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AIM: To compare the efficacy of intravitreal injection of ranibizumab(IVR)and intravitreal injection of conbercept(IVC)in children with retinopathy of prematurity(ROP).METHODS: Retrospective study. A total of 1 100 eyes with ROP treated with intravitreal anti-VEGF at our hospital from January 2015 to June 2023 were included. According to the different therapeutic drugs, the children were divided into two groups: IVR group and IVC group. According to the degree of ROP, the patients were divided into three groups: aggressive ROP(A-ROP), Zone Ⅰ type 1 ROP and Zone Ⅱ type 1 ROP. The reactivation and retreatment between the two groups were compared after propensity score matching(PSM)analysis, and they were followed-up for at least 3 mo after surgery.RESULTS: In Zone Ⅱ type 1 ROP, there was a statistically significant difference in the rates of reactivation and retreatment between the IVR and IVC groups(P<0.05); however, in A-ROP and Zone I type 1 ROP, there were no statistically significant differences in the rates of reactivation and retreatment between the two groups(P>0.05). The risk of reactivation and retreatment of Zone I type 1 ROP was higher than the Zone II type 1 ROP. Furthermore, the use of drugs and corrected gestational age of first treatment were influencing factors of lesion recurrence and retreatment.CONCLUSION: There is a significant difference in the initial cure effect between the two drugs in Zone II type 1 ROP, with the reactivation and retreatment rates of the IVC group being much lower than those of the IVR group.
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Objective:To analyze the time of recovery to the respiratory baseline after treatment of retinopathy of prematurity (ROP) and the possible influencing factors.Methods:The preterm infants with ROP who received ophthalmic treatment from January 2016 to December 2020 in the Department of Neonatology, Guangdong Women and Children′s Hospital were enrolled retrospectively.The baby who received vitreous injection were included in the injection group, and who received laser photocoagulation were included in the photocoagulation group.The patients were divided into two groups according to whether they returned to the respiratory baseline within 48 hours after ROP surgery.Relevant data were collected, including respiratory baseline, the respiratory status 24 hours, 48 hours, 72 hours, 96 hours, 5 days and 7 days after treatment, gestational age, birth weight, gender, corrected gestational age at surgery, weight at surgery, laser points, and treatment location.Wilcoxon signed-rank test was used for continuous variables. Data were expressed as the number and percentage of patients for categorical variables, using Chi-square test or Fisher′ s exact test. Binary Logistic regression analysis was used to analyze the influencing factors.The time taken by preterm infants to return to the preoperative respiratory baseline after treatment and its influencing factors were analyzed. Results:A total of 386 ROP infants were included in this study.There were 157 infants who did not return to the respiratory baseline within 48 hours after treatment.No significant difference in the source, gender, gestational age, birth weight, corrected gestational age at surgery, weight at surgery, and respiratory pressure support required before surgery were found between the group who returned to the respiratory baseline within 48 hours and the group who did not (all P>0.05). However, there were significant differences in treatment methods and location between two groups (all P<0.01). The ratio of returning to the respiratory baseline in the group receiving intravitreal injection was significantly different from that in the group treated with laser therapy at 24 h, 48 h, 72 h, and 96 h after treatment (77% vs.14%, 82% vs.33%, 86% vs.58%, 89% vs.76%; all P<0.01). There was no difference in that ratio between two groups at 5 d and 7 d after treatment (91% vs.86%, 95% vs.92%; P>0.05). Of the 157 infants who did not return to the respiratory baseline within 48 hours after treatment, 108 cases (68.8%) required additional supplemental oxygen, whereas 153 cases (98.5%) required more intensive respiratory support ( P<0.001). According to the multivariate Logistic regression analysis results, the preterm infants who received laser therapy were less likely to return to the respiratory baseline within 48 hours than those who received intravitreal injection ( OR=0.099, 95% CI: 0.060-0.164). A small corrected gestational age at surgery was an independent risk factor for infants not returning to the respiratory baseline within 48 hours ( OR=1.147, 95% CI: 1.009-1.302). Conclusions:Infants with ROP who receive intravitreal injection can return to the respiratory baseline more quickly than those who underwent laser photo-coagulation under. The difference persisted up to 4 days. The smaller the corrected gestational age at treatment, the less likely return to the respiratory baseline within 48 hours in photocoagulation group..
