The Influence Of A-actinin-3 On Muscle Structure, Metabolism, Performance And Response To Diet And Disease
Funder
National Health and Medical Research Council
Funding Amount
$624,355.00
Summary
We have identified a common genetic variant that results in absence of the fast muscle fibre protein a-actinin-3 in more than one billion humans worldwide. Loss of a-actinin-3 influences elite athletic performance, muscle bulk and strength in the general population, response to diet and exercise, and susceptibility to developing type 2 diabetes. We will now study mice and humans to determine how this gene influences variations in human performance, metabolism and severity of muscle disease.
Understanding The Human Hand In Grasping And How This Changes After Stroke
Funder
National Health and Medical Research Council
Funding Amount
$227,855.00
Summary
The hand allows remarkable feats of dexterity. But, paralysis of the hand severely limits daily activities and is common after stroke. We will determine key mechanisms that control the hand at the level of the brain and spinal cord. We will assess some limits that develop in the muscle itself. Stroke patients will be tested so that we can better understand the brain�s control of the hand and use this to enhance recovery of hand performance in those with impaired function.
A Novel Approach To The Training Of Functional Standing Following Spinal Cord Injury
Funder
National Health and Medical Research Council
Funding Amount
$412,706.00
Summary
The study will employ a new type of functional electrical stimulation (FES), strength-endurance muscle conditioning and standing training to improve stance in SCI victims with incomplete paralysis. We will evaluate an innovative combination of muscle training and novel FES protocols which allow paralysed people to stand and perform upper limb functional tasks. The primary outcomes will be duration of standing, number of repetitions of standing and sitting and upper limb function while standing.
Modulating Heat Shock Protein Expression In Skeletal Muscle To Improve The Pathophysiology Of Muscular Dystrophy
Funder
National Health and Medical Research Council
Funding Amount
$502,361.00
Summary
Duchenne muscular dystrophy (DMD) is the most common and severe form of muscular dystrophy. Dystrophic muscles are fragile, prone to injury, and regenerate poorly after damage. Defective calcium handling has been implicated in these processes. We have revealed that upregulating levels of stress proteins called _heat shock proteins� (HSPs) can improve calcium regulation in muscular dystrophy. Modulating the HSP response has significant potential to delay the onset or slow the progression of DMD.
A reduced capacity to recover balance following an imbalance episode contributes to the high incidence of falls in older adults. The goal of the present study is to determine how age-related differences in lower extremity neuromuscular and biomechanical properties are related to balance recovery capacity and falls incidence. A detailed understanding of this relationship is necessary for the development of efficacious exercise-based interventions for the prevention of falls.
Motor Unit Synchronisation And Neuromuscular Performance
Funder
National Health and Medical Research Council
Funding Amount
$198,500.00
Summary
The fine control of force is important for many everyday tasks such as writing, grasping objects between index finger and thumb, and fastening buttons. Factors that influence the ability to control force include the coordinated activation of groups of muscle fibres called single motor units. This proposal focuses on the concept that the coordinated activation of motor units is influenced by muscle activity and can impair the ability to produce finely controlled muscle contractions. The goal of t ....The fine control of force is important for many everyday tasks such as writing, grasping objects between index finger and thumb, and fastening buttons. Factors that influence the ability to control force include the coordinated activation of groups of muscle fibres called single motor units. This proposal focuses on the concept that the coordinated activation of motor units is influenced by muscle activity and can impair the ability to produce finely controlled muscle contractions. The goal of these studies is to explore the boudary conditions of the adaptive nature of the nervous system to examine how coordinated motor unit activity influences these aspects of neuromuscular performance. The outcomes of these experiments will identify if altering muscle activity influences the control of movement by altering single motor unit activity. These results will have direct application to the interpretation of abnormal movement control and tremor that is observed in certain neurological diseases such as Parkinson's disease. Furthermore, new information will be gained on the adaptability of the motor system and its role in the execution of fine motor tasks that may aid in the development of rehabilitation strategies following stroke or spinal cord injury.Read moreRead less