ObjectiveTo observe the effect of preoperative intravitreal ranibizumab injection (IVR) on the operation duration of vitrectomy and postoperative vision for the treatment of proliferative diabetic retinopathy (PDR). MethodsA prospective study was carried out with the 90 PDR patients (90 eyes) who underwent vitrectomy. The 90 patients(90 eyes)were assigned to the vitrectomy only group(43 eyes) and the IVR combined with vitrectomy group (47 eyes). The IVR was performed 5-13 days prior to vitrectomy in the IVR combined with vitrectomy group. There were 15 eyes with fibrous proliferation PDR (FPDR), 16 eyes with advanced PDR (APDR) without involving the macular and 16 eyes with APDR involving the macular in the vitrectomy only group. There were 14 eyes with FPDR, 15 eyes with APDR without involving the macular and 14 eyes with APDR involving the macular patients in the IVR combined with vitrectomy group. All the eyes in the two groups were regularly operated by the same doctor to complete the vitrectomy. The start and end time of vitrectomy were recorded. The average follow-up time was 10 months. The changes of best corrected visual acuity (BCVA) before and 1, 3 and 6 months after surgery were compared between the two groups. ResultsThe duration of operation of the FPDR type (t=-8.300) and the APDR involving the macular type (t=-2.418) in the IVR combined with vitrectomy group was shorter than vitrectomy only group (P < 0.05). The comparison of duration of operation of the APDR without involving the macular type in the two groups has no statistically significant difference (t=-1.685, P > 0.05). At 1 month after surgery, the comparison of BCVA of the IVR combined vitrectomy group and the vitrectomy only group in APDR involving the macular type has no statistically significant difference (t=0.126, P > 0.05). At 3, 6 months after surgery, the BCVA of the IVR combined vitrectomy group in APDR involving the macular type was significantly better than the BCVA of the vitrectomy only group (t=8.014, 7.808; P < 0.05). At 1, 3, and 6 months after surgery, the BCVA of the IVR combined vitrectomy group in FPDR type (t=3.809, 1.831, 0.600) and APDR without involving the macular type (t=0.003, 1.092, 3.931) compared with pre-treatment, the difference were not statistically significant (P > 0.05); the BCVA in APDR without involving the macular type compared with pre-treatment, the difference was distinctly statistically significant (t=2.940, 4.162, 6.446; P < 0.05); the BCVA in APDR involving the macular type (t=0.953, 1.682, 1.835) compared with pre-treatment, the difference were not statistically significant (P > 0.05). ConclusionPreoperative IVR of PDR can shorten the operation duration and improve the BCVA of APDR involving the macular type.
Objective To observe the short-term intraocular pressure after 25G+ pars plana vitrectomy (PPV) and analyze the possible influencing factors in rhegmatogenous retinal detachment (RRD) and proliferative diabetic retinopathy (PDR) eyes. Methods This is a retrospective case-control study. A total of 160 patients (163 eyes) of RRD and PDR who underwent 25G+ PPV were enrolled in this study. There were 88 males (89 eyes) and 72 females (74 eyes), with the mean age of (50.37±13.24) years. There were 90 patients (92 eyes) with RRD (the RRD group) and 70 patients (74 eyes) with PDR (the PDR group). Best corrected visual acuity (BCVA) and intraocular pressure (IOP) were performed on all the patients. The BCVA was ranged from hand motion to 0.6. The average IOP was (12.61±4.91) mmHg (1 mmHg=0.133 kPa). There were significant differences in crystalline state (χ2=9.285, P=0.009), IOP (χ2=58.45, P=0.000), history of PPV (χ2=4.915, P=0.027) and hypertension (χ2=24.018, P=0.000), but no significant difference in sex (χ2=0.314, P=0.635) and age (χ2=5.682, P=0.056) between the two groups. A non-contact