Development Of A Rapid, Non-invasive And Biocompatible Bedside Sensing Method For Jaundice Embedded In A Newborn Nappy
Funder
National Health and Medical Research Council
Funding Amount
$541,744.00
Summary
Severe jaundice is a life threatening condition for which an effective screening tool in infants is currently unavailable. There is an urgent need to identify a suitable, reliable and affordable bedside test to positively impact upon the lives of millions of children worldwide by facilitating effective early intervention. This project will validate a non-invasive, affordable bedside test for neonatal jaundice, using a urine test positioned in a newborn’s nappy.
A Practical New Method Of Measuring Population Salt Intake
Funder
National Health and Medical Research Council
Funding Amount
$327,193.00
Summary
The World Health Organization has set a target for member countries to reduce salt intake by 30% by 2025. Key to this is measurement of population salt intake. Collection of 24-hour urine samples is the gold standard used to estimate salt intake but this method is burdensome. Collection of a single urine sample is an alternative method. This project will bring together all of the available data worldwide to assess the reliability of using a single urine sample to measure population salt intake.
I am a neuroscientist translating basic knowledge on the enteric nervous system into new therapies for children with previously untreatable bowel motility disorders. I am heading a multidisciplinary group of clinicians and scientists leading the world in
A Novel Diagnostic Method To Determine The Likelihood Of Kidney Fibrosis And Progressive CKD In Patients With Diabetes Mellitus And Other Forms Of Chronic Proteinuric Renal Disease
Funder
National Health and Medical Research Council
Funding Amount
$508,848.00
Summary
The project aims to develop a new non-invasive diagnostic method to detect patients with early CKD, a major health burden that is mainly driven by obesity and diabetes. It will specifically determine whether exfoliated tubular cells in the urine reflect kidney disease progression and hence provide a proof of concept on whether our newly developed hyperspectral technique can be used as a non-invasive diagnostic tool to identify patients with kidney disease.