Detecting bacterial infestation fast, contactless, and free of markers
With a multimodal microscope, the Laser Zentrum Hannover e.V. (LZH) and three partners in the joint project PriMe want to make it possible to detect bacterial infestation using fast, marker-free, and contactless imaging. This could significant-ly accelerate the characterization and classification of bio-films – which is interesting for research and the clinical envi-ronment and diagnostics.
Deciphering the composition of biofilms currently takes at least a day – an enormously long period for the clinical setting in which biofilms can be life-threatening. The PriMe partners now want to combine multiphoton microscopy and metabolic imaging to sig-nificantly speed up the process. To this end, they are developing a novel laser beam source with spectral properties specifically adapted to the application.
Determine biofilm via metabolic products
With this laser source, LZH and Becker & Hickl GmbH want to detect metabolic products such as the coenzymes NADH, FAD, and additionally the amino acid tryptophan. The latter is a central component of proteins and peptides. The combined values should then make it possible to determine which bacteria are present in the biofilm. The project goal is to develop a demon-strator with which clinical material can be examined.
The basis for the demonstrator will be an innovative, multi-modal ultrashort pulse (USP) fiber laser system, which the LZH is de-veloping together with VALO Innovations GmbH and TEM Mess-technik GmbH. It will be optimally adapted to the needs of mul-tiphoton microscopy and extended fluorescence lifetime meas-urement. With the new laser source, the scientists aim to gain fundamentally new insights into bacterial communities and en-vironmental influences.
They also want to lay the foundation for a new diagnostic proce-dure that could significantly simplify the treatment of bacterial infections.
About „PriMe“
In the joint project “PriMe”, the detection and classification of bacterial growth are pursued through multiphoton microscopy and molecular or metabolic imaging. The collaborative partners are TEM Messtechnik GmbH, Becker & Hickl GmbH, VALO In-novations GmbH, and Laser Zentrum Hannover e.V. Associated partner is APE Angewandte Physik u. Elektronik GmbH. The project is funded by the German Federal Ministry of Education and Research (BMBF).
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