Mechanisms Underlying Adaptation To Reactive Balance Training For Falls Prevention
Funder
National Health and Medical Research Council
Funding Amount
$83,832.00
Summary
Reactive balance training using unpredictable trips and slips can reduce fall rates in older people by 60%, a significant improvement on current interventions. This project will determine the optimal dose to and physiological adaptations underlying reactive balance training. It will also determine how older people with a high fall risk benefit by this training. This study has the potential to enhance clinical practice and assist older people in maintaining independence and quality of life.
Nerve And Muscle Excitability In Inclusion Body Myositis
Funder
National Health and Medical Research Council
Funding Amount
$81,294.00
Summary
Our study will use recently developed neurophysiological techniques to study nerve and muscle excitability in sporadic inclusion body myositis, a poorly understood progressive muscle disease for which no effective treatment is known. We will determine whether the electrical properties of nerve and muscle cell membranes are affected and obtain clues as to where this dysfunction may occur. This may aid development of effective therapies through a better understanding of disease mechanisms.
Temporomandibular Disorders (TMD) are characterised by pain and limited jaw movement and are a significant issue. Current management is influenced by the view of a simple association between pain and limited movement. This study will test a new theory that an individual's motor response to pain is influenced by the complexity of the jaw motor system as well as the individual's pain experience. This project will point towards individualised recommendations for effective management of TMD.