Dermoscopic Features of Onychomycosis Identified by Image Analysis Using a Decision Tree Algorithm

Bafreen Abdullah; Dindar Qurtas; Abdulrahman Abdulrahman

doi:10.5826/dpc.1601a6084

Dermoscopic Features of Onychomycosis Identified by Image Analysis Using a Decision Tree Algorithm

Authors

Bafreen Abdullah Kurdistan Higher Council of Medical Specialties (KHCMS)
Dindar Qurtas Department of Dermatology, College of Medicine, Hawler Medical University, Erbil, Iraq
Abdulrahman Abdulrahman Department of Dermatology, College of Medicine, University of Duhok, Duhok, Iraq

Keywords:

onychomycosis, dermoscopic features, decision tree analysis, Image analysis, Computer-aided diagnosis

Abstract

Introduction: Onychomycosis is a common fungal nail infection characterized by diverse dermoscopic patterns that vary depending on clinical and demographic factors. Accurate diagnosis is critical to differentiate onychomycosis from other nail conditions. Traditional diagnostic methods such as fungal culture are time-consuming and cost-effective, highlighting the need for innovative approaches.

Objective: This study aimed to describe and analyze the dermoscopic features of onychomycosis and to investigate associations between specific onychomycosis patterns and various patient-related factors using machine learning techniques to enhance diagnostic accuracy and improve treatment strategies.

Methodology: A total of 130 patients diagnosed with onychomycosis were prospectively enrolled. Dermoscopy served as a noninvasive tool for classifying nail patterns accurately. Decision tree analysis was applied to examine relationships between nail condition patterns and clinical variables such as age, duration of the disease, diabetes status, and occupation.

Results: The main dermoscopic features of onychomycosis were longitudinal striae, ruin appearance, aurora, spikes, jagged borders, and distal pulverized edges. Notably, spikes and jagged borders were identified in 70% of cases, strongly correlating with onychomycosis and highlighting their diagnostic relevance. Furthermore, analysis indicated that demographic and clinical factors significantly influence specific nail disorder manifestations.

Conclusion: The study revealed significant dermoscopic signs, which may serve as essential markers for identifying onychomycosis. In addition, the study explored essential relationships between nail condition patterns and various patient-related factors. Despite limitations from the small dataset, this study establishes a promising foundation for future work to confirm and expand upon these findings, further integrating machine learning in dermatological diagnostics.

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