Abstract

Decades of effort have been devoted to establishing an automated microscopic diagnosis of malaria, but there are challenges in achieving expert-level performance in real-world clinical settings because publicly available annotated data for benchmark and validation are required. To assess an expert-level malaria detection algorithm using a publicly available benchmark image data set. In this diagnostic study, clinically validated malaria image data sets, the Taiwan Images for Malaria Eradication (TIME), were created by digitizing thin blood smears acquired from patients with malaria selected from the biobank of the Taiwan Centers for Disease Control from January 1, 2003, to December 31, 2018. These smear images were annotated by 4 clinical laboratory scientists who worked in medical centers in Taiwan and trained for malaria microscopic diagnosis at the national reference laboratory of the Taiwan Centers for Disease Control. With TIME, a convolutional neural network-based object detection algorithm was developed for identification of malaria-infected red blood cells. A diagnostic challenge using another independent data set within TIME was performed to compare the algorithm performance against that of human experts as clinical validation. Performance on detecting Plasmodium falciparum-infected blood cells was measured by average precision, and performance on detecting P falciparum infection at the image level was measured using sensitivity, specificity, and area under the receiver operating characteristic curve (AUC). The TIME data sets contained 8145 images of 36 blood smears from patients with suspected malaria (30 P falciparum-positive and 6 P falciparum-negative smears) that had reliable annotations. For clinical validation, the average precision was 0.885 for detecting P falciparum-infected blood cells and 0.838 for ring form. For detecting P falciparum infection on blood smear images, the algorithm had expert-level performance (sensitivity, 0.995; specificity, 0.900; AUC, 0.997 [95% CI, 0.993-0.999]), especially in detecting ring form (sensitivity, 0.968; specificity, 0.960; AUC, 0.995 [95% CI, 0.990-0.998]) compared with experienced microscopists (mean sensitivity, 0.995 [95% CI, 0.993-0.998]; mean specificity, 0.955 [95% CI, 0.885-1.000]). The findings suggest that a clinically validated expert-level malaria detection algorithm can be developed by using reliable data sets.

Highlights

  • Malaria, a mosquito-borne disease caused by Plasmodium species, is a severe and reemerging global health issue despite years of effort in global malaria control

  • The findings suggest that a clinically validated expert-level malaria detection algorithm can be developed by using reliable data sets

  • Development and Characteristics of Data Sets We established Taiwan Images for Malaria Eradication (TIME) data sets, which included 2 data sets: the development set for training and the clinical validation set for evaluating performance

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Summary

Introduction

A mosquito-borne disease caused by Plasmodium species, is a severe and reemerging global health issue despite years of effort in global malaria control. The criterion standard for malaria diagnosis is microscopic examination.[3,4] Thick blood smears are used for screening, whereas thin blood smears are used for confirming the species and measuring parasite density.[3] conventional microscopic diagnosis is labor intensive and dependent on techniques and experience. This expertise is rare in resource-limited countries, where malaria poses a significant burden, and in countries close to malaria elimination where the microscopists lack experience.[4] Both situations prompted efforts to seek more efficient and accurate diagnostic tools. The difficulty of acquiring a large number of images with reliable annotations for public reference hinders the development of automated malaria diagnosis

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