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Objective To explore the effects of perinatal infection on retinopathy of prematurity (ROP).Methods A retrospective cohort study was performed to analyzed the clinical data of 238 preterm infants at gestational age ≤32 weeks who were delivered in Guangdong Women and Children Hospital from November 2014 to October 2015 and ROP screening examinations.Observation was not terminated until they were 45 weeks of corrected gestational age.Mild ROP was defined as having stage 1 or stage 2 ROP in zone Ⅱ or Ⅲ without additional disease,and severe ROP was defined as stage 3 or higher,any ROP in zone Ⅰ,prethreshold/threshold,with additional disease,and aggressive posterior retinopathy of prematurity (AP-ROP).Medical records of eligible preterm infants were retrospectively reviewed and analyzed.Occurrences of ROP,severe ROP,and clinically significant ROP requiring surgical treatment were assessed.Results The mean gestational age of the cohort was (30.10 ± 1.34) weeks (25.29-32.00 weeks) and the mean birth weight was (1 373 ± 272) g(720 ~2 330 g).ROP was diagnosed in 76 of 238 infants (31.9%),including 39 cases with mild ROP (16.4%) and 37 cases with severe ROP (15.5%).Surgical treatment was performed on 22 infants (9.2%).In the patients with ROP,the time to develop ROP from birth was (35.16 ± 14.26) d and the mean time of its most serious stage was (44.62 ± 18.99) d.In 22 patients with ROP who required surgical treatment,the time of surgical treatment was (50.27 ± 17.24) d.In univariate analysis,maternal perinatal infection disease was found to be associated with ROP occurrence (x2 =7.891,P =0.005) and ROP progression requiring surgical treatment (x2 =4.494,P =0.034).Small gestational age,low birth weight and long-term oxygen therapy were found to be asso ciated with ROP occurrence and severe ROP (gestational age:t =-5.803,P < 0.001;t =-5.290,P < 0.001;t =-4.150,P < 0.001;birth weight:t =-4.942,P < 0.001;t =-4.058,P < 0.001;t =-3.126,P =0.002;the duration of oxygen therapy:t =2.351,P =0.020;t =2.473,P =0.018).Apgar scores ≤ 7 at 1 min and 5 min were found to be associated with severe ROP (x2 =4.803,P =0.028).Neonatal sepsis and neonatal fungal infection were found to be associated with ROP occurrence (x2 =6.071,P =0.014;x2 =4.070,P =0.044).Neonatal fungal infection was also found to be associated with severe ROP (x2 =5.479,P =0.019).Multivariate regression analysis indicated that maternal perinatal infection disease was associated with an increased risk of ROP and ROP progression requiring surgical treatment (OR =2.837,P =0.023;OR =4.087,P =0.012).Maternal preeclampsia was also associated with an increased risk of ROP (OR =2.506,P =0.040).Gestational age was an important risk factor for the development of ROP.The smaller the gestational age was,the higher the rate of occurring ROP and severe ROP (OR =0.518,0.508,0.520,all P < 0.001).Conclusions Both fetal and neonatal exposure to infection appear to contribute to the increase of ROP risk in the preterm infants at gestational age ≤ 32 weeks.Maternal perinatal infection disease and maternal preeclampsia were independently associated with ROP occurrence and ROP progression in the preterm infants at gestational age ≤32 weeks.
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Objective To determine the characteristics of retinal vascularization in premature infants. Methods A prospective study was carried out which included all premature infants with birth weight<2 000 g, who were hospitalized in Guangdong Women and Children's Hospital from September 1, 2009 to August 31, 2010. Close retinal screening and follow-up were carried out in order to record retinal vascularization at different post-conceptional ages. Spearman correlation analysis was performed for statistical analysis. Results A total of 231 infants were enrolled, and follow-up was completed in 212 infants giving a follow-up rate of 91.8%. Twenty-eight infants developed retinopathy of prematurity (ROP) resulting in a ROP morbidity of 13.2%, and 184 cases had full retinal vascularization. The median birth weight was 1 600 g (1 000-1 900 g) and the median gestational age was 32.4 weeks (27.0-35.5 weeks). In the 32-week post-conceptional age group, the proportion with full vascularization in ZoneⅠ,ⅡandⅢwas 87.1%(81/93), 7.5%(7/93) and 0.0%(0/93), respectively. In the 36-week post-conceptional age group, full vascularization was observed in ZoneⅠ, and the proportion with full vascularization in ZoneⅡandⅢrose sharply at 38-week and 40-week post-conceptional age, respectively. The proportion with full vascularization in ZoneⅢwas 100.0%(24/24) at 43-week post-conceptional age. According to Spearman correlation analysis, there was a positive correlation between ZoneⅡand Zone Ⅲ retinal vascularization progression and post-conceptional age (r=0.690 and 0.720;P=0.000). In premature infants, full retinal vascularization in ZoneⅠoccurred at 36-week post-conceptional age. The median gestational age for ZoneⅡand ZoneⅢretinal vascularization was 38 weeks (32.2-40.4 weeks) and 41 weeks (36.0-42.6 weeks), respectively. Therefore, a further 2-3 weeks were required for full retinal vascularization in ZoneⅡand ZoneⅢ. The time differences for under-vascularization in ZoneⅡandⅢwere 8 to 10 weeks, and the time differences for full vascularization in ZoneⅡandⅢwere 8 weeks and 6 weeks, respectively. Conclusion Retinal vascularization varies in premature infants. Almost all premature infants complete vascularization by term gestational age and the majority of infants need to be followed up to 41 weeks. It is essential to focus on the different retinal regions during maturation.
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OBJECTIVE:To establish an RP-HPLC method for the determination of Callic acid and Caffeine in tea pigment.METHODS:The separation of sample performed on Novapak ODS column(250 mm?4.6 mm,5.4 ?m).The mobile phase consisted of acetic acid-methanol-DMF-H2O(2∶3∶35∶160) with a flow rate of 1.0 mL?min-1 and detection wavelength of 280 nm.RESULTS:The linear ranges of Callic acid and Caffeine were 8.16~81.60 ?g?mL-1 and 2.84~28.40 ?g?mL-1.The average recovery rate of Callic acid was 99.8%(RSD=0.5%,n=6) and that of Caffeine was 99.9%(RSD=0.6%,n=6).CONCLUSION:The method is rapid,sensitive and accurate,and suitable for the quality control of tea pigment.
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ObjectiveTo study the effect of apoptosis in the p athogenesis of great saphenous varicose(GSV) resulting from primary deep ven ous insufficiency (PDVI). Methods Apoptosis and Bcl-2 expres sion in the segment of first valve sinus of the GSV of PDVI of lower limbs w ere detected by transmission electron microscopy(TEM), agarose gel electrophore sis, TUNEL and immunohistochemistry. ResultsThere were 38 case s of PDVLs in experment group and 5 normal GSV in control group. In experiment group,the apoptosis cells(AC) (6.30? 2.70 )and apoptosis rate (AR)(0.42?2 .12) in the first valve sinus of GSV were significantly higher than those in control group(1.60?0.81,0.21?1.10,respectively)(all P