity practices to optimise health and fitness, prevent injury, and expedite rehabilitation after injury. Given the significant national investment in sport, the rise in obesity, and the immense cost of sedentary behaviour and sport-related injuries, this research will have applications for enhancing physical activity recommendations that maintain health for all Australians. It will enhance Australia's leading position in international sport and sport science research and have beneficial applications for occupational health.Read moreRead less
Influence of athletic footwear on lower limb biomechanics of pubertal girls. This project aims to determine whether athletic footwear with appropriate design features can help improve neuromuscular control and, in doing so, reduce the potentially deleterious forces on the knee and lower limb structures of pubertal girls. As girls reach puberty, they become less able to control the movement patterns of their lower limbs, particularly in high-demand tasks like running and jumping. Better-designed ....Influence of athletic footwear on lower limb biomechanics of pubertal girls. This project aims to determine whether athletic footwear with appropriate design features can help improve neuromuscular control and, in doing so, reduce the potentially deleterious forces on the knee and lower limb structures of pubertal girls. As girls reach puberty, they become less able to control the movement patterns of their lower limbs, particularly in high-demand tasks like running and jumping. Better-designed footwear for pubertal girls may improve movement patterns, decrease the likelihood of musculoskeletal injury and improve physical activity participation rates. Project outcomes may lead to the development of such footwear, and are also anticipated to expand our understanding of female developmental biomechanics.Read moreRead less
Optimising the spring in your step to enhance footwear design. This project aims to examine how the nervous system adjusts the mechanical function of our feet across a spectrum of speeds, from slow running through to maximal effort sprinting. The proposed research will explore how the nervous system controls the function of the foot to meet the ever-varying demands of locomotion in the real-world. Expected outcomes of this project are to determine if running shoes help or hinder the natural spri ....Optimising the spring in your step to enhance footwear design. This project aims to examine how the nervous system adjusts the mechanical function of our feet across a spectrum of speeds, from slow running through to maximal effort sprinting. The proposed research will explore how the nervous system controls the function of the foot to meet the ever-varying demands of locomotion in the real-world. Expected outcomes of this project are to determine if running shoes help or hinder the natural spring-like function of the foot. It will explain a conceptually novel design allowing shoes to support our feet, whilst harnessing the energetic benefits of the foot's spring-like function. This research has the potential to revolutionise athletic footwear design and has direct implications for enhanced performance in running athletes.Read moreRead less