Abstract
Leptospirosis is a zoonosis caused by the pathogenic bacterium Leptospira. The Microscopic Agglutination Test (MAT) is widely used as the gold standard for diagnosis of leptospirosis. In this method, diluted patient serum is mixed with serotype-determined Leptospires, and the presence or absence of aggregation is determined under a dark-field microscope to calculate the antibody titer. Problems of the current MAT method are 1) a requirement of examining many specimens per sample, and 2) a need of distinguishing contaminants from true aggregates to accurately identify positivity. Therefore, increasing efficiency and accuracy are the key to refine MAT. It is possible to achieve efficiency and standardize accuracy at the same time by automating the decision-making process. In this study, we built an automatic identification algorithm of MAT using a machine learning method to determine agglutination within microscopic images. The machine learned the features from 316 positive and 230 negative MAT images created with sera of Leptospira-infected (positive) and non-infected (negative) hamsters, respectively. In addition to the acquired original images, wavelet-transformed images were also considered as features. We utilized a support vector machine (SVM) as a proposed decision method. We validated the trained SVMs with 210 positive and 154 negative images. When the features were obtained from original or wavelet-transformed images, all negative images were misjudged as positive, and the classification performance was very low with sensitivity of 1 and specificity of 0. In contrast, when the histograms of wavelet coefficients were used as features, the performance was greatly improved with sensitivity of 0.99 and specificity of 0.99. We confirmed that the current algorithm judges the positive or negative of agglutinations in MAT images and gives the further possibility of automatizing MAT procedure.
Highlights
Leptospirosis, an infectious disease caused by the pathogenic species of Leptospira, is one of the most widespread zoonoses in the world
This study aims to: (1) establish a machine learning based method for reading Microscopic agglutination test (MAT) results to aid in serodiagnosis; (2) design a MAT image feature that is appropriate for binary classification based on general machine learning and image processing techniques; and (3) conduct an evaluation test with MAT images obtained from animal experiments
We conducted three evaluations to validate the potential of machine learning and image processing techniques on MAT: (1) the elapsed time of the feature extraction process, (2) qualitative evaluation of the MAT image feature classification, and (3) quantitative evaluation of the MAT image feature classification
Summary
Leptospirosis, an infectious disease caused by the pathogenic species of Leptospira, is one of the most widespread zoonoses in the world. The principle of MAT is simple, it consists of mixing the serially diluted test serum with a culture of leptospires and evaluating the degree of agglutination due to immunoreaction using a dark-field microscope [2]. The International Leptospirosis Society has been implementing the International Proficiency Testing Scheme for MAT for several years [6], worldwide standardization of MAT is yet to be achieved. This is because devices used for MAT (dark-field microscopes, objective lenses, illuminations and cameras) vary, and the testing condition (the dilution range of serum, incubation time and magnification of an objective lens used) of MAT is diverse among various laboratories
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