Objective To observe the imaging features of the optical coherence tomography angiography (OCTA) of complex retinal arterial macroaneurysm (RAM). Methods Nineteen eyes of 19 patients with RAM were enrolled in this retrospective study. There were 1 male (1 eye) and 18 females (18 eyes). The patients aged from 62 to 85 years, with the mean age of 71.3 years. The fundus photography examination revealed the tumors were located in the 1 - 3 branch of the artery, which showed focal spindle-shaped or fusiform angiomatous dilatation. The fundus fluorescein angiography revealed the early uniform fluorescence of the tumor, and the tumor was a high-fluorescence leak in the late period. RAM was divided into exudative type and hemorrhagic type according to the literature and based on the ocular fundus appearance. In 19 eyes, 8 eyes were exudative RAM and 11 eyes were hemorrhagic RAM. All eyes were examined by OCTA, and the retinal blood flow images of 3 mm ×3 mm diameter were routinely collected to observe the OCTA imaging features. Results OCTA examination showed that the superficial RAM of all eyes had strong reflection signal connected with retinal artery. B-scan image showed smaller tumors in the lumen with strong reflection of expansion, or large tumor with peak-like uplift and the blood flow signals in the tumor body were abundant. The enface image clearly showed the three-dimensional shape of the tumor. Tumors with exudation or multi-level bleeding could be clearly documented for their bleeding range and boundary. The white signal co-localized with the superficial retinal blood vessels by the function of multi-color fluoroscopy. The pattern of blood flow density can also clearly show the three-dimensional shape of the tumor. Conclusion The complex RAM is a strong reflection signal in the superficial layer of retina, which is connected with the retinal vessels; B-scan images shows small tumors with a small piece of strong reflection and dilation, or large tumors with mountain-like elevation with abundant blood flow signals. En face image can clearly show the three-dimensional shape of the tumor.
ObjectiveTo observe the changes of retinal and choroidal blood flow density and thickness in macula of different myopic dioptre eyes, and to analyze the correlation between retinal and choroidal blood flow density and axial length (AL). MethodsA retrospective clinical study. From October 2022 to May 2023, 86 eyes of 56 myopic patients scheduled for refractive surgery in Hubei Clinical Center of Laser Ophthalmopathy were included into the study. According to the equivalent spherical specular degree (SE), 19, 21, 27 and 19 eyes of low myopia group (group A), moderate myopia group (group B), high myopia group (group C) and super high myopia group (group D) were observed. Optical coherence tomography angiography (OCTA) and AL measurement were performed in all patients. The diopter was expressed in SE. AL was measured by ultrasonic bio-meter. OCTA scanner was used to scan the macular region in the range of 3 mm × 3 mm. The software automatically divided the macular region into two concentric circles with the fovea as the center, which were 1 mm in diameter respectively, the paracentric fovea of 1-3 mm was divided into 5 regions: superior, nasal, inferior and temporal. The superficial capillary plexus (SCP), deep capillary plexus (DCP), choroidal capillary plexus (CC), choroidal blood flow density, retinal and choroidal thickness were measured. The correlation between AL and blood flow density and thickness was analyzed by Pearson correlation analysis. ResultsThere was no significant difference in SCP blood density and DCP blood density in the fovea in groups A, B, C and D (P>0.05) .There were significant differences in DCP flow density among superior, nasal, inferior and temporal areas (P<0.05), the difference was significant (P<0.05). There was no significant difference in the fovea area between the four groups (P>0.05), but there was significant difference in the superior, nasal, inferior and temporal areas (P<0.05). Different macular regions: there were statistically significant among group A, group B, and group C, group D (P<0.05). Results of correlation analysis, AL was negatively correlated with DCP blood flow density (r=-0.504, -0.500, -0.460, -0.465), retinal thickness (r=-0.348, -0.338, -0.312, -0.230), macular Subarea CC (r=-0.633, -0.666, -0.667, -0.710, -6.82), choroidal layer (r=-0.635, -0.687, -0.659, -0.703, -0.680) and choroidal thickness (r=-0.665, -0.605, -0.656, -0.648, -0.643) (P<0.05). ConclusionsAL is negatively correlated with DCP, CC, CDF, retinal and choroidal thickness in the eyes with myopia. SCP, DCP and retinal thickness in fovea did not change significantly, and temporal choroidal thickness changed earlier than other areas.