The retinal vessel changes are the primary and major features of retinal vascular diseases. The retinal vessel is part of systemic vessels with its own characteristics to sustain normal retinal function. These basic characteristics are important to the correct understanding and proper treatment of retinal vascular diseases. Always keep in mind that the retinal vessels is one part of the systemic vascular system, thus retinal vascular diseases may have systemic etiology, and systemic drug administration may have a profound effects to the whole body. However retinal vascular system also has its own structural and functional characteristics, thus retinal vascular diseases are also different from the systemic diseases. Finally the main function of retinal vascular network is to maintain the neuro-retinal function, thus we should balance the vision protection and treatments against abnormal retinal blood vessels. Over-treatments may damage the retinal vision.
ObjectiveTo observe the effect of epinephrine in intraocular irrigation solution on retinal vascular caliber and macular thickness. MethodsA prospective control study. 32 eyes of 32 patients with macular hole who underwent vitrectomy were enrolled in this study. The patients including 14 males (14 eyes) and 27 females (18 eyes), with the average age of (64.0±4.5)years. Uncorrected visual acuity, corrected visual acuity, slit lamp biomicroscopy, indirect ophthalmoscopy, fundus color photography and optical coherence tomography were performed in all patients. Retinal vascular caliber located in 0.5-1.0 disc diameter from optic disk was measured from digital fundus photographs and summarized as central retinal artery (CRAE) and vein (CRVE) equivalents in all eyes at baseline and at the 1 month, 3 months follow-up visit. The macular thickness is the distance from retinal interface of inner plexiform layer to retinal pigment epithelium layer. The macula was divided into inner ring ( < 3 mm) and outer ring (3-6 mm) according to the distance from the fovea. The patients were divided into experiment group (include epinephrine in intraocular irrigation solution, 1:1000) and control group (without epinephrine in intraocular irrigation solution), 16 eyes in each group. The difference of CRAE and CRVE between two groups was not significant (P > 0.05). The difference of macular thickness between inner ring and outer ring was not significant (P > 0.05). The average follow-up was 3.5 months. CRAE, CRVE and macular thickness in inner ring and outer ring before and 1 month, 3 months after surgery were comparatively analyzed. ResultsThe differences of CRAE and CRVE before and 1, 3 months after surgery both in experiment group (tCRAE=0.322, 0.148; tCRVE=0.317, 0.005) and control group (tCRAE=0.226, 0.137; tCRVE=0.284, 0.151) were not significant (P > 0.05). The differences of CRAE (t=0.624, 0.424) and CRVE (t=0.015, 0.041) between experiment group and control group also were not significant (P > 0.05). The differences of macular thickness in inner ring and outer ring before and 1, 3 months after surgery both in experiment group (tinner=0.322, 0.148;touter=0.317, 0.005) and control group (tinner=0.226, 0.137;touter=0.284, 0.151) were not significant (P > 0.05). The differences of macular thickness in inner ring (t=1.568, 0.373) and outer ring (t=-1.697, 0.536) between experiment group and control group also were not significant (P > 0.05). ConclusionEpinephrine (1:1000) in intraocular irrigation solution has no effect on retinal vascular caliber and macular thickness in patients with macular hole.
ObjectiveTo investigate the relationship between retinal vessel diameters and cerebral infarction of carotid artery stenosis patients. MethodsEighty-seven patients (174 eyes) with carotid stenosis were included in this study. There were 49 males and 38 females, with an average age of (65.25±7.85) years. Thirty-four patients were suffered from cerebral infarction (cerebral infarction group), and the other 53 patients had no cerebral infarction (control group). There was no significant difference in age (t=1.916), male rate (χ2=0.142) and carotid stenosis extent (χ2=0.785) between the two groups (P=0.059, 0.706, 0.675). All patients underwent color fundus photography after mydriasis. Retinal vascular caliber measurements were performed using IVAN software. The main parameters were central retinal artery diameter (central retinal artery equivalent, CRAE), the diameter of the central retinal vein (central retinal vein equivalent, CRVE) and the retinal arteriole to venular ratio (AVR). The relationship between retinal vessel diameter and cerebral vascular disease were analyzed with logistic regression analysis. ResultsIn cerebral infarction group, CRVE, CRAE and AVR ratios were (132.90±20.67) μm, (243.47±43.92) μm and 0.56±0.10, while the control group was (145.26±21.59) μm, (224.99±32.35) μm and 0.68±0.13 respectively. There were significant differences between the two groups (t=-2.648, 2.257, -4.631; P < 0.05). After correction for risk factors, such as age, smoking history, CRAE reduction and CRVE increases were significantly correlated with cerebral infarction. ConclusionCRAE reduction and CRVE increases are risk factors of cerebral infarction in patients with carotid stenosis, and it is useful in the prediction.
Objective To evaluate the correlation of oxygen saturation of retinal vessels and diabetic retinopathy (DR) stages or HbA1c level in patients with DR. Methods Cross sectional study. A total of 102 patients (102 eyes) with DR and 20 age-matched healthy controls (20 eyes) (normal control group) were enrolled in this study. DR patients were divided into mild and moderate non-proliferative DR (NPDR) group (55 patients), severe NPDR group (26 patients) and proliferative DR (PDR) group (21 patients). DR patients were also divided into 3 groups according to the HbA1c level including HbA1c>9% (8 patients), HbA1c 7% – 9% (33 patients) and HbA1c<7% group (61 patients). The oxygen saturation of retinal vessel was measured by spectrophotometric oximetry unit in the retinal vessels with a diameter greater than 60 μm in the area around the optic disc. Results The retinal artery oxygen saturation of patients in severe NPDR group was significantly higher than that in mild to moderate NPDR group and normal control group (F=13.670,P<0.05). The retinal vein oxygen saturation of patients in PDR group was significantly higher than that in mild to moderate NPDR group and normal control group (F=6.379,P<0.05). The difference between retinal artery and vein oxygen saturation of patients in severe NPDR group was significantly bigger than that in mild to moderate NPDR group and PDR group (F=5.536,P<0.05). The retinal artery and vein oxygen saturation in patients of HbA1c>9% group were significantly higher than that in HbA1c 7% – 9% group and HbA1c<7% group (F=9.989, 10.208;P<0.05). The differences between retinal artery and vein oxygen saturation were same between patients in HbA1c>9%, HbA1c 7%<9% and HbA1c<7% group (F=1.836,P>0.05). Conclusions The retinal artery and vein oxygen saturation in DR patients are related to the DR stages. Severe NPDR patients show the highest retinal artery oxygen saturation as well as biggest difference between retinal artery and vein oxygen saturation. There is also a trend that retinal vein oxygen saturation increases with higher DR stages. In addition, there is a positive correlation between the levels of HbA1c and retinal vessel oxygen saturation.