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)
ObjectiveTo investigate the medium and long-term influence of silicon oil versus heavy silicone oil on rabbit retinas. Methods28 health standard rabbits were randomly divided into A, B and C groups, with 12, 12 and 4 rabbits respectively. All rabbits received routine vitrectomy and tamponade with silicone oil (group A), or heavy silicone oil (group B) or balanced salt solution (group C). After 4, 8, 12 and 24 weeks, the retinal b-wave amplitude was measured by ERG, posterior retinal thickness was measured by optical coherence tomography (OCT). Retinal ultrastructure and tissue morphology were observed by transmission electron microscopy and optical microscopy. ResultsCompare to group C, the b-wave amplitude decreased at 4 weeks after surgery, and decreased at 8 weeks after surgery for group B, and decreased at 8 weeks after surgery, and decreased at 24 weeks after surgery for group A. The decreases were greater in group B than group A at 8, 12, 24 weeks after surgery, the difference was statistically significant (P < 0.05). The posterior retinal thickness of group A and B was thinner than group C at 24 weeks after surgery (P < 0.05). The decreases were greater in group B than group A, the difference was statistically significant (P < 0.05). Transmission electron microscopy and optical microscopy revealed severe pathological changes of retinal ultrastructure and morphology in group A and B rabbit eyes, at 12 weeks and 8 weeks after surgery respectively. The changes were more severe in group B and group A, including edema and necrosis in cone/rod cells, in disk membranes, mitochondria, cytoplasm, nucleus and other organelles. The morphological changes were also more severe in group B and group A, including degenerations of ganglion cell layer, inner nuclear layer changes. Those changes became more severe when the tamponade time extended. ConclusionThe heavy silicone influence on visual function, ultrastructures, histomorphology of rabbit retinas is much worse than the silicon oil, and the effect is more significant with its time prolong.
Objective To evaluate the efficacy and its affecting factors of silicone oil as an introocular tamponade for copmlicated retinal detachments in children(le;14 years). Methods We analysed retrospectively 34 cases(36 eyes) of complicated retinal detachments in children, who were performed with pars plana vitrectomy combined with silicone oil tamponade from June 1993 to November 1997. Results After 3-21 months of follow-up, the detached retinas in 19 eyes(52.7%) were reattached, in 10 eyes(27.8%) partially reattached and in 6 eyes (16.7%) redetached, 1 eye(2.8) had a media opacity that precluded evaluation of the retina. Postoperative visual acuity was less than 0.05 in 12 eyes(33.3%), and 0.05-0.2 in 20 eyes(55.6%), 2 cases(4 eyes) could not tell their visions(11.1%). Conclusion Silicone oil tamponade is an effctive therapy for complicated retinal detachments in children. The major cause of surgical fai;ure was development of recurrent proliferative vetrioretinopathy. (Chin J Ocul Fundus Dis,1999,15:7-8)
ObjectiveTo compare the clinical characteristics and analyze the factors affecting vision prognosis of idiopathic macular hole (IMH) or myopic macular hole (MMH). MethodsA cross-sectional study. From October 2012 to October 2020, 336 patients with 346 eyes of IMH and MMH who were diagnosed in Shanxi Provincial Eye Hospital with continuous follow-up data after surgery were included. There were 346 eyes (336 cases), including IMH with 247 cases (255 eyes) and MMH with 89 cases (91 eyes), which were divided into IMH group and MMH group. Best corrected visual acuity (BCVA) and optical coherence tomography were performed in all eyes. The BCVA examination used the standard logarithmic visual acuity chart, which was converted into logarithmic minimum angle of resolution (logMAR) visual acuity. The age of outset in IMH and MMH was 64.8±6.6 and 59.2±8.1 years, the logMAR BCVA was 1.11±0.50 and 1.80±0.78, respectively. There were significant differences in age (Wald=34.507) and logMAR BCVA (Z=-7.703) between two groups (P<0.05). All eyes were performed inner limiting membrane (ILM) peeling or partial inverted ILM covering hole operation. After the operation, the vitreous cavity was filled with air, C3F8 and silicone oil, including 73, 102, 83 eyes in IMH group and 9, 10, 72 eyes in MMH group, respectively. Follow-up time after surgery was more than 2 months. The optimal BCVA and macular hole closure of the two groups were observed. If the quantitative data conformed to the normal distribution, the generalized estimating equation was used, otherwise, the Mann-Whitney U test or Kruskal-wallis test was used, the χ2 test was used for the comparison of categorical variables. Generalized estimating equation logistic regression analyzed the influencing factors of optimal BCVA after surgery and visual acuity success. ResultsIn IMH and MMH, the optimal logMAR BCVA were 0.71±0.36, 1.10±0.51 respectively, and 147 (57.6%, 147/255) eyes, 63 (69.2%, 63/91) eyes achieved visual success respectively. There was a significant difference in the optimal logMAR BCVA (Z=-6.803, P<0.005), but no difference in visual success rate (χ2=3.772) between the two groups. The visual success rate of IMH at the