Thiara S Ahmed, Janika Shah, Yvonne N B Zhen, Jacqueline Chua, Damon W K Wong, Simon Nusinovici, Rose Tan, Gavin Tan, Leopold Schmetterer, Bingyao Tan
{"title":"糖尿病视网膜病变的眼部微血管并发症:机器学习的启示","authors":"Thiara S Ahmed, Janika Shah, Yvonne N B Zhen, Jacqueline Chua, Damon W K Wong, Simon Nusinovici, Rose Tan, Gavin Tan, Leopold Schmetterer, Bingyao Tan","doi":"10.1136/bmjdrc-2023-003758","DOIUrl":null,"url":null,"abstract":"Introduction Diabetic retinopathy (DR) is a leading cause of preventable blindness among working-age adults, primarily driven by ocular microvascular complications from chronic hyperglycemia. Comprehending the complex relationship between microvascular changes in the eye and disease progression poses challenges, traditional methods assuming linear or logistical relationships may not adequately capture the intricate interactions between these changes and disease advances. Hence, the aim of this study was to evaluate the microvascular involvement of diabetes mellitus (DM) and non-proliferative DR with the implementation of non-parametric machine learning methods. Research design and methods We conducted a retrospective cohort study that included optical coherence tomography angiography (OCTA) images collected from a healthy group (196 eyes), a DM no DR group (120 eyes), a mild DR group (71 eyes), and a moderate DR group (66 eyes). We implemented a non-parametric machine learning method for four classification tasks that used parameters extracted from the OCTA images as predictors: DM no DR versus healthy, mild DR versus DM no DR, moderate DR versus mild DR, and any DR versus no DR. SHapley Additive exPlanations values were used to determine the importance of these parameters in the classification. Results We found large choriocapillaris flow deficits were the most important for healthy versus DM no DR, and became less important in eyes with mild or moderate DR. The superficial microvasculature was important for the healthy versus DM no DR and mild DR versus moderate DR tasks, but not for the DM no DR versus mild DR task—the stage when deep microvasculature plays an important role. Foveal avascular zone metric was in general less affected, but its involvement increased with worsening DR. Conclusions The findings from this study provide valuable insights into the microvascular involvement of DM and DR, facilitating the development of early detection methods and intervention strategies. No data are available.","PeriodicalId":9151,"journal":{"name":"BMJ Open Diabetes Research & Care","volume":"78 1","pages":""},"PeriodicalIF":3.7000,"publicationDate":"2024-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Ocular microvascular complications in diabetic retinopathy: insights from machine learning\",\"authors\":\"Thiara S Ahmed, Janika Shah, Yvonne N B Zhen, Jacqueline Chua, Damon W K Wong, Simon Nusinovici, Rose Tan, Gavin Tan, Leopold Schmetterer, Bingyao Tan\",\"doi\":\"10.1136/bmjdrc-2023-003758\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Introduction Diabetic retinopathy (DR) is a leading cause of preventable blindness among working-age adults, primarily driven by ocular microvascular complications from chronic hyperglycemia. Comprehending the complex relationship between microvascular changes in the eye and disease progression poses challenges, traditional methods assuming linear or logistical relationships may not adequately capture the intricate interactions between these changes and disease advances. Hence, the aim of this study was to evaluate the microvascular involvement of diabetes mellitus (DM) and non-proliferative DR with the implementation of non-parametric machine learning methods. Research design and methods We conducted a retrospective cohort study that included optical coherence tomography angiography (OCTA) images collected from a healthy group (196 eyes), a DM no DR group (120 eyes), a mild DR group (71 eyes), and a moderate DR group (66 eyes). We implemented a non-parametric machine learning method for four classification tasks that used parameters extracted from the OCTA images as predictors: DM no DR versus healthy, mild