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Effects of sample preservation methods and duration of storage on the performance of mid-infrared spectroscopy for predicting the age of malaria vectors

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dc.creator Mgaya, Jacqueline
dc.creator Siria, Doreen
dc.creator Makala, Faraja
dc.creator Mgando, Joseph
dc.creator Vianney, John Mary
dc.creator Mwanga, Emmanuel
dc.creator Okumu, Fredros
dc.date 2022-08-30T08:01:51Z
dc.date 2022-08-30T08:01:51Z
dc.date 2022-08-06
dc.date.accessioned 2022-10-25T09:21:11Z
dc.date.available 2022-10-25T09:21:11Z
dc.identifier https://doi.org/10.1186/s13071-022-05396-3
dc.identifier https://dspace.nm-aist.ac.tz/handle/20.500.12479/1531
dc.identifier.uri http://hdl.handle.net/123456789/95479
dc.description This research article was published by BMC, 2022
dc.description Background Monitoring the biological attributes of mosquitoes is critical for understanding pathogen transmission and estimating the impacts of vector control interventions on the survival of vector species. Infrared spectroscopy and machine learning techniques are increasingly being tested for this purpose and have been proven to accurately predict the age, species, blood-meal sources, and pathogen infections in Anopheles and Aedes mosquitoes. However, as these techniques are still in early-stage implementation, there are no standardized procedures for handling samples prior to the infrared scanning. This study investigated the effects of different preservation methods and storage duration on the performance of mid-infrared spectroscopy for age-grading females of the malaria vector, Anopheles arabiensis. Methods Laboratory-reared An. arabiensis (N = 3681) were collected at 5 and 17 days post-emergence, killed with ethanol, and then preserved using silica desiccant at 5 °C, freezing at − 20 °C, or absolute ethanol at room temperature. For each preservation method, the mosquitoes were divided into three groups, stored for 1, 4, or 8 weeks, and then scanned using a mid-infrared spectrometer. Supervised machine learning classifiers were trained with the infrared spectra, and the support vector machine (SVM) emerged as the best model for predicting the mosquito ages. Results The model trained using silica-preserved mosquitoes achieved 95% accuracy when predicting the ages of other silica-preserved mosquitoes, but declined to 72% and 66% when age-classifying mosquitoes preserved using ethanol and freezing, respectively. Prediction accuracies of models trained on samples preserved in ethanol and freezing also reduced when these models were applied to samples preserved by other methods. Similarly, models trained on 1-week stored samples had declining accuracies of 97%, 83%, and 72% when predicting the ages of mosquitoes stored for 1, 4, or 8 weeks respectively. Conclusions When using mid-infrared spectroscopy and supervised machine learning to age-grade mosquitoes, the highest accuracies are achieved when the training and test samples are preserved in the same way and stored for similar durations. However, when the test and training samples were handled differently, the classification accuracies declined significantly. Protocols for infrared-based entomological studies should therefore emphasize standardized sample-handling procedures and possibly additional statistical procedures such as transfer learning for greater accuracy.
dc.format application/pdf
dc.language en
dc.publisher BMC
dc.subject Malaria
dc.subject Vector control
dc.subject An.arabiensis
dc.subject Age-grading
dc.title Effects of sample preservation methods and duration of storage on the performance of mid-infrared spectroscopy for predicting the age of malaria vectors
dc.type Article


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