same baseline BCVA level was higher than that of MMH, and the difference was statistically significant (χ2=14.500, P=0.001). Logistic regression analysis showed that the influencing factors predicting poor optimal visual acuity after surgery were: IMH, baseline BCVA [odds ratio (OR)=2.941, 95% confidence interval (CI) 1.341-6.447, P<0.05], MH diameter (OR=1.003, 95%CI 1.001-1.005, P<0.05), silicon oil filling (OR=3.481, 95%CI 1.594-7.605, P<0.05); MMH, baseline BCVA (OR=2.549, 95%CI 1.344-4.834, P<0.05), C3F8 filling (OR=18.131, 95%CI 1.505-218.365, P<0.05) and silicon oil filling (OR=7.796, 95%CI 0.997-60.944, P<0.05). The factors leading to a lower likelihood of achieving visual success: IMH, baseline BCVA (OR=213.329, 95%CI 46.123-986.694, P<0.05), MH diameter (OR=0.995, 95%CI 0.992-0.997, P<0.05), silicon oil filling (OR=0.326, 95%CI 0.115-0.926, P<0.05) and duration (OR=1.036, 95%CI 1.005-1.067, P<0.05); MMH, baseline BCVA (OR=13.316, 95%CI 2.513-70.565, P<0.05) and duration (OR=1.022, 95%CI 1.001-1.044, P<0.05). ConclusionsMMH was earlier than IMH in age of outset. Baseline vision significantly affected vision prognosis in IMH and MMH. Silicone oil should be avoided as much as possible under the premise of hole closure.
Along with the wide application of silicone gel implants in augmentation mammaplasty, more complications appeared. The author reported 24 cases of complicationssince 1989, including one case of heamtoma, one case of infection, two cases of injury of the sensory nerves to the nipple, four cases of asymmetric breast (as ymmetry in position and size), three cases of deformed appearance, six cases of constracture of the fibrous coating membrane, one case of rupture of prosthesis,one case of sinus formation and three cases of abnormal milk secretion. The causes of the complications and their prevention were discussed.
Objective To investigate the time and the mechanism of the toxic and side effects of silicone oil on ocular tissues. Methods 19 human eyeballs were examined histopathologically at different time intervals after silicone oil tamponade. Results Microscopic bubbles presumably containing silicone oil were found in sensory retina,RPE,optic nerve, pre and subretinal membrane,iris,anterior chamber angle,and retrocorneal membrane.In the eyes containing silicone oil for less than 9 months.Silicone bubbles were present only in the surface of retina(within preretinal membrane or macrophages),and after that time,silicone bubbles were noted within sensory retina.In an eye enucleated 39 months after intravitreal silicone tamponade,the parenchyma and subarachnoid space of the optic nerve were found to be diffusely invaded by silicone bubbles. Conclusion The histopathologic changes of ocular tissues are related to the duration of intravitreal silicone oil tamponade. (Chin J Ocul Fundus Dis, 1999, 15: 232-234)
ObjectiveTo observe the changes in physical properties of silicone oil after intraocular tamponade. MethodsThe silicone oil was removed from 99 patients (99 eyes) of primary retinal detachment with 23G vitreous cutter system. The upper silicone oil was collected after put the vitrectomy samples at room temperature for 3 days. According to the time of intraocular tamponade, the silicone oil samples were divide into six groups including group A (1 month, 12 samples), group B (2 months, 15 samples), group C (3 months, 25 samples), group D (6 months, 22 samples), group E (1-2 years, 13 samples) and group F (above 2 years, 12 sample). Fresh unused silicone oil was set as blank control group. Then the emulsion particles, kinematic viscosity, surface tension, density, transmittance and refractive index were measured. ResultsThe difference between group A-F and the control was statistical significant (P<0.05) in emulsion particles (F=89.337), kinematic viscosity (F=10.660), surface tension (F=11.810), density (F=13.497), transmittance of wavelengths (F=455.496, 566.105, 525.102, 767.573, 622.961, 601.539), but not statistical significant at refractive index (F=2.936, P>0.05). The number of silicone oil emulsion particles has no statistical difference between group A and the control (P>0.05), but was significantly different between group B-F (P<0.05). The kinematic viscosity of silicone oil has no statistical difference between group A, B and the control (P>0.05), but was significantly different between group C-F (P<0.05). The surface tension of silicone oil has no statistical difference between group A-D and the control (P>0.05), but is significantly different between group E and F (P<0.05). The density of silicone oil has no statistical difference between group A-D and the control (P>0.05), but was significantly different between group E and F (P<0.05). The transmittance of silicone oil has statistical difference between group A-F and the control(P<0.05). The refractive index of silicone oil has no statistical difference between all the groups and the controls significantly (P>0.05). ConclusionsThe physical properties of silicone oil will change during the intraocular tamponade. The emulsion particles number will increase and the transmittance will decrease after 2 months, the kinematic viscosity of silicone oil will decrease significantly after 3 months, and the density and surface tension will change significantly after 1 year of tamponade.
