Plasticity Of Sensorimotor Representations In Adult Primate Cortex
Funder
National Health and Medical Research Council
Funding Amount
$554,656.00
Summary
Cells in some regions of the brain, collectively known as the sensorimotor cortex, control our capacity to purposefully move the arms and hands. Damage to these regions in adults causes severe deficits. However, rehabilitative training can restore some control over the muscles. To understand how the brain circuits change to compensate for injury, and what effect rehabilitation may have on these changes, I will study cellular alterations in the movement control pathways in the cerebral cortex.
Models Of Care And Health Professional Collaboration For Patients With Type 2 Diabetes Identified As Requiring Insulin In General Practice
Funder
National Health and Medical Research Council
Funding Amount
$90,124.00
Summary
More insulin initiation for people with type 2 diabetes in general practice needs to occur because of the increasing prevalence of this condition and a relative shortage of specialists. Collaboration and coordination between primary and secondary care, and between doctors and nurses, may be important in achieving this. This study utilises a mixed method approach to explore the roles and relationships between the health professionals involved in this task and its impact on insulin initiation.
Relationships Between General Practice And Community Health Services To Improve Shared Service Delivery
Funder
National Health and Medical Research Council
Funding Amount
$70,455.00
Summary
The quality of care for people with chronic disease can be improved through well coordinated primary health care services. This research will contribute to better understanding the factors that contribute to effective shared service delivery between general practice and community health services. It is of significance to Australian health policy, as governments are investing to improve access to a broader range of primary health care providers and more integrated service delivery.
Staying Connected: Personalising Stroke Recovery And Rehabilitation Through New Technologies For People With Stroke Living At Home.
Funder
National Health and Medical Research Council
Funding Amount
$1,730,999.00
Summary
One in 4 people experience a stroke. On return home the person with stroke is challenged to sense, move, think, and engage in valued activities with an altered brain and body. Yet the current approach to ongoing recovery is limited. We propose to: monitor for markers of recovery using personalised sensors and artificial intelligence; deliver bursts of therapy at point of need, at home; and provide feedback through new technologies and a central hub...to stay connected, and to recover at home.
Motor problems, ranging from clumsiness to cerebral palsy, are one of the most common adverse outcomes in children born early. This study will investigate the motor development of children born <30 weeks’ gestation compared with peers born at term from birth to 5 years. We will determine whether early clinical evaluations or neuroimaging in the newborn period can predict later motor impairment at 5 years to be able to identify those who will benefit most from early intervention.
An integrated platform built on efficient informatics concepts already implemented in international research infrastructures for large-scale data management, providing access to federated databases/registries, biobank catalogues, harmonised - omics profiles, and bioinformatics tools. Patient data types will be linked via a unique identifier “RD-ID” developed jointly with the US NIH. RD-Connect is a primary enabler for IRDiRC funded research to improve treatment and management of rare diseases
We stand without falling by using silent senses from muscles and the balance organs of the inner ear to unconsciously detect and control our movements. Since the leg muscles provide both the force and the sense, and critically rely on good circulation, they are vitally important. I propose to study how these sensory and muscle functions are used to control balance, posture and stepping reflexes, making it easier to identify older people who will fall and design new preventative strategies.