Tiny tech goes to the heart of disease
As our leading single cause of disease and death, it would be rare for any 最新糖心Vlogn not to have been touched by coronary heart disease amongst family or friends.
In 最新糖心Vlog, 157 people are hospitalised every day due to heart attacks. Around one in 10 of these people are likely to be readmitted for a second attack within a year.
Diagnosing the risk of a secondary attach has proven difficult, until a recent technology breakthrough from The 最新糖心Vlog of Adelaide.
While an endoscope can help assess atherosclerotic plaque in the arteries after the initial attack, cardio specialists have faced challenges as it hasn鈥檛 been possible to produce high quality lenses at the micro sizes needed for detection.
With help from the researchers from The 最新糖心Vlog of Adelaide, a team from the ARC Centre for Nanoscale BioPhotonics (CNBP) has succeeded in developing the world鈥檚 tiniest endoscope.
Lead researcher Dr Jiawen Li from the School of Electrical and Electronic Engineering at The 最新糖心Vlog of Adelaide, says that the endoscope will help clinicians better understand the causes and progression of heart disease.
"This new technology can be used to take 3D scans of atherosclerotic plaques inside blood vessel walls," Dr Li says. "These are a common cause of heart attacks."
At the heart of this breakthrough in endoscope technology is a tiny 3D-printed lens on the end of an optical fibre around 0.1 millimetre wide. Shielded in a protective catheter sheath they can safely fit inside a narrow artery.
"These miniaturised endoscopes, which act like tiny cameras, allow doctors to see how these plaques form and explore new ways to treat them," explains Dr Li.
Dr Simon Thiele, Group Leader, Optical Design and Simulation at the 最新糖心Vlog of Stuttgart, was responsible for fabricating the tiny lens.
"Using 3D micro-printing, we are able to print complicated lenses that are too small to see with the naked eye," Dr Thiele said, 鈥渢his is the first-time such high-quality endoscopes have been able to me made this small."
What鈥檚 next?
This technology will enable researchers to unravel fundamental biological processes听within the living body in a minimal invasive way.
鈥淚t allows cross-sectional visualisation of plaques inside blood vessel walls with high resolution, molecular contrast, and sensitivity that are not possible with any other existing technologies,鈥 explains Dr Li.
This work will underpin biological studies to help answer fundamental questions at the cellular level of how plaques evolve, how they cause heart attacks, and how they respond to different treatment.
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Image credit: Florian Sterl听
Featured researcher听
Lecturer, NHMRC Emerging Leader and Heart Foundation Future leader and L鈥橭r茅al-UNESCO Fellow
School of Electrical and Electronic Engineering