Microbe Detective Seeks Out Germs

Photo: A complex medical device

We are surrounded by microorganisms. They inhabit our skin, the air we breathe, the surfaces we touch. In most cases this is not a problem, but there are situations in which these constant companions can be dangerous or even life-threatening. They are unwelcome, for example, on medical instruments, in culture fluids or on laboratory-grown tissue transplants such as cartilage.

Constant sterility checks are therefore required during the production of artificial cartilage. Conventional testing methods for detecting germs are, according to the researchers, time-consuming. Specimens have to be taken and then cultivated and reproduced in culture fluid because bacteria and fungi can only be detected in large quantities.

Scientists now say they have succeeded in drastically shortening this process. Within just a few hours they can identify contaminations; one single germ is enough.

»Using conventional methods it takes up to two weeks to test the purity of specimens, for example autologous tissue grown in a culture medium. The patient is given an implant although the sterility check has not been completed,« explains Carsten Bolwien, project manager at Fraunhofer Institute for Physical Measurement Techniques (IPM). »With our system we can check specimens immediately before they are implanted. We tested this on artificial knee cartilage. Our device combines a microscope with a Raman spectrometer. The aqueous solution containing the piece of cartilage is first filtered through a micromembrane. Only particles exhibiting a suspicious size are trapped in the tiny holes of the micromembrane, and we examine them spectroscopically. In comparison with the known spectra the Raman spectra enable the particles to be identified and contaminations by bacteria or fungi can be detected.«

A demonstration Raman spectrometer has already been built. Initial blind tests checked by health agencies are scheduled to take place this year. The scientists will examine artificially infected cartilage cultures and detect the contaminations. If everything goes well, the testing method will be officially
approved.

COMPAMED.de; Source: Fraunhofer-Gesellschaft