Objective:To investigate the association of ocular dominance with the severity of chronic primary angle-closure glaucoma (PACG).Methods:Ocular dominance was assessed via the " hole in card" method.The anatomical symmetry (including anterior chamber depth, lens thickness and axial length) in both eyes was analyzed via A scan ultrasound.The severely glaucomatous eye was determined by the mean defect of visual field.The association of ocular dominance with the severity of chronic PACG was then analyzed.This study followed the Declaration of Helsinki, and the study protocol was approved by the Ethics Committee of Shantou International Eye Center of Shantou University and the Chinese University of Hong Kong.Written informed consent was obtained from all subjects prior to their entering the study cohort.Results:Visual acuity (LogMAR) was 0.39±0.24 in the dominant eye group, and 0.43±0.29 in the non-dominant eye group.Anterior chamber depth was (2.53±0.26)mm in the dominant eye group, and (2.54±0.29)mm in the non-dominant eye group.Lens thickness was (4.96±0.31)mm in the dominant eye group, and (4.92±0.33)mm in the non-dominant eye group.Axial length was (22.58±0.61)mm in the dominant eye group, and (22.73±1.11)mm in the non-dominant eye group.No significant difference was found in visual acuity, anterior chamber depth, lens thickness or axial length between the dominant and non-dominant eye groups ( t=-1.643, -0.797, 1.867, -1.345; all at P>0.05). The vertical cup-disc ratio of the dominant eye group was lower than that of the non-dominant eye group (0.55 [0.40, 0.80] vs. 0.80 [0.63, 0.90]). The mean defect in the visual field of the dominant eye group was lower than that in the non-dominant eye group (-6.54 [-16.70, -3.85]dB vs.-18.77 [-28.19, -8.55]dB), and the intraocular pressure in the dominant eye group was lower than that in the non-dominant eye group (21.00 [17.00, 27.75]mmHg vs. 24.50 [19.00, 36.25]mmHg) (1 mmHg=0.133 kPa). Significant differences were found in mean defect, vertical cup-disc ratio and intraocular pressure between the two groups ( Z=-3.781, -3.528, -2.126; all at P<0.05). The ratio of the severely glaucomatous eye being the non-dominant eye was 84.09%, which was much higher than that of the severely glaucomatous eye being the dominant eye (15.91%). The non-dominant eye was related to the severity of chronic PACG ( χ2=40.909, P<0.001, Pearson contingency coefficient r=0.563). Conclusions:The non-dominant eye is associated with the severity of chronic PACG.

【Objective】 To explore the relationship between the intraoperative plasma transfusion volume, the changes of blood coagulation test values and the clinical prognosis of surgical patients, so as to provide a theoretical basis for guiding the rational use of blood during the operation. 【Methods】 The clinical data of 556 surgical patients who received plasma infusion from January 2017 to December 2020 in Sun Yat-sen Memorial Hospital were collected. Patients were divided into low plasma dose group (<15 mL/kg) and high plasma dose group (≥15 mL/kg). The univariate regression analysis, logistic multivariate regression analysis and linear regression analysis were used to explore the relationship of plasma dose, the changes of coagulation indicators and the clinical prognosis. 【Results】 A total of 556 surgical patients were included in the study and the median (interquartile range) of plasma transfusion volume for all patients during the operation was 10.5 (8.5~14.0) mL/kg. In multivariate regression analysis, an increase of 1 mL/kg of intraoperative plasma dose resulted in an increased risk of red blood cell infusion within 24 hours after surgery[OR(95% CI) 1.16(1.01, 1.33), P<0.05], an increase in the ICU stays[Mean(95%CI) 0.19(0.03, 0.35), P<0.05] and an increase in the hospitalization days[Mean(95%CI) 0.55(0.27, 0.81), P<0.05]. The preoperative INR value increased the risk of red blood cell infusion within 24 hours after surgery[OR(95% CI) 1.82(1.33, 2.50), P<0.05], and increased the hospital mortality of postoperative patients[OR (95% CI) 2.15 (1.09, 4.24), P<0.05]; the decrease in INR reduced the risk of red blood cell infusion in patients 24 hours after surgery[OR(95% CI) 0.47(0.27, 0.84), P<0.05]and reduced hospital mortality[OR(95% CI) 0.23(0.13, 0.50), P<0.05]. 【Conclusion】 In surgical patients undergoing intraoperative plasma infusion, abnormal preoperative INR value and high intraoperative plasma infusion are related to poor clinical prognosis, while INR decrease (preoperative-postoperative) was related to better clinical results.