The Australian Research Data Commons (ARDC) invites you to participate in a short survey about your
interaction with the ARDC and use of our national research infrastructure and services. The survey will take
approximately 5 minutes and is anonymous. It’s open to anyone who uses our digital research infrastructure
services including Reasearch Link Australia.
We will use the information you provide to improve the national research infrastructure and services we
deliver and to report on user satisfaction to the Australian Government’s National Collaborative Research
Infrastructure Strategy (NCRIS) program.
Please take a few minutes to provide your input. The survey closes COB Friday 29 May 2026.
Complete the 5 min survey now by clicking on the link below.
Use of heart rate kinetics during the rest-exercise transition for tracking changes in exercise performance in athletes. The project aims to develop an objective method for assessing fatigue and recovery in athletes during changes in training load. It is intended that this will inform training adjustments to optimise performance and reduce the risk of overtraining and injury. The method assesses the maximal rate of heart rate increase at the start of light exercise (rHRI), and has been shown in ....Use of heart rate kinetics during the rest-exercise transition for tracking changes in exercise performance in athletes. The project aims to develop an objective method for assessing fatigue and recovery in athletes during changes in training load. It is intended that this will inform training adjustments to optimise performance and reduce the risk of overtraining and injury. The method assesses the maximal rate of heart rate increase at the start of light exercise (rHRI), and has been shown in the project team’s early studies to track reductions in exercise performance when an athlete is fatigued from increased training. The project aims to now refine rHRI so it can also track improvements in exercise performance as athletes recover, and to evaluate rHRI in multiple sports and genders. A field test will be developed and mechanisms that allow it to track changes in exercise performance will be investigated.Read moreRead less
Regulatory mechanisms in skeletal muscle lipid hydrolysis. The regulation of intramuscular triglyceride (fat) utilisation by human skeletal muscle is largely unknown. Our contention is that the specialized protein enzyme, hormone sensitive lipase (HSL), has a fundamental role in intramuscular triacylglycerol utilisation and is regulated by both intramuscular levels of key metabolites and circulating hormone concentrations. We also propose control points subsequent to HSL activation are important ....Regulatory mechanisms in skeletal muscle lipid hydrolysis. The regulation of intramuscular triglyceride (fat) utilisation by human skeletal muscle is largely unknown. Our contention is that the specialized protein enzyme, hormone sensitive lipase (HSL), has a fundamental role in intramuscular triacylglycerol utilisation and is regulated by both intramuscular levels of key metabolites and circulating hormone concentrations. We also propose control points subsequent to HSL activation are important for triglyceride hydrolysis. Our proposed project examines these factors and will enhance our understanding of the regulation of muscle fat use, thereby leading to potential metabolic strategies (nutritional, pharmacological) that enhance skeletal muscle function at rest and during exercise.Read moreRead less
The role of intracellular calcium in fibre-type specific gene expression in skeletal muscle. Muscles contain different fibre types whose composition can be changed by activity. The aim of this proposal is to identify the intracellular mechanisms which control fibre type. Our hypothesis is that different patterns of intracellular calcium determine the pattern of gene expression which determines fibre type. Understanding how gene expression is regulated is a central issue in biology.
Biological Role of Contraction-Induced Heat Shock Protein Expression. It is well known that mammalian skeletal muscle increases its expression of a group of highly conserved proteins, the heat shock proteins (HSP) in response to repeated contraction. However, the biological role of this expression is unclear. The aim of this project is to determine the biological role of contraction-induced HSP expression. We expect to show that HSP synthesis in response to exercise has three major roles; 1) to ....Biological Role of Contraction-Induced Heat Shock Protein Expression. It is well known that mammalian skeletal muscle increases its expression of a group of highly conserved proteins, the heat shock proteins (HSP) in response to repeated contraction. However, the biological role of this expression is unclear. The aim of this project is to determine the biological role of contraction-induced HSP expression. We expect to show that HSP synthesis in response to exercise has three major roles; 1) to act to repair damaged proteins in recovery from muscle injury 2) to act as a "molecular motor" to translocate proteins from one region of a muscle cell to another and 3) to be released into the circulation in order to act as a central signal to activate immune cells. Such a project will be significant because it will allow for a fundamental understanding as to why these proteins are produced in response to exercise. We expect to enhance our understanding of fundamental cell biology.Read moreRead less
Intracellular calcium in intact muscle during fatigue and stretch-induced damage. Confocal microscopes can investigate intact tissues during normal function. We will develop and apply this novel approach to muscle. We expect this new approach to become a fundamental new tool for exploring muscle function under near normal conditions. Muscle pain and weakness are common disabilities in humans and we expect this new approach to provide insights into the causes and treatment of these common cond ....Intracellular calcium in intact muscle during fatigue and stretch-induced damage. Confocal microscopes can investigate intact tissues during normal function. We will develop and apply this novel approach to muscle. We expect this new approach to become a fundamental new tool for exploring muscle function under near normal conditions. Muscle pain and weakness are common disabilities in humans and we expect this new approach to provide insights into the causes and treatment of these common conditions.Read moreRead less
