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.
Neurophysiological Basis For Sensorimotor Interventions In Rehabilitation After Stroke
Funder
National Health and Medical Research Council
Funding Amount
$332,036.00
Summary
Stroke is estimated to cost the Australian government almost $2 billion annually, and is the most common cause of death after heart disease and cancer and one of the largest single causes of long-term disability. Of people who survive a stroke, a large number have some degree of residual motor dysfunction on one side of the body. Motor rehabilitation programmes are generally considered to enhance the recovery of motor function and to reduce the degree of long-term disability. However the rationa ....Stroke is estimated to cost the Australian government almost $2 billion annually, and is the most common cause of death after heart disease and cancer and one of the largest single causes of long-term disability. Of people who survive a stroke, a large number have some degree of residual motor dysfunction on one side of the body. Motor rehabilitation programmes are generally considered to enhance the recovery of motor function and to reduce the degree of long-term disability. However the rationale for the design of effective rehabilitation programmes is largely empirical, and there is uncertainty regarding the efficacy and cost-effectiveness of currently used therapies. The empirical nature of stroke rehabilitation has resulted in a diversity of techniques, many of which were pioneered 30-40 years ago, and which are generally aimed at enhancing brain plasticity as a means to facilitate motor recovery. However, despite the belief that brain plasticity is a key to recovery, it is still not known how best to develop this potential for reorganisation into practical interventions that could be introduced in stroke rehabilitation. The aim of the present study is to investigate the physiological bases for the action of commonly used sensorimotor rehabilitation strategies and identify those strategies which are most effective in bringing about corticomotor reorganisation, in the belief that such reorganisation is fundamental to motor recovery. Specifically we will investigate the changes in the organisation of the cortical projection to muscles of the upper limb as a result of passive movement, resisted and non-resisted movement, increased functional motor use and visuomotor training programmes. It is anticipated that the study will lead to a better understanding of the physiological basis for therapeutic interventions after stroke and will allow a more rational approach to the design of effective rehabilitation programmes for stroke patients.Read moreRead less
Evaluation Of Nitrous Oxide In The Gas Mixture For Anaesthesia: A Randomised Controlled Trial (The ENIGMA Trial)
Funder
National Health and Medical Research Council
Funding Amount
$490,125.00
Summary
There are about 2 million anaesthetics given each year in Australia (1:10 Australians), with more than 1 million Australians being exposed to nitrous oxide (laughing gas). Despite being around for more than 150 years, there has yet to be a large trial of the safety and benefits of nitrous oxide, particularly when compared with newer (safer?) anaesthetic drugs. Nitrous oxide is not a particularly strong anaesthetic and so it must be mixed with other drugs. Current practice in Australia and around ....There are about 2 million anaesthetics given each year in Australia (1:10 Australians), with more than 1 million Australians being exposed to nitrous oxide (laughing gas). Despite being around for more than 150 years, there has yet to be a large trial of the safety and benefits of nitrous oxide, particularly when compared with newer (safer?) anaesthetic drugs. Nitrous oxide is not a particularly strong anaesthetic and so it must be mixed with other drugs. Current practice in Australia and around the world is to give 70% nitrous oxide in oxygen along with another anaesthetic gas in order to produce a depth of anaesthesia sufficient for surgery. This is despite knowledge that nitrous oxide interferes with the production of DNA. DNA is used to programme cell division and function - it is the building block of cell and tisue growth. It is known that nitrous oxide can impair some tissue functions, such that anaemia and, possibly birth defects can occur. Such effects are rare, but recent evidence suggests that milder abnormalities may occur more commonly than previously thought. There is also good evidence that nitrous oxide increases the risk of severe nausea and vomiting after surgery. The adverse effects on DNA production raises the possibility of nitrous oxide causing immune deficiency, heart ischaemia, (angina), nerve and spinal cord damage, and increased cancer risk in hospital staff chronically exposed to low levels of nitrous oxide. The prevailing view is that nitrous oxide is a cheap, relatively safe drug that can reduce the exposure to other anaesthetic drugs. However, the development of many new anaesthetic drugs demands a re-evaluation of the role of nitrous oxide in current anaesthetic practice.Read moreRead less
Connectivity Of Regenerating Axons Following Spinal Cord Injury
Funder
National Health and Medical Research Council
Funding Amount
$586,428.00
Summary
Our objective is to thoroughly investigate the connections made by regenerating nerve fibres in mice which are treated with specific compounds to inhibit scarring as well as with active exercise following spinal cord injury. This will provide evidence of the potential of these compounds as a therapeutic intervention. Understanding how the nervous system rewires following exercise intervention will provide insights as to how new connections can be shaped to ensure optimal recovery of function.