Addressing Healthcare Disparities In Remote And Low Resource Settings With Solid-State Biodiagnostic Devices
Funder
National Health and Medical Research Council
Funding Amount
$2,194,658.00
Summary
The vision and aspiration of this Fellowship research program is to transform the way we diagnose and monitor medical conditions affecting millions of people, namely preeclampsia, epilepsy, fetal arrhythmias and heart attacks. To this end, cutting-edge solid-state technologies will be integrated within point-of-care and wearable biodiagnostic technologies.
Safeguarding Australia against vector-borne disease bio-incursions. Traditional diagnostic tests limited by their accuracy and ability to detect more than a few pathogens at one time, presents a major hurdle to protecting Australia's companion animals from a plethora of exotic and emerging vector-borne diseases (VBD). Many of these diseases also pose a major risk to public health. This project aims to develop, validate and verify a highly accurate, cost-effective, portable metabarcoding diagnost ....Safeguarding Australia against vector-borne disease bio-incursions. Traditional diagnostic tests limited by their accuracy and ability to detect more than a few pathogens at one time, presents a major hurdle to protecting Australia's companion animals from a plethora of exotic and emerging vector-borne diseases (VBD). Many of these diseases also pose a major risk to public health. This project aims to develop, validate and verify a highly accurate, cost-effective, portable metabarcoding diagnostic test capable of detecting known, emerging and novel parasitic, bacterial and viral VBD pathogens simultaneously, from clinical samples. The assay will represent a potential paradigm shift in the way VBD are tested, for the purpose of safeguarding Australia against VBD bio-incursions.Read moreRead less