CAM: a novel aid system to analyse the coloration quality of thick blood smears using image processing and machine learning techniques

• Published in: Malaria journal Vol. 23; no. 1; pp. 299 - 12
• Main Authors: Fong Amaris, W M, Suárez, Daniel R, Cortés-Cortés, Liliana J, Martinez, Carol
• Format: Journal Article
• Language: English
• Published: England BioMed Central Ltd 07.10.2024; BioMed Central; BMC
• Subjects: Automation; Colombia; Color; Coloration quality; Computer-aided manufacturing; Control; Development and progression; Diagnosis; Diagnosis, Laboratory; Health aspects; Humans; Image processing; Image Processing, Computer-Assisted - methods; Machine Learning; Malaria; Malaria diagnosis; Mechanization; Methods; Mortality; Quality management; Thick blood smears; Colombia; Malaria diagnosis; Image processing; Coloration quality; Thick blood smears; Machine learning
• ISSN: 1475-2875; 1475-2875
• DOI: 10.1186/s12936-024-05025-7

Battling malaria's morbidity and mortality rates demands innovative methods related to malaria diagnosis. Thick blood smears (TBS) are the gold standard for diagnosing malaria, but their coloration quality is dependent on supplies and adherence to standard protocols. Machine learning has been proposed to automate diagnosis, but the impact of smear coloration on parasite detection has not yet been fully explored. To develop Coloration Analysis in Malaria (CAM), an image database containing 600 images was created. The database was randomly divided into training (70%), validation (15%), and test (15%) sets. Nineteen feature vectors were studied based on variances, correlation coefficients, and histograms (specific variables from histograms, full histograms, and principal components from the histograms). The Machine Learning Matlab Toolbox was used to select the best candidate feature vectors and machine learning classifiers. The candidate classifiers were then tuned for validation and tested to ultimately select the best one. This work introduces CAM, a machine learning system designed for automatic TBS image quality analysis. The results demonstrated that the cubic SVM classifier outperformed others in classifying coloration quality in TBS, achieving a true negative rate of 95% and a true positive rate of 97%. An image-based approach was developed to automatically evaluate the coloration quality of TBS. This finding highlights the potential of image-based analysis to assess TBS coloration quality. CAM is intended to function as a supportive tool for analyzing the coloration quality of thick blood smears.