Reducing the fat burden: Identification of novel cellular and molecular targets for alleviating skeletal muscle insulin resistance. Insulin resistance and the associated consequences are a major public health problem in Australia and cost the healthcare system >$1.1 billion/year. Exercise training and thiaziolidinedione (TZD) treatment are therapies that partially ameliorate insulin resistance through distinct and independent mechanisms. However, neither intervention represents a viable long-ter ....Reducing the fat burden: Identification of novel cellular and molecular targets for alleviating skeletal muscle insulin resistance. Insulin resistance and the associated consequences are a major public health problem in Australia and cost the healthcare system >$1.1 billion/year. Exercise training and thiaziolidinedione (TZD) treatment are therapies that partially ameliorate insulin resistance through distinct and independent mechanisms. However, neither intervention represents a viable long-term strategy: exercise training has low compliance, while chronic TZD use is associated with several adverse side effects (edema, weight gain etc.). We will investigate the metabolic, cellular and molecular mechanisms by which these therapies each exert their positive effect on insulin action with the aim of identifying novel targets for future drug interventions. Read moreRead less
Intracellular localisation of insulin signalling proteins in human skeletal muscle following exercise. The metabolic action of insulin in skeletal muscle is enhanced by exercise, but the underlying mechanisms mediating this are unknown. Insulin receptor substrate proteins are key mediators in the intracellular insulin signalling pathway and play a central role in regulating many metabolic events. Our aim is to examine the hypothesis that exercise induces a novel subcellular redistribution of the ....Intracellular localisation of insulin signalling proteins in human skeletal muscle following exercise. The metabolic action of insulin in skeletal muscle is enhanced by exercise, but the underlying mechanisms mediating this are unknown. Insulin receptor substrate proteins are key mediators in the intracellular insulin signalling pathway and play a central role in regulating many metabolic events. Our aim is to examine the hypothesis that exercise induces a novel subcellular redistribution of these insulin receptor substrate proteins in skeletal muscle, such that the metabolic action of insulin is enhanced. Elucidating the mechanisms whereby exercise enhances insulin action underpins the development of new treatments and therapies with the aim of improving skeletal muscle function in health and disease.Read moreRead less
The effect of physical activity and a structured exercise program on the psychological and physical development of Australian primary school children. This study will explore the effects of early childhood physical activity on development. Our study will assess quantitatively the beneficial effects of exercise on personal and physical growth in young children in a non-intimidating way using a specifically designed exercise program.
Visualising vascular adaptation at the micro-scale in humans. The project aims to investigate fundamental issues in the mechanisms underlying vascular remodelling. It plans to develop novel optical scanning techniques to acquire high-resolution images of the cutaneous microvasculature, alongside absolute blood flow quantification. These novel tools would allow us to visualise and quantify functional and structural adaptations in the microvasculature in response to physiological stimuli such as h ....Visualising vascular adaptation at the micro-scale in humans. The project aims to investigate fundamental issues in the mechanisms underlying vascular remodelling. It plans to develop novel optical scanning techniques to acquire high-resolution images of the cutaneous microvasculature, alongside absolute blood flow quantification. These novel tools would allow us to visualise and quantify functional and structural adaptations in the microvasculature in response to physiological stimuli such as heat exposure and exercise. The non-invasive tool aims to enable us to assess adaptations in microvasculature health, improving our understanding of cardiovascular diseases and type 2 diabetes and potentially reducing the impact of costly and debilitating morbidities such as nephropathy, neuropathy, retinopathy, impotence and skin ulceration.Read moreRead less
Strategies to reduce risk of heat induced illness during intermittent, high intensity activity in a tropical environment. Regular intermittent, high intensity physical activity (IHIA) affords protection against modern life-style diseases (type II diabetes, coronary heart disease and some cancers) but when conducted in the tropics, exposes persons to the risk of dehydration, heat cramps, hypotension, heat syncope, heat exhaustion and heat stroke. Australia has rapid population growth in the tropi ....Strategies to reduce risk of heat induced illness during intermittent, high intensity activity in a tropical environment. Regular intermittent, high intensity physical activity (IHIA) affords protection against modern life-style diseases (type II diabetes, coronary heart disease and some cancers) but when conducted in the tropics, exposes persons to the risk of dehydration, heat cramps, hypotension, heat syncope, heat exhaustion and heat stroke. Australia has rapid population growth in the tropics and key sporting fixtures have moved to the region. We have set up the research capability and must now move on a range of IHIA in sport, workplaces, armed and emergency services to provide strategies to reduce the risk of heat induced illness in a tropical environment.Read moreRead less