Computer Assisted Rehabilitation Environment (CAREN) – an interactive system that can be used to treat and rehabilitate patients with, for example, back pain or posture and balance difficulties. It contains the latest technology for the registration, evaluation and training of functional human behaviour. The system consists of a motion base, integrated force plates, eight-camera real-time motion capture system, and a projection system, used for a range of posture and balance related applications. disability sport lab – used for testing and assessment of submaximal and maximal aerobic fitness, anaerobic fitness, lung function, body composition and biochemical analyses of the immune system. Exercise testing is carried out in a number of settings such as using the treadmill for both wheelchair propulsion and running, and wheelchair, arm crank, handcycle and cycle ergometry. 3T MR imaging – enables high definition scans to be taken in a shorter amount of time, improving comfort and convenience. The increased image clarity provided by the 3T is beneficial in the diagnosis of more subtle conditions and in diagnosing conditions with a high level of accuracy. musculoskeletal and cardiac ultrasound – have superb imaging capabilities and increased contrast resolution. This enables enhanced visualisation of smaller conditions with greater sensitivity and aids the assessment process to support early diagnosis. Core study areas include orthopaedic sports biomechanics, neuromuscular function, physiology of endurance performance, risk and recovery of sport injury, research methods for sport and exercise, basic science and regenerative therapy, emerging technologies for health and wellbeing, motion analysis of human movement, developing computer models for sports biomechanics, sports injury, and a research project. Semester 1 Compulsory Orthopaedic Sport Biomechanics Neuromuscular Function Physiology of Sports Performance The Risk of, and Recovery form, Sports and Musculoskeletal Injury Semester 2 Optional Measurement of Human Movement Developing Computer Models for Sports Biomechanics