Australian doctors need transparent, publicly scrutinised and accessible COVID-19 triage policies to enable them to honour their legal obligations before making sometimes “impossible” decisions in cases where ICUs and hospitals are overwhelmed with critically ill patients.
Viome’s early detection device has been designated a Breakthrough Device by The Food and Drug Administration (FDA) in the US.
QUT Associate Professor Chamindie Punyadeera has spent a decade researching the possibility of saliva being the optimum diagnostic liquid for the early detection of oral and throat cancer.
Professor Punyadeera was driven to this field of research after her young brother-in-law passed away within six months of being diagnosed with oral cancer.
Her systematic collection of saliva samples from oral and throat cancer patients, establishment of saliva collection and optimisation protocols, identification of a key unmet-clinical need and work with clinicians provided the foundations for the commercialisation of the new device.
“This test could save many lives because until now early-stage oral cancer has been hard to detect because effective diagnostic tools have not been available,” Professor Punyadeera said.
“This has led to late diagnosis, a poor prognosis and low survival rates.”
Professor Punyadeera said the risk of oral cancer increased with age and increased more rapidly after the age of 50.
The QUT research team comprised Professor Punyadeera, her PhD students and postdoctoral research fellows.
A preprint of Professor Punyadeera’s latest research The salivary metatranscriptome as an accurate diagnostic indicator of oral cancer is available here. The article has been accepted for publication in npj Genomic Medicine from Nature Research.
Professor Punyadeera’s research is supported by grant #1145657 that was awarded through the 2017 Priority-driven Collaborative Cancer Research Scheme and funded by Cancer Australia.
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QUT researchers have used experimental x-ray techniques at the Australian Synchrotron to gain fundamental insights into how gypsum dehydrates under pressure and the processes that create earthquakes.