| Summary: | The aim was to determine different possibilities and the operating principle of modern optical coherent tomographs OCT RETINASCAN-3000 and DRI OCT TRITON in automatic layer-by-layer segmentation of the retina and perioretinal structures. Methods. The study involved 31 patients (31 eyes) with no retinal pathology in the macular area. Of these, there were 13 men, 18 women. The average age of the patients was 55.8±3.65 years. Each patient was followed by a layered automatic structuring of the central retina with the help of RetinaScan-3000 (Nidek Technologies) (1st group, n = 31) and DRI OCT Triton (Topcon Japan) (2nd group, n = 31) of the right eye only. The OST device RetinaScan-3000 used the mode macula multi cross 6 mm, the DRI OCT Triton used the 5 line cross 6 mm mode.Results: The difference in the automatic layer-by-layer segmentation between the optical coherent tomographs DRI OCT TRITON and OCT RETINASCAN-3000 is, first of all, in the unequal coverage of the retina layers and the preand subretinal space and the number of automatically layered zones. For example, OCT RETINASCAN-3000 (SD-OCT) suggests the separation of the transverse optical section of the structures of the posterior segment of the eyeball into 5 structural zones when, as DRI OCT TRITON in (SSOCT), further clearly isolates the preretinal structures and the choroid, delineating the border of the sclero-choroidal Articulation. The DRI OCT Triton device in the SS-OCT system allowed for a more complete differentiation from the position of layered delimitation of the retina covering 6 retinal zones to obtain digital values for coverage of 5 layers on RetinaScan-3000 (SD OCT).Conclutions: The DRI OCT Triton device with SS-OCT technology has more possibilities for topical diagnostics of the posterior eyeball structures in the autonomous mode relative to the Retinascan-3000 with SD-OCT technology.
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