Objective To investigate the technique of drain-air, cryotherapy, and explant (DACE) of operation for superior bullous retinal detachment (SBRD).Methods In the DACE procedure, drainage and air or balanced salt soultion (BSS) injection were carried out first, with the intention of flattening the retina before localization of retinal hole, cryotherapy out of choroid and scleral buckling.Results In 42 SBRD eyes, 40 underwent the operation with DACE technique. In 23 eyes injected with BSS instead of air, 5 should be injected air due to no avail for flattening deeply retinal detachment, and 1 needed scleral buckling due to new retinal tear after DACE procedure two weeks. During the follow-up, all retinae attached. Conclusions The DACE technique is very useful and effective in upper ballooned retinal detachment due to single hole or breaks localized in small area between the 10 and 2 o′clock meridiant. BSS instead of air injection can eliminate the difficulty of observation of retinal breaks from the presence of air in some cases. (Chin J Ocul Fundus Dis,2003,19:11-13)
ObjectiveTo create a new scleral buckling surgery using noncontact wide-angle viewing system and 23-gauge intraocular illumination for the treatment of rhegmatogenous retinal detachment (RRD), and to evaluate its safety and effectiveness. MethodsA scleral buckling surgery using noncontact wide-angle viewing system and 23-gauge intraocular illumination was performed in 6 eyes of 6 patients with RRD, including 2 males and 4 females. The mean age was 51 years old with a range from 23 to 66 years old. Proliferative vitreoretinopathy (PVR) were diagnosed of grade B in all 6 eyes. Duration of retinal detachments until surgery was 5.8 days with a range from 2 to 13 days. The mean preoperative intraocular pressure (IOP) was 12 mmHg with a range from 9 to 15 mmHg (1 mmHg=0.133 kPa). A 23-gauge optic fiber was used to provide an intraocular illumination. Fully examination of the ocular fundus and cryoretinopexy of retinal breaks was performed under a noncontact wide-angle viewing system. Subretinal fluid drainage through the sclerotomy and buckling procedure were performed under the operating microscope. Intravitreal injection of sterile air bubble was performed in 4 eyes. Antibiotic eye drops was applied in all eyes postoperatively, and all the eyes were followed up for at least 6 months. ResultsRetinal reattachment was achieved in all eyes, and the conjunctiva healed well. The best corrected visual acuity (BCVA) increased in all eyes. The mean postoperative IOP was 15 mmHg with a range from 12 to 19 mmHg. No complications were found intra and postoperatively. ConclusionsThis new scleral buckling surgery using noncontact wide-angle viewing system and 23-gauge intraocular illumination for RRD is safe and effective. Advantages such as higher successful rate, less complication, shorter operating time, and less discomfort of patients were showed comparing with the previous scleral buckling surgery using indirect ophthalmoscope.
Objective To analyze the clinical risk factors of the occurrence of severe proliferative vitreoretinopathy (PVR) after scleral reattachment surgery. Methods A total of 4031 eyes of 4031 consecutive patients with reghmatogenous retinal detachment (RRD) and PVR (grade C1 or less), on whom the scleral buckling was performed, were retrospectively studied. Twenty-two clinical charac teristics of the patients (including the ocular tension, condition of lens and vitreous, characte ristics of retinal detachment, whether or not with choroidal detachment, et al) were recorded.In 4031 patients, 2660 were followed up for more than 3 months, and 72 (in PVR group) of the 2660 patients underwent the second surgery (vitre oretinal surgery) because of the occurrence of postoperative seve re PVR; in the other 2588 patients, 72 (72 eyes) with retinal reattachment for more than 3 months were selected randomly as the control. The data were analyzed in SPSS (10.0) software. Results Logistic regression analysis revealed that the significant risk factors for PVR were incomplete posterior vitreous detachment ( P<0.001), intraocular pressure lt;7 mm Hg(1 mm Hg=0.133 kPa, P<0.002), and large retinal tear (gt;2 DD,P<0.005). Conclusion Incomplete posterior vitreous detachment, intraocular pressure lt;7 mm Hg and large retinal tear of the patient with RRD may be the major risk factors for PVR. (Chin J Ocul Fundus Dis,2003,19:141-143)
