Description

Diabetic retinopathy, or damage to the retina caused by diabetes, is one of the most common complications in all patients with newly diagnosed diabetes mellitus of both types. These are mainly pathological changes affecting the vascular supply of the retina, which precede changes affecting the peripheral nervous system.

Children and in general patients with type I diabetes mellitus are around 0.6% of the population in the long term. the first changes in the retinal vessels can usually be expected after 2-5 years from the first detection of the disease. These changes are diagnosed using a biomicroscopic examination of the fundus.

Until recently, the only possible examination method was fluorescein angiography (FAG). It is an invasive examination with a fluorescein solution administered into a peripheral vein through a cannula and further photo documentation of the flow dynamics through the vascular bed in blue (cobalt) light. The flow time in individual phases of filling is recorded.

The disadvantage is the necessary cooperation of the child, the need to establish peripheral venous access, the risk of an allergic reaction to the contrast material, and the duration of the examination lasting two or more hours.

These disadvantages disappeared with the advent of optical coherence tomography and the angiographic mode - OCTA.

OCTA can detect the passage of individual blood elements (mostly erythrocytes) through capillaries and larger vessels in real-time and thus compile maps of individual vascular networks in the retina and choroid. The advantage is that the examination is not invasive, it is not necessary to inject a dye into the patient's bloodstream and no special preparation is required. The device is classified as a Class 1 laser, which is safe for the human eye. The examination is not painful or uncomfortable.

Due to the relatively short period of use in practice, there is still a lack of data from findings in a healthy population. In the past, normative databases of adult patients were compiled for comparing the state of the healthy central area of the eye using OCTA. Data for the child population, especially the Central European one, is missing or has been collected on a small sample only.

The primary goal of the project is to create a normative database from data collected from a healthy pediatric population. A secondary aim is to compare normative data with data from pediatric patients with pre-existing type 1 diabetes mellitus.

It is anticipated that 100-150 children aged 6-15 will be enrolled at the Centre for Visually Impaired Children of the University of Ostrava as part of regular check-ups. Depending on the degree of cooperation of the child, the examination takes around two minutes.