Objective To investigate the effect of prophylactic 360°laser retinopexy on retinal redetachment after silicone oil removal. Methods The clinical data of 181 vitreoretinal patients after silicone oil removal were retrospectively analyzed. In 88 patients (photocoagulation group) was taken prophylactic 360-degree laser retinopexy before silicone oil removal; in 93 patients (control group) without prophylactic laser retinopexy. The incidence, time, the cause of retinal redetachment and the complications of laser retinopexy after silicone oil removal in two groups were observed. Results The duration of silicone oil tamponade is 4~72 weeks, averaging 13.7±2.4 weeks. 20 cases of retinal redetachment were recorded after silicone oil removal, including 5 cases (5.7%) in photocoagulation group and 15 cases (16.1%) in control group. The difference between two groups is statistically significant (Plt;0.05). Among these 20 patients with retinal redetachment, 10 occured during the first 3 days after the operation, 6 during 4~7 days, 3 during 8~14 days. 1 case occured 2 months after the operation. 11 cases of redetachment result from the omission of small retinal breaks located in ora serrata or behind the photocoagulation zone, or the reopening of primary retinal breaks because of insufficient photocoagulation and freezing during the operation. 1 case result from the hole that come from laser photocoagulation scar tracted by nearby proliferative tissue. 7 cases result from the formation of new breaks from the proliferative vitreoretinopathy(PVR) or proliferation of residual vitreous. There are 52 cases of burning of pupillary border, with the incidence of 59%. Conclusions Prophylactic 360-degree laser retinopexy is associated with a decrease of the incidence of retinal redetachment after removal of silicone oil. (Chin J Ocul Fundus Dis,2008,24:283-285)
Objective To invesligate the treatment of retinal de tachment(RD) after silicone oil tamponades(SOT). Methods The records of a consecutive series of 32 eyes with redetachment of retina after SOT surgery between 1998 to 2000 were reviewed retrospectively. The surgical techniques used for these cases included remove of silicon oil,peeling of preretinal membrane, retinotomy, endolaser photocoagutation, secondary vitrectomy and C3 F8 tamponades. Results In 28 of 32 eyes the retina was reattached (87.6%). The postoperative visual acuity was improved in 12 eyes, redused in 4 eyes and remained no change in 16 eyes. The postop erative complications in 6 eyes included secondary glaucoma(3 eyes), hypotony (1 eye) and hyphema (2 eyes). Conclusion The techniques of preretinal membrane peeling, retinotomy, endophotocoagulation and C3 F8 tamponades can be effectively used in combination to treat the redetachment of retina after the silicone oil tamponades surgery. (Chin J Ocul Fundus Dis,2001,17:214-215)
Objective To investigate the characteristics and risk factors of optic nerve atrophy in eyes with complicated retinal detachment after silicone oil tamponade during the procedure of vitreoretinal operation. Methods The clinical data of 97 patients with complicated retinal detachment who had optic nerve atrophy after silicone oil tamponade during the procedure of vitreoretinal operation were an alyzed retrospectively. Logistic regression analysis by SPSS statistical software was used to analyze the factors like age, disease history, primary diseases, preoperative ocular condition, complications in and after the operation, the time taking out the silicone oil, and emulsification of the silicone oil, and Ple;0.05 was considered to be the symbol of significant difference. Results All of the affected eyes had optic discs with clear border, including paler optic disc in 65 eyes, pale one in 21 eyes, and paler optic disc with enlargement of the cup/disc (ge; 0.6) in 11 eyes. The result of logistic regression analysis showed that the intraocular pressure (P=0.022) and the visual acuity (P=0.001) during the silicone oil removal were in the equation. Conclusion The risk factor of optic nerve atrophy is the chronic increase of intraocular pressure after silicone oil tamponade. (Chin J Ocul Fundus Dis, 2006, 22: 305-307)