tonometer has been used to measure IOP on postoperative day 1 and 3. The postoperative IOP distribution has been divided into five groups: severe ocular hypotension (≤5 mmHg), mild ocular hypotension (6 - 9 mmHg), normal (10 - 21 mmHg), mild ocular hypertension (22 - 29 mmHg), severe ocular hypertension (≥30 mmHg). Logistic regression analysis has been used to analyze the risk and protective factors. Results On the first day after surgery, there were 21 eyes (12.9%) in mild ocular hypotension, 96 eyes (58.9%) in normal, 22 eyes (13.4%) in mild ocular hypertension and 24 eyes (14.7%) in severe ocular hypertension. On the first day after surgery, there were 18 eyes (11.0%) in mild ocular hypotension, 117 eyes (71.7%) in normal, 23 eyes (14.1%) in mild ocular hypertension and 5 eyes (3.1%) in severe ocular hypertension. There was no significant difference of IOP distribution between the two groups (Z=−1.235, −1.642; P=0.217, 0.101). The results of logistic regression analysis showed that silicone tamponade was a risk factor for ocular hypertension in PDR eyes on the first day after surgery [odds ratio (OR)=15.400, 95% confidence interval (CI) 3.670 - 64.590; P<0.001], while intraocular lens was the risk factor for ocular hypotension in PDR eyes on third day after surgery (OR=19.000, 95%CI 1.450 - 248.2; P=0.025). As for RRD eyes, the ocular hypotension before surgery was a risk factor for ocular hypertension on the third day after surgery (OR=3.755, 95%CI 1.088 - 12.955; P=0.036). For all eyes, silicone tamponade (OR=0.236, 95%CI 0.070 - 0.797), air tamponade (OR=0.214, 95%CI 0.050 - 0.911) and inert gas tamponade (OR=0.092, 95%CI 0.010 - 0.877) were protective factors for ocular hypotension on the first day after surgery (P=0.020, 0.037, 0.038); silicone tamponade was protective factor for ocular hypotension on the third day after surgery (OR=0.249, 95% CI 0.066 - 0.94, P=0.040); while aphakic eyes was the risk factor for ocular hypotension on third day after surgery (OR=7.765, 95% CI 1.377 - 43.794, P=0.020). The ocular hypotension before surgery was a risk factor for ocular hypertension on the third day after surgery (OR=4.034, 95% CI 1.475 - 11.033, P=0.007). Conclusions The abnormal IOP is common after 25G+ PPV with a rate from 28.3% to 31.1%. Silicone tamponade, air tamponade and inert gases tamponade are protective factors for postoperative ocular hypotension, aphakic eye is risk factor for postoperative ocular hypotension. Ocular hypotension before surgery and silicone oil tamponade are risk factors for postoperative ocular hypertension.
ObjectiveTo investigate the risk factors for neovascular glaucoma (NVG) after vitrectomy in proliferative diabetic retinopathy (PDR) patients. MethodsThree hundred and one patients (301 eyes) with PDR who underwent vitrectomy between January 2008 and December 2013 in our hospital were retrospectively evaluated. Risk factors for NVG after vitrectomy were identified by multivariate Logistic regression analysis. ResultsTwelve of 301 patients (4.0%) developed postoperative NVG in 2 to 18 months after vitrectomy. The incidence of postoperative NVG peaked in 2 to 6 months after vitrectomy (7 eyes, 58.3%). Logistic regression analysis showed that postoperative retinal detachment was a significant risk factor for postoperative NVG in eyes with PDR (P < 0.001). Eyes with postoperative retinal detachment were more likely to develop NVG after vitrectomy than those without postoperative retinal detachment (OR=17.826). Gender, age, duration of diabetes, preoperative serum creatinine levels, glycated hemoglobin levels, preoperative intraocular pressure, preoperative lens status, combined phacoemulsification surgery and tamponade were not associated with postoperative NVG (P > 0.05). ConclusionPostoperative retinal detachment is a major risk factor for NVG after vitrectomy in PDR.