Objective To detect the prognosis of visual acuity, operation timing and medical management of peri-operation in patients who had undergone pars plana vitrectomy for uveitis associated with tractive retinal detachment. Methods The clinical data of 15 eyes (13 patients) with tractive retinal detachment associated with uveitis who had undergone pars plana vitrectomy from our Department were retrospectively analyzed. The patients, 6 males and 7 females, aged from 19.0 to 70.0 years, with the average of 42.8 years. The duration of the disease history was 3-15 years with the average of 7 years. In the 15 affected eyes, the visual acuity was le;hand moving before the eye in 7 eyes, 0.01-0.1 in 7, and 0.2 in 1. Vitreous opacity, proliferative vitreoretinopathy, and tractive retinal detachment were found in all of the affected eyes. All the patients had been treated with oral and topical steroid. In addition, 3 of them received oral azathioprine meanwhile. Eye drops of 1% prednisolone acetate, 1% atropine, and tropicamide were used. The inactive duration of inflammation of uveitis was 0.5-4.5 months with the average of 2.0 months. After the inflammation became inactive, pars plana vitrectomy with membrane peeling, intraocular photocoagulati,filling with C3F8 or silicon oil were performed, including 7 eyes underwent lens excision. Glucocorticoid was given to the patients orally before the operation, and systemic and ocular medication of glucocorticoid were given continuously after the operation, in whom 3 were treated with oral azathioprine meanwhile. The postoperative follow-up duration ranged from 3 to 146 months with the average of 26 months. Results No recrudescence of uveitis, inflammation of ocular anterior segment, or vitreous inflammation was fund in the 15 eyes. The retina reattached successfully and the visual acuity improvement in 13 eyes (86.7%), inluding 2 eyes achieved the visual acuity increased from 0.2 to 0.8 and 0.03 to 0.6, 1 eye had unchanged visual acuity (6.7%),and 1 eye decreased from hand moving to light perception (6.7%). In the follow-up duration, 4 eyes had cataract formation and underwent cataract extraction and intraocular lens (IOL) implantation, and the visual acuity improved after the operation. Iris neovascularization and secondary hyphema were found in 1 eye. Organization membrane on the surface of rtina and tractive retinal detachment recurred in another eye. Conclusion Pars plana vitrectomy is effective on uveitis associated with tractive retinal detachment. Operation timing and perioperational reasonable glucocorticoid application are essential for surgery success. (Chin J Ocul Fundus Dis, 2007, 23: 108-111)
Objective To evaluate the therapeutic effect of vitrectomy on bullous retinal detachment. Methods The clinical data of 7 patients (9 eyes) with bullous retinal detachment who had undergone vitrectomy due to useless photocoagulation were retrospectively analyzed. Bullous retinal detachment of the patients had been diagnosed by examination of slit-lamp microscope, three-mirror gonioscope, indirect ophthalmoscope, B-mode ultrasound, and fundus fluorescein angiography. All of the affected eyes underwent vitrectomy with closed triple incisions through the pars plana after release of subretinal liquid under the local anaesthesia. The cortex of vitreous body was taken out, and exsuction of subretinal liquid was carried out via retinal incision. Photocoagulation closed the incision and the effusion area of the retina, and intraocular filling matter was injected after exchange of air and liquid. The follow-up period lasted 3 months to 8 years with the average period of 47 months. Results Reattached retina was found in all of the affected eyes during the follow-up period. One eye underwent a second vitrectomy due to local retinal redetachment caused by a new retinal hole formed by the pull of pre-retinal proliferative membrane and a silicon vesicle entered the subretinal space, but the retina reattached after 1-year follow-up examination. The visual acuity impr oved in different degree after the operation in 8 eyes, but remained unchanged in 1 eye. Conclusion Vitrectomy for terminal bullous retinal detachment may promote the reattachment of retina safely and effectively, and save partial visual acuity of the affected eyes. (Chin J Ocul Fundus Dis, 2006, 22:299-301)
