AI Article Synopsis
- Infectious diseases are a significant global health threat, and traditional methods for identifying microbes have high costs and long wait times.
- Raman spectroscopy offers a noninvasive way to quickly gather chemical information about microbes, making it a promising tool for faster diagnosis.
- A new technique called Combined Mutual Learning Net showed an impressive average identification accuracy of 87.96% across various microbial strains and achieved an even higher accuracy of 92.4% using a specialized optical system, highlighting its potential in improving microbial diagnosis.
Article Abstract
Infectious diseases pose a significant threat to global health, yet traditional microbiological identification methods suffer from drawbacks, such as high costs and long processing times. Raman spectroscopy, a label-free and noninvasive technique, provides rich chemical information and has tremendous potential in fast microbial diagnoses. Here, we propose a novel Combined Mutual Learning Net that precisely identifies microbial subspecies. It demonstrated an average identification accuracy of 87.96% in an open-access data set with thirty microbial strains, representing a 5.76% improvement. 50% of the microbial subspecies accuracies were elevated by 1% to 46%, especially for improved from 31% to 77%. Furthermore, it achieved a remarkable subspecies accuracy of 92.4% in the custom-built fiber-optical tweezers Raman spectroscopy system, which collects Raman spectra at a single-cell level. This advancement demonstrates the effectiveness of this method in microbial subspecies identification, offering a promising solution for microbiology diagnosis.
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| http://dx.doi.org/10.1021/acs.analchem.3c05107 | DOI Listing |
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