Objective To evaluate the long-term results of vitreoretinal surgery without use of intraocular silicone oil or gas in patients with diabetic tractional retinal detachment (DTRD). Methods The clinical interventional caseseries study included 104 patients (112 eyes) with DTRD, who were consecutively treated by pars plana vitrectomy without use of intraocular silicone oil or gas. Among the eyes, there were 6 eyes with iris neovascularization (INV), 1 eye with neovascular glaucoma (NVG) and 50 eyes with macular retinal detachment. There were no preexisting retinal holes or breaks prior to surgery nor any iatrogenic retinal breaks developed during vitrectomy. Cataract removal combined with intraocular lens implant surgeries were performed on 15 eyes. Followup duration varied from 12 to 65 months (mean: 29 months). Results Subretinal fluid was completely absorbed within 2 months after surgery. In 107 eyes (95.54%), the retina reattached after surgery and remained attached till the end of followup period. Best corrected visual acuity (BCVA) improved in 79 eyes (70.53%), remained unchanged in 14 eyes (12.50%) and got worse in 19 eyes (16.79%). The BCVA improving rate was lower in the macular detached group (33 eyes/50 eyes, 66.00% Vs 46 eyes/62 eyes, 74.19%,chi;2=0.89, P=0.344). No obviously aggravated opacity of lens was observed after vitreoretinal surgeries in the eyes without cataract surgeries. Seven (6.25%) eyes showed INV (5 new onset eyes), and none of them developed into NVG. In multivariate logistic regression, factors associated with postoperative rubeosis iridis were pre-existing rubeosis iridis [adjusted odds ratio (OR)=10.2], low preoperative BCVA (OR=11.1) and low postoperative BCVA (OR=16.7). Conclusions Vitreoretinal surgery for DTRD may not necessarily be combined with silicone oilor gas tamponade if there are no preoperative or intraoperative retinal breaks, and only using irrigation fluid could access a good longterm prognosis result.
PURPOSE:To evaluate the ability Of retinoic acid(RA) in silicon oil(SiO)to inhibit the proliferation of injected intraocular fibroblast cells. METHODS:Thirty New Zealand white rabbits (58 eyes)were divided into three groups. In control group ,only SiO(10 eyes)or BSS(10 eyes)were injected intravitreally and 5mu;g/ml (18 eyes)or 10mu;g/ml (20 eyes)RA in SiO were injected into other lwo groups respectively. Three days after gas-compression vitrectomy, 2 times;105 fibroblasts and Sio(0.5ml)or BSS(0.5ml)were injected in all eyes sequentially.The morbidity of tractional retinal detachment (TRD) were observed by ophthalmoscope until 4 weeks. RESULTS:After 4 weeks,in control ,5mu;g/ml RA in SiO and 10mu;g/ml RA in SiO group,80. 00%,44.44%,and 30.00% eyes developed TRD respectively. Significant statistical differences were found between the control group and the two treated groups (P<0.05). CONCLUSIONS:5mu;g/ml or 10mu;g/ml RA in SiO can inhibit the occurrence of TRD effectively. (Chin J Ocul Fundus Dis,1997,13:174-176)
Objective To observe the effect of pars plana vitrectomy (PPV) with epiretinal membrane peeling (ERMP) and (or) internal limiting membrane peeling (ILMP) and silicone oil tamponade for highly myopic macular hole retinal detachment (MHRD) with posterior staphyloma. Methods Eighty-five highly myopic MHRD patients (85 eyes) were enrolled in this study. All the patients were examined for corrected visual acuity (CVA), slit lamp microscope and preset lens, indirect ophthalmoscope, A/B ultrasound, optical coherence tomography (OCT) and intraocular pressure examination. The average axial length was (29.1plusmn;1.8) mm. There were 24 eyes with diffuse choroid atrophy and 61 eyes with partial choroid atrophy. The CVA was converted into a logarithm of the minimal angle of resolution (logMAR) for statistical analysis. The average logMAR CVA was 1.93plusmn;0.37. All the patients were treated with PPV and triamcinolone acetonide or indocyanine green (ICG) assisted ILMP and (or) ERMP and silicone oil