Womb of life

Womb stem cells could help regenerate a diseased liver.
Womb stem cells could help regenerate a diseased liver.

What if the very thing that assists a fetus to grow in the womb could also prevent disease in a fully grown adult?

Monash Institute of Medical Research scientists have discovered that stem cells from the womb have the potential to treat inflammatory diseases such as lung fibrosis and liver cirrhosis in both children and adults.

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Are forests really the carbon sink we need?

Ivett_300x180 Evidence is building to suggest that our forests may not be the climate change ‘get out jail free’ card we all want.

Australian Rivers Institute’s Assoc. Prof. Peter Pollard has researched rainforest lakes and rivers to test a provocative theory. The respiration of bacteria living and ‘breathing’ in these freshwater ecosystems is a major pathway for the return of rainforest carbon back to the atmosphere as the greenhouse gas carbon dioxide.

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Algae that make biofuels and hydrogen

IMB_Ben_with_algae An Australian researcher is leading an international team of scientists developing a clean source of energy from microalgae. The team have developed one algae that not only makes oil for biodiesel production but also generates hydrogen. Commercial hydrogen production uses fossil fuels and produces carbon dioxide.

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Tiny particles could assist in breast cancer screening

These optically barcoded nanoparticles could transform cancer diagnosis.
These optically barcoded nanoparticles could transform cancer diagnosis.

Blood tests using nanoparticles carrying molecules which can detect breast cancer biomarkers could save millions of lives and open the way to mass screening for many cancers.

Prof. Matt Trau, of the Australian Institute for Bioengineering & Nanotechnology at the University of Queensland, and his team are using a combination of nanotechnology and molecular biology in the project, funded by a five-year $5 million grant from the National Breast Cancer Foundation.

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Detecting aircraft fatigue

TanyaMonro_300x180 The only way to find out whether the internal structures of an aircraft are corroded is to pull the plane apart and look. But new nanotechnology-based techniques being developed by Prof. Tanya Monro, Director of University of Adelaide’s Centre of Expertise in Photonics, in collaboration with the Defence Science and Technology Organisation, could make costly visual inspection in preventive aircraft maintenance a thing of the past.

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L’Oréal Fellow looking for dark energy

Tamara Davis is looking for dark energy. Credit: timothyburgess.net
Tamara Davis is looking for dark energy. Credit: timothyburgess.net

In 1998 astronomers made an astonishing discovery—the expansion of the Universe is accelerating. The discovery required a complete rethink of the standard model used to explain how the Universe works.

“Now we know that stars, planets, galaxies and all that we can see make up just four per cent of the Universe,” says Dr Tamara Davis, a University of Queensland astrophysicist.

“About 23 per cent is dark matter. The balance is thought to be dark energy, which we know very little about.”

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A milk protein that encourages exercise?

Milk contains a protein that builds muscles in mice. Credit: Vicci Crowley-Clough
Milk contains a protein that builds muscles in mice. Credit: Vicci Crowley-Clough

Victorian scientists have discovered a milk protein with the potential to treat metabolic syndrome and chronic muscular and bone diseases.

The protein, when given daily to mice, caused them not only to build more muscle but also to want to exercise. The findings also showed an increase in muscle in mice not given exercise.

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Nano-magnets to guide drugs to their target

Nano-cricket balls of silver precisely engineered with defect using spinning disc processing.
Nano-cricket balls of silver precisely engineered with defect using spinning disc processing.

Microscopic magnets ferrying drugs through the bloodstream directly to diseased tissue are a new ‘green chemistry’ product which will improve health and the environment.

A team led by Prof. Colin Raston, of the University of Western Australia fabricated the nano ‘bullets’ which can be directed by an external magnetic field to specific parts of the body. The new technology will enable doctors to send the drugs directly to the disease site, leaving healthy tissue intact and minimising toxic side-effects.

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