Promoting Upper Limb Recovery After Stroke In People With Severe Paresis.
Funder
National Health and Medical Research Council
Funding Amount
$348,948.00
Summary
Stroke survivors with severe arm disability have poor potential for functional recovery. Yet, an incomplete understanding of indicators of good potential currently dictate clinical decisions concerning referral to rehabilitation and therapy provision. The proposed research aims to characterise the dynamic capacity of the severely damaged brain to recover. This research will provide the foundations for more personalized health care options and extend our understanding of this growing cohort.
Low back pain is a major global health problem and the leading cause of disability worldwide . This project will trial a new treatment for back pain that is specifically aimed at risk factors for developing ongoing back problems. Previously shown to be successful in patients suffering persistent back problems, this promising new treatment will be trialled in patients soon after they develop lower back pain as a preventative approach.
Why Do People Keep Hurting Their Back: A Longitudinal Study Of Biological, Psychological And Social Predictors
Funder
National Health and Medical Research Council
Funding Amount
$739,946.00
Summary
We aim to identify why people continue to suffer episodes of back pain. If we can identify factors that predict the course of back pain we can target treatments to the right people to reduce the burden of this common condition. We will follow people for a year after an acute episode. We will measure novel issues like control of trunk muscles, inflammatory response, and how the nervous system deals with pain. We will also investigate how these factors interact with social and psychological issues
Why Do People Develop Chronic Low Back Pain? An Investigation Of Brain Function As A Predictor Of Chronic Low Back Pain.
Funder
National Health and Medical Research Council
Funding Amount
$96,631.00
Summary
Chronic low back pain is the most disabling condition worldwide. Two objective measures of brain function, electrical signals of brain activity (electroencephalography), and attentional bias observed with eye tracking technology will be measured in a group of participants with acute back pain. These measurements will provide objective markers of brain function that may be predictive of the transition from acute to chronic low back pain, providing new opportunities for treatment.
Eighty percent of adults will suffer back pain at some time during their life. More than one in three will develop chronic back pain and cost Australia about $9 billion per year. We can now identify those who will develop chronic back pain early. This project will test a new method of treating these people who are risk of chronic back pain. We predict that our short and targeted intervention will stop these people from developing of chronic back pain and this will lead to massive savings to the ....Eighty percent of adults will suffer back pain at some time during their life. More than one in three will develop chronic back pain and cost Australia about $9 billion per year. We can now identify those who will develop chronic back pain early. This project will test a new method of treating these people who are risk of chronic back pain. We predict that our short and targeted intervention will stop these people from developing of chronic back pain and this will lead to massive savings to the Australian communityRead moreRead less
RESTORE - Individualised Movement Rehabilitation And Movement Sensor Biofeedback For Chronic, Disabling Low Back Pain
Funder
National Health and Medical Research Council
Funding Amount
$1,214,385.00
Summary
Low back pain is the leading cause of disability in Australia, with an enormous cost burden for society. Available treatments have resulted in only moderate improvements that typically do not last. We propose to investigate the clinical- and cost-effectiveness of two new treatments that have shown promising early results: i) an individualised movement and cognitive rehabilitation approach (‘Cognitive Functional Therapy’) and ii) biofeedback from wireless movement sensors worn on the spine