Adaptation Of Muscle To Eccentric Exercise And Its Clinical Applications 194272
Funder
National Health and Medical Research Council
Funding Amount
$196,410.00
Summary
Work in this laboratory has concentrated on Delayed Onset Muscle Soreness (DOMS), the soreness felt for several days after unaccustomed exercise. This is particularly so when the exercise involves stretching of active muscle, called eccentric exercise, at longer muscle lengths. DOMS is due to microscopic muscle damage. A rapid training effect, leading to reduced soreness from a subsequent bout of similar exercise, has been identified by us as due to a specific structural adaptation. This results ....Work in this laboratory has concentrated on Delayed Onset Muscle Soreness (DOMS), the soreness felt for several days after unaccustomed exercise. This is particularly so when the exercise involves stretching of active muscle, called eccentric exercise, at longer muscle lengths. DOMS is due to microscopic muscle damage. A rapid training effect, leading to reduced soreness from a subsequent bout of similar exercise, has been identified by us as due to a specific structural adaptation. This results in the optimum length for tension generation moving to longer muscle length so that the muscle is less likely to be damaged during subsequent stretches. Hypothesizing that gross muscle tears arise from the microscopic damage, we have begun investigating whether eccentric exercise training can prevent hamstring muscle injuries. We have shown that eccentric exercise shifts the optimum length for contraction in human hamstring muscles. We are now examining athletes with past injuries, known to be likely to re-injure. Other experiments are designed to show that sports that cause injury do indeed include eccentric exercise of the hamstring muscles. We are also investigating the effectiveness of eccentric exercise in treating apparently normal children who compulsively walk on their toes. We have built monitoring equipment and are monitoring both conventional and exercise based treatments designed to shift muscle optimum length to longer lengths to allow the children to place their heels on the ground. Finally, most muscles contain different fibre types, distinguished mainly by their speed of contraction. It has been suggested that they are not all uniformly susceptible to damage from eccentric exercise, a result not predicted by our theory. However, we hypothesize that secondary factors, particularly the length for generating optimum tension, may be responsible for these differences. We plan to test this idea by measuring properties of different types of motor units.Read moreRead less
Physiotherapist Led Stress Inoculation Intervention Integrated With Exercise For Acute Whiplash Injury
Funder
National Health and Medical Research Council
Funding Amount
$518,960.00
Summary
Physical and mental health outcomes following whiplash injury due to a road traffic crash are poor. Early stress system responses are associated with poor recovery. This study will investigate the effectiveness of a physiotherapist led stress inoculation intervention integrated with currently recommended exercise rehabilitation to improve health outcomes after whiplash injury.
Pre-clinical Evaluation Of Nano-membrane Dressings To Promote Wound Healing
Funder
National Health and Medical Research Council
Funding Amount
$188,600.00
Summary
This project will investigate whether a novel type of wound dressing can promote faster wound healing and reduce scarring. Time taken to heal is one of the best predictors of whether a wound will heal with significant scarring. The faster wounds heal the better. We have identified a new dressing with specific nano-scale pores that may promote faster healing. This dressing will be tested in the best model of human wound healing with the potential to progress to clinical trials if successful.
Whiplash Injury: Classification, Prediction And Directives For Improved Management Strategies.
Funder
National Health and Medical Research Council
Funding Amount
$331,674.00
Summary
Whiplash is a costly condition with many people developing chronic symptoms. This research aims to improve the diagnosis and classification of the condition from the time of injury until either recovery or the development of persistent pain. This will facilitate the early identification of those at risk of poor recovery and will lay the foundations for the development of improved early management, particularly in primary care.
Hypothermia Prior To Decompression For Treatment Of Acute Spinal Cord Injury
Funder
National Health and Medical Research Council
Funding Amount
$294,163.00
Summary
In spinal cord injuries, the cord is compressed as a result of vertebral injury. Urgent relief of compression improves outcome, however, is difficult because of the complexity of pre-surgical management. Our data demonstrate that hypothermia stops compressive spinal cord injury, allowing decompression to be performed in a period that will benefit most patients. This project aims to undertake the studies necessary before beginning a human trial of hypothermia prior to decompressive surgery.
Psychophysiological Indices Of Recovery After Traumatic Brain Injury
Funder
National Health and Medical Research Council
Funding Amount
$302,123.00
Summary
Traumatic brain injury, the most common form of brain injury in young Australian adults, is a devastating problem causing social isolation, poor employment outcomes and reliance on government services. This project will contribute to the development of improved rehabilitation programs through a better understanding of the cognitive and emotion perception deficits following traumatic brain injury.