DR versus DM no DR, moderate DR versus mild DR, and any DR versus no DR. SHapley Additive exPlanations values were used to determine the importance of these parameters in the classification. Results We found large choriocapillaris flow deficits were the most important for healthy versus DM no DR, and became less important in eyes with mild or moderate DR. The superficial microvasculature was important for the healthy versus DM no DR and mild DR versus moderate DR tasks, but not for the DM no DR versus mild DR task—the stage when deep microvasculature plays an important role. Foveal avascular zone metric was in general less affected, but its involvement increased with worsening DR. Conclusions The findings from this study provide valuable insights into the microvascular involvement of DM and DR, facilitating the development of early detection methods and intervention strategies. 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引用次数: 0
摘要
导言 糖尿病视网膜病变(DR)是劳动适龄人口中可预防失明的主要原因,主要是由长期高血糖引起的眼部微血管并发症造成的。理解眼部微血管变化与疾病进展之间的复杂关系是一项挑战,假定线性或逻辑关系的传统方法可能无法充分捕捉这些变化与疾病进展之间错综复杂的相互作用。因此,本研究旨在采用非参数机器学习方法评估糖尿病(DM)和非增殖性DR的微血管参与情况。研究设计和方法 我们进行了一项回顾性队列研究,其中包括从健康组(196 只眼)、DM 无 DR 组(120 只眼)、轻度 DR 组(71 只眼)和中度 DR 组(66 只眼)收集的光学相干断层血管成像(OCTA)图像。我们采用非参数机器学习方法完成了四项分类任务,这些任务使用从 OCTA 图像中提取的参数作为预测因子:DM无DR与健康、轻度DR与DM无DR、中度DR与轻度DR、任何DR与无DR。使用 SHapley Additive exPlanations 值来确定这些参数在分类中的重要性。结果 我们发现,大的绒毛膜血流缺陷对健康眼与无DR的DM眼来说最重要,而对轻度或中度DR眼来说则不那么重要。表层微血管在健康与无DR的DM和轻度DR与中度DR的任务中很重要,但在无DR的DM与轻度DR的任务中却不重要--在这一阶段,深层微血管起着重要作用。一般来说,眼窝无血管区指标受到的影响较小,但随着 DR 的恶化,其参与程度会增加。结论 本研究的结果为了解 DM 和 DR 的微血管受累情况提供了宝贵的信息,有助于开发早期检测方法和制定干预策略。暂无数据。
Ocular microvascular complications in diabetic retinopathy: insights from machine learning
Introduction Diabetic retinopathy (DR) is a leading cause of preventable blindness among working-age adults, primarily driven by ocular microvascular complications from chronic hyperglycemia. Comprehending the complex relationship between microvascular changes in the eye and disease progression poses challenges, traditional methods assuming linear or logistical relationships may not adequately capture the intricate interactions between these changes and disease advances. Hence, the aim of this study was to evaluate the microvascular involvement of diabetes mellitus (DM) and non-proliferative DR with the implementation of non-parametric machine learning methods. Research design and methods We conducted a retrospective cohort study that included optical coherence tomography angiography (OCTA) images collected from a healthy group (196 eyes), a DM no DR group (120 eyes), a mild DR group (71 eyes), and a moderate DR group (66 eyes). We implemented a non-parametric machine learning method for four classification tasks that used parameters extracted from the OCTA images as predictors: DM no DR versus healthy, mild DR versus DM no DR, moderate DR versus mild DR, and any DR versus no DR. SHapley Additive exPlanations values were used to determine the importance of these parameters in the classification. Results We found large choriocapillaris flow deficits were the most important for healthy versus DM no DR, and became less important in eyes with mild or moderate DR. The superficial microvasculature was important for the healthy versus DM no DR and mild DR versus moderate DR tasks, but not for the DM no DR versus mild DR task—the stage when deep microvasculature plays an important role. Foveal avascular zone metric was in general less affected, but its involvement increased with worsening DR. Conclusions The findings from this study provide valuable insights into the microvascular involvement of DM and DR, facilitating the development of early detection methods and intervention strategies. No data are available.
期刊介绍:
BMJ Open Diabetes Research & Care is an open access journal committed to publishing high-quality, basic and clinical research articles regarding type 1 and type 2 diabetes, and associated complications. Only original content will be accepted, and submissions are subject to rigorous peer review to ensure the publication of
high-quality — and evidence-based — original research articles.