Immediate Or Delayed Cord Clamping In The Preterm Birth Transition: Is There A Trade-off Between Circulatory Stability And Sympathoadrenal Activation?
Funder
National Health and Medical Research Council
Funding Amount
$824,582.00
Summary
Using an established experimental model of preterm birth, this project will determine if delayed clamping of the umbilical cord at birth leads to better stability of the circulation than immediate clamping, and if this improved stability comes at a cost of not activating the involuntary nervous system essential for enhancing metabolic and lung function after birth. The results of this study will provide fundamental new information for optimizing birth delivery strategies in preterm babies.
Understanding The Mechanisms Of Development And Treatment In Hydrocephalus.
Funder
National Health and Medical Research Council
Funding Amount
$395,914.00
Summary
This project aims to investigate the progressive change in cerebrospinal fluid dynamics, axonal damage and tissue mechanical properties during the development and treatment of hydrocephalus in-vivo. Results from this study is important to elucidate the mechanisms of hydrocephalus and to improve treatment and diagnosis of hydrocephalus.
Risk Assessment And Prevention Of Respiratory Complications In Paediatric Anaesthesia
Funder
National Health and Medical Research Council
Funding Amount
$494,253.00
Summary
Respiratory problems account for more than three quarters of all critical incidents and a third of all cardiac arrests in healthy children undergoing anaesthesia for surgical procedures. It is therefore vital to identify high risk children early to be able to adapt the anaesthesia regimen accordingly. This series of studies will study new prediction and prevention strategies to minimise respiratory problems and therefore improve the safety for our children when undergoing anaesthesia.
A Novel Optical Stimulation Method For Obstructive Sleep Apnoea Treatment
Funder
National Health and Medical Research Council
Funding Amount
$510,913.00
Summary
This project aims to develop and characterize a novel optogenetic pharyngeal stimulation system to dilate the upper airway using a light stimulus. This will provide proof-of-concept for a new minimally invasive treatment option for obstructive sleep apnoea.
The uneven way that airways narrow (heterogeneity) would seem to be an important factor affecting the natural history, clinical expression and response to treatment in patients with severe asthma. In this study we will be looking at the mechanism for heterogeneity in sufferers of severe asthma in relation to how stiff the lung is and the type of inflammation seen in these patients.
Optimising Lung Protective Ventilation At Birth Using The Volumetric Response Of The Lung In A Preterm Lamb Model
Funder
National Health and Medical Research Council
Funding Amount
$611,021.00
Summary
Prematurity is a common problem which constitutes a major health-care burden. The preterm lung often cannot function independently at birth but is very fragile and susceptible to damage from the very first breathes of life. Life-saving mechanical ventilatory support must protect the lung from injury as well aid lung function. This project aims to improve ventilation strategies for supporting and protecting the preterm lung using novel approaches and innovative technologies.
Is Asthma In The Elderly A Disease Of The Peripheral Airways?
Funder
National Health and Medical Research Council
Funding Amount
$502,437.00
Summary
Elderly asthmatics have poorer clinical outcomes compared with younger asthmatics. The reasons for this are unclear but may involve age-related changes in the disease itself. In this project we aim to show that asthma in the elderly is dominated by abnormalities of very small peripheral airways, in contrast to younger patients where the abnormalities occur in larger airways. The results will provide the basis for new and better targeted treatment strategies for asthma in the elderly.
Effects Of Increased Endolymph Volume On Cochlear And Vestibular Function And Morphology Of Inner Ear Tissues
Funder
National Health and Medical Research Council
Funding Amount
$313,391.00
Summary
Our recent research suggests that the vertigo attacks associated with enlarged fluid volumes in the inner ear, in diseases such as Ménière's Disease, maybe triggered when the fluid pressure forces open tissue valves located in the fluid-ducts connecting the hearing and balance organs. This project aims to identify the functional role of these valves, and to develop an animal model of abrupt changes in vestibular activity due to hydrops, to allow future treatments to be developed.