Popovic Natasa, Lipovac Mirko, Radunovic Miroslav, Ugarte Jurgi, Isusquiza Erik, Beristain Andoni, Moreno Ramón, Aranjuelo Nerea, Popovic Tomo
Faculty of Medicine, University of Montenegro, Podgorica, Montenegro.
ULMA Embedded Solutions, Oñati, Spain.
Microcirculation. 2019 Jan 19:e12531. doi: 10.1111/micc.12531.
The study aimed to characterize morphological changes of the retinal microvascular network during the progression of diabetic retinopathy.
Publicly available retinal images captured by a digital fundus camera from DIARETDB1 and STARE databases were used. The retinal microvessels were segmented using the automatic method, and vascular network morphology was analyzed by fractal parametrization such as box-counting dimension, lacunarity, and multifractals.
The results of the analysis were affected by the ability of the segmentation method to include smaller vessels with more branching generations. In cases where the segmentation was more detailed and included a higher number of vessel branching generations, increased severity of diabetic retinopathy was associated with increased complexity of microvascular network as measured by box-counting and multifractal dimensions, and decreased gappiness of retinal microvascular network as measured by lacunarity parameter. This association was not observed if the segmentation method included only 3-4 vessel branching generations.
Severe stages of diabetic retinopathy could be detected noninvasively by using high resolution fundus photography and automatic microvascular segmentation to the high number of branching generations, followed by fractal analysis parametrization. This approach could improve risk stratification for the development of microvascular complications, cardiovascular disease, and dementia in diabetes.
本研究旨在描述糖尿病视网膜病变进展过程中视网膜微血管网络的形态学变化。
使用数字眼底相机从DIARETDB1和STARE数据库中获取的公开视网膜图像。采用自动方法对视网膜微血管进行分割,并通过分形参数化方法(如盒计数维数、空隙率和多重分形)分析血管网络形态。
分析结果受分割方法包含更多分支代的较小血管能力的影响。在分割更详细且包含更多血管分支代的情况下,糖尿病视网膜病变严重程度增加与通过盒计数和多重分形维数测量的微血管网络复杂性增加以及通过空隙率参数测量的视网膜微血管网络间隙减小相关。如果分割方法仅包含3 - 4代血管分支,则未观察到这种关联。
通过使用高分辨率眼底摄影和对大量分支代进行自动微血管分割,然后进行分形分析参数化,可以无创地检测糖尿病视网膜病变的严重阶段。这种方法可以改善糖尿病患者微血管并发症、心血管疾病和痴呆发生风险的分层。