ObjectiveTo evaluate the factors that may influence the possibility of early hemorrhage after vitrectomy with silicon oil tamponade for proliferative diabetic retinopathy (PDR).MethodsSixty-seven eyes of 60 patients of PDR who received vitrectomy and silicon oil filled in Department of Ophthalmology, China-Japan Friendship Hospital during January 2014 and May 2017 were included in this study. There were 34 males and 26 females, with the mean age of 51.3±12.5 years. Groups were divided depending on the degree of postoperative hemorrhage in 3 days: non-hemorrhage group (NH group) and hemorrhage Group (H group) composed of two sub-group that were called slight hemorrhage (SH) and massive hemorrhage (MH) group. The treatment was conventional 25G or 27G pars plana vitrectomy combined with silicon oil tamponade. Forty eyes received phacoemulsification. The follow-up ranged from 8 to 16 months, with the mean follow-up of 11.2±5.6 months. The possible related factors of early hemorrhage after vitrectomy with silicon oil tamponade were analyzed. Independent t test, χ2 test and Fisher test were used in this study.Results55 eyes of 48 patients were in the NH group, while 12 eyes of 12 patients were in the H Group. There were statistical significances on the difference of age (t=−3.552, P=0.001), gender (P=0.052), hypertension (P=0.021), HbA1c (t=2.187, P=0.033) and presence of neovascularization of iris (χ2= 6.414, P=0.011), but there was no difference on diabetes duration (t=−0.451, P=0.654). Of the 12 patients in the H group, 7 were in the SH group and 5 were in the MH group. The MH group had a significantly higher HbA1c level (7.8±1.1)% compared with the SH Group (9.7±0.7)%, the difference was statistical significant (t=−3.256, P=0.009). Higher systolic blood pressure of MH group 186±7 mmHg (1 mmHg=0.133 kPa) acquired during operation was observed compared with SH Group 153±18 mmHg, the difference was statistical significant (t=−3.894, P=0.003). There was no statistical significances on the difference of age (t=1.954), gender, hypertension duration (t=−1.787), diabetes duration (t=−1.079), fasting blood-glucose (t=−0.361), diastolic blood pressure during operation (t=−0.811) between the two groups (P>0.05).ConclusionsYounger age, history of hypertension, presence of neovascularization of iris, higher level of HbA1c may predict greater possibility to cause early hemorrhage after vitrectomy with silicon oil tamponade for PDR. The patients with high level of HbA1c and high systolic pressure during the operation are more likely to undergo massive hemorrhage and secondary glaucoma.
Objective To observe the efficacy of vitreoretinal surgery on proliferative diabetic retinopathy (PDR) in patients with type 1 and type 2 diabetes mellitus (DM). Methods Retrospectively analyzed the clinical data of 451 patients with DM (71 with type 1 and 380 with type 2) who underwent PDR from June 1999 to October 2003. The follow-up period was at least 14 months with the average of 29 months. The pre-and post-operative visual acuity, progression and regression of iris neovascular (INV), neovascular glaucoma (NVG), and the reattached and being attached rate of retina were observed and compared between the two groups. The effect of different types of DM on vitreoretinal surgery for PDR were observed. Results The preoperative data showed that the number of type 1 DM patients with severe PDR was more than the type 2 DM patients: the rate of grade VI PDR, the visual acuity lower than 0.1, INV and NVG were all higher that which in type 1 DM patients. The increased ratio of postoperative visual acuity was 64.8% (46/71) in type 1 DM patients and 72.4% (275/380) in type 2 DM patients (P=0.196). There were 75.0% patients with PDR combined with rubeosis iridis in type 1 DM group and 60.0% in type 2 DM group (P=0.678);the rate of new rubeosis iridis after surgery was 6.3% in type 1 DM group and 5.6% in type 2 DM group (P=0.822). The intraocular pressure of NVG eyes were all controlled effectively in both type 1 and type 2 DM groups, and INV did not regressed only in one case in type 1 DM group. In the patients with preoperative retinal detachment at the grade VI of PDR, the rate of retinal reattachment after on off operation was 87.2% in type 1 DM group and 89.8% in type 2 DM (P=0.611); the rate of retina being-attachment after one-off surgery were 90.1% in type 1 DM group and 93.4% in type 2 DM group, respectively (P=0.323). Conclusion There was no obvious difference of surgical efficacy on the two types of DM in patients with PDR. (Chin J Ocul Fundus Dis,2007,23:248-251)
