Mass spectrometry detects bacteria without time-consuming isolation and multiplication
Identifying pathogens within minutes instead of days
Traditionally, bacterial diseases are diagnosed by the tedious isolation of pathogens and the creation of bacterial cultures. Waiting times of several days are the rule here. Only then can the targeted treatment of the disease begin. The team led by Nicole Strittmatter, Professor of Analytical Chemistry at TUM, and Dr. James S. McKenzie (Imperial) uses mass spectrometry for its innovative approach. This enabled the researchers to identify specific metabolic products of bacteria directly in tissue and stool samples.
At the heart of the process is a database in which 232 medically important bacterial species and their metabolic products have been recorded to date. Biomarkers are derived from this database, which can then be used to directly detect specific bacteria. Among the bacteria that can be identified using the new method are clinically extremely important pathogens that can, for example, trigger stomach cancer, are responsible for certain pneumonias and meningitis, are associated with premature births, and can cause gonorrhea or blood poisoning.
Further expanding the bacterial database
First author Wei Chen, PhD student at the at the in Garching, emphasizes: "Our innovative approach is not to look directly for the pathogenic bacteria, but only for their metabolic products. This allows us to detect them indirectly, but much more quickly."
Prof. Nicole Strittmatter also sees great opportunities for use in personalized medicine, in which the therapy is precisely tailored to the respective patient: "This is one of the most important future topics in biotechnology and medicine. Targeted interventions can dramatically improve the chances of successful treatment. As analysts, we develop modern tools and methods for doctors to do this."
The biomarker database now needs to be further expanded to enable the regular use of the new method in clinical practice. According to the researchers, a total of over 1400 bacterial pathogens are known and described. Their specific metabolic products should now be identified and included.
Chen, W., Qiu, M., Paizs, P. et al. Universal, untargeted detection of bacteria in tissues using metabolomics workflows, veröffentlich in: Nat Commun 16, 165 (2025).
Contacts to this article:
Technische Universität München
- Department Biosciences
+49 89 289 13321
nicole.strittmatter@tum.de
