Investigating Caloric Vestibular Stimulation As A Novel Therapeutic Intervention For Chronic Pain, Mania And Depression.
Funder
National Health and Medical Research Council
Funding Amount
$340,963.00
Summary
Chronic pain, mania and depression are common health problems worldwide and represent an enormous burden of illness. Current treatments may be costly, invasive and have serious side-effects. In the proposed project, demonstration of therapeutic benefit with a novel, simple method of brain stimulation without such limitations could change how these disorders are managed. Moreover, the findings would be of substantial significance in developing countries where treatments are often non-existent.
The Cause Of Undescended Testis And Inguinal Hernia
Funder
National Health and Medical Research Council
Funding Amount
$743,848.00
Summary
This study aims to define in both animal models and children how the testis descends from the abdomen to scrotum, and how undescended testis and inguinal hernia are likely to be caused by defects in the same, very indirect signalling pathway. The results will demonstrate where to look for genetic causes and proof of principle for possible future medical treatments for the 3 commonest major operations in children for congenital and acquired undescended testis and inguinal hernia.
An Investigation Of Cortical Function In Autism Spectrum Disorders Using TMS, FMRI And EEG
Funder
National Health and Medical Research Council
Funding Amount
$324,480.00
Summary
Autism spectrum disorders (ASD) are severe psychiatric conditions, but our neurobiological understanding of these disorders is limited. Using an array of modern neuroscience techniques, this study investigates aspects of brain functioning that may contribute to social and behavioural impairments in ASD. While enhancing our neurobiological knowledge, this research also provides exciting new directions for ASD assessment and treatment.
Characterising Post Stroke Neuroplasticity In Humans – Identifying A Critical Window For Rehabilitation
Funder
National Health and Medical Research Council
Funding Amount
$764,419.00
Summary
Despite major investment in care for stroke patients, almost all have persisting disability. Stroke causes loss of brain cells that cannot be replaced. Some recovery is possible through compensatory mechanisms. In addition, intact cells around the stroke undergo growth that is critical for recovery. Animal studies suggest these changes take place in a “critical window” after stroke. Applying therapies in this window should improve outcomes. We will use novel approaches to define the “critical wi ....Despite major investment in care for stroke patients, almost all have persisting disability. Stroke causes loss of brain cells that cannot be replaced. Some recovery is possible through compensatory mechanisms. In addition, intact cells around the stroke undergo growth that is critical for recovery. Animal studies suggest these changes take place in a “critical window” after stroke. Applying therapies in this window should improve outcomes. We will use novel approaches to define the “critical window” in patients after strokeRead moreRead less
I am a neurophysiologist who examines the neural control of movement and the interaction of sensation and movement in human subjects. I study cortical and motoneuronal events during exercise and muscle fatigue, how cortical connections to the motoneurones change with practice of motor tasks, and whether they can be changed artificially. I also study proprioception i.e. the sensations related to relative position and movement of parts of the body and the production of muscle force.