Complications of proliferative diabetic retinopathy have become the major indications of vitrectomy. The surgery, however, is not basically a causative therapy. The visual function after operation depends on the degree of retinal ischemia and damage induced. The surgery itself has a potential for severe complications. Therefore it is important to better understand the pathology and to master surgical strategy and techniques in order to improve surgical outcomes and reduce the surgical complications. (Chin J Ocul Fundus Dis,2007,23:234-237)
ObjectiveTo observe the clinical effect of small-gauge vitrectomy (SGV) treatment for proliferative diabetic tractional (PDR) with retinal detachment (TRD). MethodsThe data of 42 patients (50 eyes) with PDR combined with TRD who had received SGV treatment were retrospectively analyzed. There were 22 males and 20 females, with an average age of (44.5±11.2) years. There were 16 eyes with TRD involving the macular area, 34 eyes without TRD involving the macular area. The eyes with rhegmatogenous retinal detachment or retinal hole were excluded. The best corrected visual acuity (BCVA) was worse than finger counting in 18 eyes, worse than 0.1 in 15 eyes, 0.1-0.3 in 16 eyes and better than or equal to 0.3 in 1 eye. Post-operative tamponade was delivered for patients with iatrogenic retinal breaks, including 5 eyes with long-acting gas and 7 eyes with silicone oil. The mean follow-up time was 9.7 months. The visual outcome, rate of retinal reattachment and complications were analyzed. ResultsThe visual acuity improved in 34 eyes (68.0%), unchanged in 12 eyes (24.0%) and decreased in 4 eyes (8.0%). The difference of visual acuity before and after surgery was statistically significant (t=7.087, P<0.01).The total rate of retinal reattachment was 96%, and 84% of eyes achieved anatomic reattachment after single surgery. The rate of retinal reattachment was 89.5% (34/38) for these eyes without iatrogenic retinal breaks, 4/38 eyes without iatrogenic retinal breaks still had retinal detachment in 3 months after surgery and received tamponade of long-acting gas or silicone oil. The rate of retinal reattachment was 66.7% (8/12) for these eyes with iatrogenic retinal breaks and received post-operative tamponade. There were 17 eyes experienced postoperative vitreous hemorrhage, which were treated with anti-vascular endothelial growth factor (VEGF) antibodies or vitreous cavity lavage. There were 9 eyes with transient ocular hypertension, and 4 eyes with neovascular glaucoma (NVG). Among 4 eyes with NVG, 2 of which were controlled through anti-VEGF treatment or laser treatment, and 2 eyes of 2 patients refused to have further treatment. ConclusionSGV is safe and effective treatment for PDR combined with TRD, and intraocular tamponade is not necessary in the absence of iatrogenic retinal break.
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.
ObjectiveTo compare the outcomes of 23G and 25G plus (25G+) vitrectomy in treatment of proliferative diabetic retinopathy (PDR). MethodsThis is a prospective randomized study. Fifty-seven PDR patients (75 eyes) with symptoms requiring vitrectomy were randomly divided into 23G vitrectomy group (30 patients, 39 eyes) and 25G+ vitrectomy group (27 patients, 36 eyes). Visual acuity, intraocular pressures, ophthalmoscopy, B-scan ultrasound was examined before surgery. The follow-up period was 10.0 (23G group) and 8.5 months (25G+ group) respectively. Intraoperative complications, operation time, postoperative visual acuity, intraocular pressure, postoperative complications and postoperative ocular conditions were analyzed. ResultsThe mean surgical times were (53.35±7.42) minutes and (49.16±5.17) minutes in 23G and 25G+ group respectively, and the difference was significant (t=4.37, P < 0.05). Iatrogenic injuries occurred in 11 eyes (28.21%) and 5 (13.89%) eyes in 23G and 25G+ group respectively, and the difference was significant (χ2=4.93, P < 0.05). The postoperative visual acuity of 23G and 25G+ group were improved compared to before surgery (χ2=16.81, 18.29; P < 0.05). At last follow-up, there was 25 eyes and 24 eyes with visual acuity≥0.05 in 23G and 25G+ groups respectively, and the difference was not significant (χ2=0.13, P > 0.05). Hypotony was detected in 7 and 3 eyes at the third postoperative day in 23G and 25G+ group respectively, and the difference was significant (χ2=5.67, P < 0.05). Conclusion25G+ vitrectomy is a safe and effective treatment for PDR with shorter surgery time and fewer surgical complications.