Microscopes at microscopic size

Sunday, 10 April, 2005


Traditionally if scientists wanted to look at something small they would put a sample under a microscope but now researchers have managed to shrink the microscope itself to the size of a single human cell.

An interdisciplinary research team, funded by the Biotechnology and Biological Science Research Council (BBSRC) and the Engineering and Physical Sciences Research Council (EPSRC) have developed optical biochips no larger than a single cell that could lead to faster development of new drugs and quicker medical tests.

The research team moved away from the idea that a microscope is something you have to look through to create optical biochips onto which scientists can place biological samples. Special fluorescent chemicals are then used together with tiny light emitting lasers to allow the scientists to analyse the cells or targets within the cells.

Researchers can use this capability to examine cellular conditions for certain diseases or to develop new treatments by studying the way cells react to a drug.

The biochips also raise the possibility of a micro-laboratory, the size of a credit card, which would be able to perform medical diagnostics, improving patient treatment by reducing the number of hospital visits needed for tests.

The research is being carried out at the Wales College of Medicine and involves researchers at Cardiff University, University of Bangor, the Gray Cancer Institute in London and collaboration with the University of Warwick and laboratories in the United States.

Related News

Quantitative phase imaging with a standard microscope

Researchers have shown how a standard microscope can be adapted to provide even more information,...

Improved analysis of reaction kinetics

A simple benchtop device for measuring the kinetics of gas-producing reactions provides accurate...

Brain scans may highlight suicide risk

US researchers have identified brain circuitry differences that might be associated with suicidal...


  • All content Copyright © 2019 Westwick-Farrow Pty Ltd