AI Article Synopsis
- A new method for identifying Glossina species is crucial for controlling Human and Animal African Trypanosomiasis without relying on a few experts.
- Current techniques like DNA barcoding and mass spectrometry are expensive and not well-suited for fieldwork.
- The study introduces a cost-effective method using Wing Interference Patterns (WIPs) with a deep learning model, showing high accuracy in recognizing 23 Glossina species using standard microscopes.
Article Abstract
A simple method for accurately identifying Glossina spp in the field is a challenge to sustain the future elimination of Human African Trypanosomiasis (HAT) as a public health scourge, as well as for the sustainable management of African Animal Trypanosomiasis (AAT). Current methods for Glossina species identification heavily rely on a few well-trained experts. Methodologies that rely on molecular methodologies like DNA barcoding or mass spectrometry protein profiling (MALDI TOFF) haven't been thoroughly investigated for Glossina sp. Nevertheless, because they are destructive, costly, time-consuming, and expensive in infrastructure and materials, they might not be well adapted for the survey of arthropod vectors involved in the transmission of pathogens responsible for Neglected Tropical Diseases, like HAT. This study demonstrates a new type of methodology to classify Glossina species. In conjunction with a deep learning architecture, a database of Wing Interference Patterns (WIPs) representative of the Glossina species involved in the transmission of HAT and AAT was used. This database has 1766 pictures representing 23 Glossina species. This cost-effective methodology, which requires mounting wings on slides and using a commercially available microscope, demonstrates that WIPs are an excellent medium to automatically recognize Glossina species with very high accuracy.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9684539 | PMC |
| http://dx.doi.org/10.1038/s41598-022-24522-w | DOI Listing |
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