tamponade. TA assisted ERMP was performed in 21 eyes; with ICG assisted ILMP in 56 eyes and TA assisted ILMP in eight eyes. The duration of silicone oil tamponade was (6.2plusmn;1.6) months. CVA, retina and macular hole status and complications were observed postoperatively. Differences between preoperative and postoperative CVA were evaluated by the t test and correlation analysis. Multiple logistic regression analysis was performed to assess the influence of individual preoperative factors on the initial anatomical success. Differences in the macular hole closure rate between eyes with or without macular schisis were evaluated for statistical significance using corrected chi-square. Results The mean logMAR CVA was 1.34plusmn;0.48 after surgery, which significantly improved compared to that before surgery (t=39.38, P<0.01). The CVA after surgery was independent of axial length (r=0.142, P>0.05), choroid atrophy (t=0.23, -0.165,P>0.05) and macular hole closure (t=0.12, -0.005, P>0.05). The retina reattached in 79 eyes (92.9%) and recurrence of retinal detachment occurred in six eyes (7.1%). Multiple logistic regression analysis indicated that recurrence of retinal detachment was independent of choroid detachment, proliferative vitroretinopathy, axial length, choroid atrophy and ILMP (OR=1.428, 5.039, 0.815, 2.578, 0.432; P>0.05). Of these 85 eyes, macular hole closed in ten eyes (11.8%), macular hole did not close in 75 eyes (88.2%). There were 24 eyes (28.2%) experienced high intraocular pressure during the first 2 weeks after surgery, all of them were under control with drugs. There were 12 eyes (14.1%) presented with high intraocular pressure before the silicone oil removal, all of them were under control only by silicone oil removal. Conclusion For the treatment of MHRD with posterior staphyloma, PPV combined with ERMP and (or) ILMP and silicone oil tamponade show a high retinal reattachment rate.
ObjectiveTo compare the effects of intravitreal tamponade of C3F8 with silicon oil on postoperative vitreous hemorrhage and visual prognosis after vitrectomy for proliferative diabetic retinopathy (PDR). MethodsThe clinical data of 121 patients (127 eyes) who underwent primary vitrectomy due to PDR were analyzed retrospectively. All the patients were divided into two groups according to different intravitreal tamponade, including C3F8 tamponade group (53 patients with 56 eyes) and silicone oil tamponade group (68 patients with 71 eyes). There was no difference of gender (χ2=0.956), age (t=1.122), duratiion of diabetes (t=0.627), fasting blood glucose (t=1.049), systolic pressure (t=1.056), diastolic pressure (t=0.517), history of hypertension (χ2=0.356), nephropathy (χ2=1.242), preoperative laser photocoagulation (χ2=1.225) and All the patients underwent three port pars plana vitrectomy. The mean follow-up was 2 years ranging from 6 months to 4 years. And then the incidence and onset time of postoperative vitreous hemorrhage and postoperative BCVA of the two groups were compared. ResultsPostoperative vitreous hemorrhage occurred in 14 of 56 eyes (25.00%) in C3F8 tamponade group. The average onset time of postoperative vitreous hemorrhage were (64.64±59.09) days ranging from 7-225 days and mostly were within 30-60 days (35.71%, 5/14). Postoperative vitreous hemorrhage also occurred in 7 of 71 eyes (9.89%) of silicone oil tamponade group after silicone oil removal with an average onset time of (25.29±20.46) days ranging from 3-65 days and were mostly within 15-30 days (42.86%, 3/7). There was a significant difference in the incidence of postoperative vitreous hemorrhage between the two groups (χ2=5.200, P<0.05). BCVA of the two groups was improved significantly after operation (Z=2.472, 3.114; P<0.05). Postoperative BCVA of silicone oil tamponade group was poorer than C3F8 tamponade group (Z=1.968, P<0.05). ConclusionBoth C3F8 and silicone oil tamponade can improve the visual acuity after vitrectomy for PDR. Compared with C3F8, silicone oil tamponade had lower incidence and late onset of postoperative vitreous hemorrhage after vitrectomy for PDR.