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Article Released Fri-18th-August-2017 01:30 GMT
Contact: Etta Lai Institution: The Hong Kong University of Science and Technology
 HKUST Discovers New Technology to Capture Live Cell Images Opening New Possibilities to the Study of Cell Biology

Researchers at The Hong Kong University of Science and Technology (HKUST) have developed a new generation of microscope, which not only could capture 3D live cell videos, but the resulted images are also of much higher quality, greatly enhancing the accuracy and the scope of research on cell biology.

HKUST LiTone LBS Microscope
(From left) Prof Du Shengwang and his team members Dr Zhao Teng and Dr Zhao Luwei develop a new generation of microscope.
Researchers at The Hong Kong University of Science and Technology (HKUST) have developed a new generation of microscope, which not only could capture 3D live cell videos, but the resulted images are also of much higher quality, greatly enhancing the accuracy and the scope of research on cell biology.

While an existing confocal microscope can also capture 3D bio-images, the laser light hitting on the sample is typically one million times that of summer sunlight, such intense light exposure inevitably disrupts cell activities and eventually kills the cell, posing limits to the study of cell biology.

The LiTone Line Bessel Sheet (LBS) microscope invented by a team led by Prof Du Shengwang and Prof Michael Loy from HKUST, however, is 1,000 times less photo-toxic than the current confocal model, allowing the cell to live much longer for observation. Phototoxicity is a type of sensitivity induced by light, which could cause molecular changes. The new microscope is also about 1,000 times faster, allowing much higher temporal resolution for a smooth video taking. Scientists can then study how proteins are transported within cells with great accuracy and efficiency, and what happens when the cell becomes abnormal. Prof Du is a Professor from the Department of Physics and the Department of Chemical and Biological Engineering; he is also the Associate Director of the Super-Resolution Imaging Center. Prof Loy is an Emeritus Professor of Physics.

“It is a powerful technology out of sophisticated science and engineering, but we make it simple to users so that it can be operated by biologists with minimal amount of training,” Prof Du said. “For the first time, scientists can study cells in much greater details. That could eventually help scientists unlock the mystery of how certain diseases were formed and developed in a cellular level.”

This new technology has been successfully transferred to Light Innovation Technology (LiT) Ltd, a startup co-founded by Prof Du, Prof Loy and their PhD students Dr Zhao Teng and Dr Zhao Luwei. LiT has won the Innovation Award and GF Securities Award in HKUST One Million Dollar Entrepreneurship Competition this year.
HKUST LiTone Team
Research team with (First left, back row) Prof Karl Herrup, Head of Division of Life Science; (Second right, back row) Prof Hsing I-Ming, Head of Department of Chemical & Biological Engineering; (First right, back row) Prof Michael Altman, Head of Department of Physics.

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Keywords associated to this article: Line Bessel Sheet (LBS) microscope, microscope, cell biology, live cell imaging
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