Identification of Prognostic Factors and Predicting the Therapeutic Effect of Laser Photocoagulation for DME Treatment

Nataly Ilyasova,Evgeniy Zamytskiy,Nikita Demin,Alexey Antonov,Aleksandr Shirokanev,Dmitriy Kirsh,Rustam Paringer

doi:10.3390/electronics10121420

Abstract

Diabetic retinopathy is among the most severe complications of diabetes, most often leading to rapid and irreversible vision loss. The laser coagulation procedure, which consists of applying microburns to the fundus, has proven to be an effective method for treating diabetic retinopathy. Unfortunately, modern research does not pay enough attention to the study of the arrangement of microburns in the edema area—One of the key factors affecting the quality of therapy. The aim of this study was to propose a computational decision-making support system for retina laser photocoagulation based on the analysis of photocoagulation plans. Firstly, we investigated a set of prognostic factors based on 29 features describing the geometric arrangement of coagulates. Secondly, we designed a technology for the intelligent analysis of the photocoagulation plan that allows the effectiveness of the treatment to be predicted. The studies were carried out using a large database of fundus images from 108 patients collected in clinical trials. The results demonstrated a high classification accuracy at a level of over 85% using the proposed prognostic factors. Moreover, the designed technology proved the superiority of the proposed algorithms for the automatic arrangement of coagulates, predicting a 99% chance of a positive therapeutic effect.

Highlights

Diabetes mellitus (DM) is among the most significant medical problems of the contemporary world [1]
The results showed that the least uniform arrangement of coagulates is observed in the manual monopulse mode—The root-mean-square deviation was 8.44 (7.82–9.21)
This work proposes a technology of intelligent analysis of the photocoagulation plan

Summary

Introduction

Diabetes mellitus (DM) is among the most significant medical problems of the contemporary world [1]. The number of diabetic patients is steadily increasing every year, which is associated with both earlier detection of the disease and an overall increase in life expectancy [2,3,4]. The number of diabetic patients in the world has almost reached 400 million, and by 2035, this number is expected to reach 592 million people [5]. Diabetes mellitus is associated with serious complications, which, can lead to even more serious consequences in cases of untimely or inadequate treatment. DM leads to changes in retinal blood vessels, which cause oxygen supply disturbance. This condition of the visual system results in diabetic retinopathy (DRP) [6]. According to the Wisconsin Epidemiological Study of Diabetic Retinopathy (WESDR), if the duration of DM exceeds 20 years, retinopathy is detected in 80–100% of cases, while DME develops in 29% of cases [12,13]

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