Cerebral Palsy (CP) is a devastating, common developmental brain disorder once assumed to be due to lack of oxygen at birth. Using our unique Biobank with DNA and clinical data from families with a CP child, we are examining the genetic origins of CP and how genes and risk factors in pregnancy contribute. We will use computer modelling and testing in animals and brain cells, to understand causes of CP and devise predictive, preventative and therapeutic strategies.
Inflammatory Pathways For Novel Therapeutic Interventions In Preterm Delivery
Funder
National Health and Medical Research Council
Funding Amount
$568,006.00
Summary
Preterm birth is common and carries severe risks for the child. Existing therapies are not very successful in arresting preterm labour or improving outcomes for the fetus. We have discovered that blocking inflammatory ‘sensor’ molecules can slow labour progression. This project will (1) increase our knowledge of the inflammatory pathways that initiate early labour, and (2) define the mechanism of action and safety of a new drug that has potential for delaying preterm birth in women.
Mechanical Factors In Normal Human Colonic Motility
Funder
National Health and Medical Research Council
Funding Amount
$650,023.00
Summary
Abnormal human colonic contractions cause significant medical, societal and financial burdens. Diagnosis and treatment of motility disorders requires an understanding of normal colonic contractility against which to measure dysfunction. Through state-of-the-art recording and analytical techniques, developed by the applicants, this project will provide the first clear description of normal human colonic motor patterns and how they are generated.
Clarifying The Pathogenic Role Of Arousal-hyperventilation In Obstructive And Central Sleep Apnoea: Testing Fundamental Pathophysiological Mechanisms And A Strategic New Treatment
Funder
National Health and Medical Research Council
Funding Amount
$414,717.00
Summary
This project is designed to understand the mechanisms underpinning much more stable breathing during deep sleep in obstructive sleep apnoea (OSA). A newly developed analytical technique will be used to examine breathing effort changes across sleep, and interactions with respiratory-induced awakenings in OSA patients. In addition, a new treatment designed to stabilise breathing will be tested and refined towards a new treatment option for OSA and for central sleep apnoea.