A new fibre optic medical tool is revolutionising our understanding of serious but socially embarrassing digestive illnesses, such as constipation, diarrhoea and irritable bowel syndrome. Thanks to this device, medical scientists can see for the first time the coordinated, fine and complex muscular activity of the human digestive system in action.
FIBRE OPTIC TECHNNOLOGY IS HELPING JOHN ARKWRIGHT UNDERSTAND OUR DIGESTIVE FUNCTION. CREDIT: ISTOCKPHOTO
CSIRO optical physicist Dr John Arkwright, together with Dr Philip Dinning, of Flinders University, collected a 2011 Eureka Prize for their creation of the fibre optic catheter, which gleans information about digestive function by measuring pressure. Continue reading Fibre optics: from cables to colon health→
A Flinders University chemist is using Australia’s OPAL research reactor at Lucas Heights in Sydney to investigate ancient Aboriginal Australian society.
Using the technique called neutron activation analysis, Dr Rachel Popelka-Filcoff can “geochemically fingerprint” Aboriginal ochre pigments from different locations, archaeological sites and artefacts. Rachel Popelka-Filcoff can trace the cultural use of ochre using Australia’s research reactor. Credit: Ashton Claridge, Flinders MediaAs the geochemical composition of ochre varies with location, she can correlate each sample with its site of origin, gaining information on cultural practices, travel and exchange patterns, and the relationship of Aboriginal people to the landscape. “Ochre pigments are highly significant in Aboriginal culture,” says Rachel. “Cultural expression often requires a specific pigment. Applying ochre to an object such as a spear can transform both its colour and its cultural meaning.”
Dr Roman Dronov, also from Flinders, is using the reactor to study the formation of bacterial protein layers. He is applying what he finds to constructing a new type of biosensor based on these layers and porous silicon. These highly sensitive devices can rapidly detect trace amounts of molecules, such as environmental poisons and markers of disease—a great improvement on traditional analytical methods. Continue reading OPAL reactor fingerprints Aboriginal ochre→
Donor corneas conditioned with DNA before being transplanted into new eyes are already actively contributing to their own success in experimental animals such as sheep.
An Australian research group is making corneal transplant easier. Credit: iStockphotoThe DNA is inserted into the cells of the cornea after it has been harvested. Then, following implantation, it produces proteins that help overcome immunological rejection.
This is one of many strands of research aimed at increasing the success rates of corneal transplants and other eye disease treatments undertaken by Prof Keryn Williams at Flinders University. Continue reading Helping eyes to help themselves→
Hundreds of Aussie science achievements that you can share in speeches, posts and publications