We uesd domestic perfluorotributylamine to treat 21 eyes with giant retinal tears,including 5 rhegmatogenous retinal detachment with folded and fixed flap and 16 giant retinal tears resulting from retinotomy and retinectomy due to complicated retinal detachment.The success rate of retinal reattachment was over 95%,with no serious side effects.The activities and complications of perfluorotributylamine in the mangement of giant retinal tears were discussed. (Chin J Ocul Fundus Dis,1996,12: 22-24)
Objective To observe the therapeutic effect of combined surgery of anterior and posterior segment and silicon oil tamponade on macular hole retinal detachment in eyes with high myopia.Methods The clinical data of 48 high myopia patients (48 eyes) with macular hole retinal detachment were retrospectively analyzed. Retinal detachment was mainly at the posterior pole; macular hole was confirmed by noncontact Hruby lens and optical coherence tomography (OCT). Phacoemulsification combined with pars plana vitrectomy and silicon oil tamponade were performed to all patients, of which 41 had undergone internal limiting membrane peeling, and 23 had intraocular lens implanting. The oil had been removed 3.5-48.0 months after the first surgery and OCT had been performed before the removal. The followup period after the removal of the silicon oil was more than 1 year.Results The edge of the macular hole could not be seen under the noncontact Hruby lens 1 week after the surgery in all but 5 patients, and the visual acuity improved. The silicon oil had been removed in all of the 48 patients; the OCT scan before the removal showed that the closed macular holes can be in U shape (8 eyes), V shape (6 eyes) or W shape (23 eyes). About 1338 months after the oil removal, retinal detachment recurred in 2 patients with the Wshaped holes. At the end of the followup period, 16 patients (33.3%) had U or Vshaped macular holes, and 32 patients (66.7%) had Wshaped macular holes. The rate of retinal reattachment was 100%.Conclusion Combined surgery of anterior and posterior segment and silicon oil tamponade is effective on macular hole retinal detachment in eyes with high myopia.
ObjectiveTo compare the safety and efficacy of a modified 23G with suturing incision and traditional 23G vitrectomy for silicone oil removal. MethodsA total of 177 patients (180 eyes) who underwent silicon oil removal (the average tamponade period was 4.5 months) were enrolled in this prospective study. The patients included 112 males (113) and 65 female (67). The mean age was (43.8±10.3) years. The corrected vision, indirect ophthalmoscopy, intraocular pressure, B-ultrasound and optical coherence tomography were measured for all patients. All patients had no complete retinal detachment. The patients were randomly divided into modified 23G with suturing incision group (group A, 88 eyes) and traditional 23G vitrectomy (group B, 92 eyes). The differences of sex (χ2=1.596), age, corrected vision (t=0.785), intraocular pressure (t=0.352), primary disease (χ2=1.982) and lens condition (χ2=2.605) were not significant (P>0.05). The operation time, intraocular pressure, silicon oil retention, choroidal detachment, retinal redetachment and endoophthalmitis were recorded at the end of the operation. ResultsThe difference of mean operation time was not significant between group A and B (t=1.950,P>0.05). The differences of mean visual acuity 1 day, 1 week and 3 months after operation were not significant between group A and B (t=0.873, 1.115, 0.141; P>0.05). There was difference of mean intraocular pressure at 1 day after operation (t=2.550,P<0.05), but not at 1 week and 3 months after operation (t=1.451,1.062; P>0.05) between group A and B. There were 25 eyes (28.4%) with intraocular hypotension, 8 eyes (9.1%) with choroidal detachment, 5 eyes (5.7%) with vitreous hemorrhage, 9 eyes (10.2%) with retinal redetachment, and 7 eyes (8.0%) with silicon oil retention in group A. There were 5 eyes (5.4%) with intraocular hypotension, 2 eyes (2.2%) with choroidal detachment, 2 eyes (2.2%) with vitreous hemorrhage, 8 eyes (8.7%) with retinal redetachment, and 1 eye (1.1%) with silicon oil retention in group B. The differences of incidence of intraocular hypotension, choroidal detachment and silicon oil retention were significant (P<0.05). No endoophthalmitis occurred. ConclusionThe safety of modified 23G with suturing incision is better than traditional 23G vitrectomy for silicone oil removal, with decreased incidence of intraocular hypotension, choroidal detachment and silicon oil retention.