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.
Objective To compare the outcome of C3F8 versus silicone oil intraocular tamponade after pars plana vitrectomy (PPV) for the treatment of severe highly myopic macular hole retinal detachment (MHRD). Methods Thirty-two highly myopic MHRD patients (32 eyes) with extreme long axial lengths (ge;29.0 mm), quot;severequot; retina pigment epithelium (RPE) and chorioretinal atrophy, and posterior staphyloma who underwent PPV, were enrolled in this study. The patients were divided into two groups according to different intraocular tamponade agents: C3F8 (group A, 15 eyes) and silicone oil (group B, 17 eyes). The patients with retinal re-detachment after surgery received PPV again. The differences of sex (P=1.000), age (t=0.444, P=0.660), best-corrected visual acuity (t=0.084, P=0.934), diopter (t=0.449, P=0.978), lens state (P=1.000), time of the symptoms (t=0.375, P=0.710) and degree of retinal detachment (chi;2=0.014, P=0.907) between group A and B were not statistically significant. The anatomic reattachment of the retina, macular hole closure, and vision acuity were observed at one week, one, three, six and 12 months after surgery. Results The rates of retinal reattachment and macular hole closure were 60.00% and 13.33 % in group A, 82.35% and 29.41% in group B in the first time of surgery. There was no difference in rates of retinal reattachment and macular hole closure between two groups (P=0.243, 0.402). The rates of retinal reattachment and macular hole closure were 86.67% and 20.00% in group A, 94.12% and 29.41% in group B in the second time of surgery. There was no difference in rates of retinal reattachment and macular hole closure between two groups (P=0.589, 0.691). Twelve months after surgery, the vision acuity improved in five eyes, unchanged in seven eyes , and decreased in three eyes in group A; the vision acuity improved in seven eyes , unchanged in eight eyes , and decreased in two eyes in group B. The differences of vision result was not statistically significant between two groups (chi;2=0.209, P=0.647). Conclusion The rates of retinal reattachment and macular hole closure with silicone oil tamponade was higher than that with C3F8 tamponade in eyes with severe highly myopic MHRD, but the differences are not statistically significant.
Objective To observe the effect of emergent vitrectomy combined with lensectomy, silicone oil temponade for endogenous endophthalmitis. Methods The clinical data of 28 patients (30 eyes) with endogenous endophthalmitis were analyzed retrospectively. All patients had no history of ocular trauma and intraocular surgery history. There were 21 patients without systemic symptoms, three patients with fever, two patients with eye pain and headache, and two patients with abdominal pain when presentation. All patients diagnosed by best corrected visual acuity, intraocular pressure, slit-lamp microscopy, direct and indirect ophthalmoscope examination and intraocular B-ultrasound examination. Emergent surgery (vitrectomy, lensectomy, silicone oil temponade) was performed in all 30 patients, those with fever or abdominal pain was also treated by relevant clinical departments. Vitreous purulence was taken in all patients before vitrectomy for bacterial, fungal culture and drug sensitivity test. The follow-up was 18 to 30 months. The preoperative and postoperative visual acuity, intraocular pressure and eye retention situation were observed.Results Endophthalmitis was controlled in 28/30 eyes (93.3%) after surgery, recurrent vitreous empyema occurred in 2/30 eyes (6.7%). Evisceration was performed on those two eyes as uncontrolled intraocular pressure. The visual acuity improved significantly at one month and 18 months after surgery (chi;2=19.87, 32.44; P<0.01). Postoperative intraocular pressure was normal in 24 eyes (80.0%), transient elevated and controlled in six eyes (chi;2=7.43;P<0.05). 12/28 (42.9%) vitreous samples were positive for pathogen culture, including 7/12 (58.3%) positive for bacteria, 5/12 (41.7%) positive for fungi. There are 18/28 patients (64.3%) also had hepatobiliary system infections. Conclusion Emergent vitrectomy combined with lensectomy, silicone oil temponade is effective for endogenous endophthalmitis.
Objective To observe the effects of vitrectomy combined with endotamponade on severe endophthalmitis. Methods The clinical data of 44 patients (44 eyes) of posttraumatic and 22 patients (22 eyes) of postoperative severe endophthalmitis were retrospectively analyzed. All patients were treated by vitrectomy and endotamponade. Intraocular foreign body removal (19 eyes), lens extraction (25 eyes), intraocular lens removal (six eyes) and scleral buckling (16 eyes) were performed. Tamponade with silicone oil (52 eyes) or C3F8 gas (14 eyes) was also performed. Postoperative follow-up ranged from two to 25 months, with the mean of 7-9 months. The visual acuity(VA)and intraocular pressure before and after surgery were comparatively analyzed. Results Inflammation of all the patients were controlled,the effective rate was 5.10%. There was no recurrence and retinal detachment. Among the 66 eyes, postoperative VA of 58 eyes (87.90%) increased,five eyes(7.60%)didn't change and three eyes(4.55%)decreased, the difference was statistically significant(chi;2=45.27,P<0.05). The postoperative intraocular pressure was higher than that before surgery,the difference was statistically significant(t=-3.23,P<0.05). Conclusions Vitrectomy combined with endotamponade is an effective way to cure severe endophthalmitis. It can improve the visual acuity and intraocular pressure.
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.
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.
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 glaucoma and anterior chamber angle changes after intravitreal silicone oil injection(SOI). Methods The intraocular pressure(IOP) and anterior chamber angles of 34 e yes(33 patients)undergone pars plana vitrectomy and SOI were observed. Results Glaucoma occurred in 9 eyes(26%),in which silicone oil glaucoma(SOG) accounted for 77%(7/9).The changes of the superior part of anterior chamber angle were peripheral anterior synechiae in 11 eye(32%) and SO emulsification droplets in 22 eyes(64%) in 1~4.5 months after surgeries.Glaucoma occurred in 6 eyes of 7 eyes undergone peripheral iridectomy at the inferio r part of the iris after the closure of iridectomy holes (plt;0.05). Conclusion High incidence of glaucoma was found in this series of patients after intravitreal silicone oil injection,and the main causes of SOG were closure of the inferior iridecomy hole and silicone emulsification. (Chin J Ocul Fundus Dis, 2001,17:105-107)
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 verify the changes of optics and refraction of the eyes after retinal detachment surgery with the tamponade of silicone oil in vitreous cavity. Methods The optical calculation was taken as the following by using the parameter of Gullstrand model eye:(1)The refraction of silicone filled eye in non-accommodative status;(2)The refraction of silicone filled eye in non-accommodative status;(3)The aniseikonia analysis when one eye filled with the silicone oil;(4)The IOL power re-calculation. Results (1) Compa red with the normal eye,the eye filled with silicone oil is moved toward high hyperopia of +9.19 D;(2)When corrected,the accommodation amplitude reduced 1.42 D induced by filling silicone oil. Conclusion When eye filled with silicone oil,the change of refractive power tends to be highly hyperopic,the amplitude of accommodation decreased,and the regular IOL power calculation formula is no longer available. (Chin J Ocul Fundus Dis,2000,16:139-212)