Objective To evaluate the effectiveness and safety of 25G illumination aided scleral buckling surgery for treatment of rhegmatogenous retinal detachment (RRD). Methods This is a retrospective case control study. Fifty-seven RRD patients (57 eyes) were enrolled in this study. There were 35 males (35 eyes) and 22 females (22 eyes). The patients were randomly divided into ophthalmoscope group (29 patients, 29 eyes) and illumination group (28 patients, 28 eyes). There was no differences in the data of gender, age, onset time, logarithm of the minimum angle of resolution (logMAR) best corrected visual acuity(BCVA) and information of retinal tears between the two groups (P>0.050). The patients in the ophthalmoscope group received operation of conventional scleral buckling with binocular indirect ophthalmoscope. The patients in the illumination group received scleral buckling surgery with the aid of intraocular illumination and noncontact wide-angle viewing system. The follow-up was ranged from 6 to 12 months. The BCVA, intraocular pressure, fundus examination and complications were observed and recorded. Results The difference of operation time between two groups was significant (t=2.124, P=0.031). In the ophthalmoscope group, 26 eyes (89.7%) achieved retinal reattachment, 3 eyes (10.3%) failed in retinal reattachment. In the illumination group, 26 eyes (92.8%) achieved retinal reattachment, 2 eyes (7.2%) failed in retinal reattachment. There was no difference of retinal reattachment rate (P=1.000). Five eyes failed in retinal reattachment, 3 eyes received sclera buckling surgery, 2 eyes received vitrectomy with silicone oil tamponade. The final reattachment ratios were both 100%. BCVA increased in both groups compared with pre-surgery BCVA (t=4.529, 5.108; P<0.001). The difference of BCVA between two groups was not significant (t=0.559, P=0.458). There was no significant difference of intraocular pressure and complications before and after surgery in both two groups (t=−1.386, −1.437; P=0.163, 0.149). The difference of intraocular pressure between two groups was not significant (t=0.277, P=0.730). Subretinal hemorrhage occurred in 1 eye in the ophthalmoscope group. There was no iatrogenic retinal break, choroidal hemorrhage and endophthalmitis in the two groups. Conclusion 25G intraocular illumination aided buckling surgery for treatment of RRD is fast, safe and effective.
Purpose To evaluate the safety and efficacy of draining subretinal fluid with transchoroidal probing by using the traditional needling and diode endolaser probing. Methods The investigation included 70 consecutive patients(74 eyes) with rhegmatogenous retinal detachment undergoing scleral buckling surgery.Seventy cases were randomly divided into 2 groups,group A 34 cases(36 eyes)with the needle drainage procedure and group B 36 cases(38 eyes) with the diode probe respectively.The safety and efficacy were compared in between the 2 groups. Results No operative failure was found in these 2 groups.In group A,subretinal hemorrhage occurred in 3 eyes,and retinal incarceration,retinal preforation in one eye. No significant complication occurred in group B. Conclusion Diode laser drainage has the advantage in that it may reduce the incidence of operative complication with drainage.This technique might be used in any case requiring drainage of subretinal fluid especially of rhegmat ogenous retinal detachment in cases of shallow retinal detachment. (Chin J Ocul Fundus Dis,1998,14:202-203)
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 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 evaluate the changes in foveal avascular zone (FAZ) size and foveal microstructures in patients with rhegmatogenous retinal detachment (RRD) and to analyze the correlation between FAZ size, foveal microstructure changes and visual outcomes.MethodsA retrospective study. From January 2017 to January 2019, 79 RRD patients (79 eyes) diagnosed in Department of Ophthalmology in Baoding First Central Hospital were included in the study. The patients were divided into macula-off group (51 eyes), macula-on group (28 eyes). The unaffected fellow eyes were used as a control group. The retinas were reattachment in all eyes after first standard 23G PPV combined with silicone oil filling. Before and 3 months after surgery, all patients underwent a comprehensive ophthalmologic examination, including the measurement of BCVA and OCT angiography (OCTA) examination. The BCVA examination was performed using the international standard visual acuity chart, which was converted into logMAR visual acuity. The FAZ areas were evaluated with OCTA in the superficial capillary plexus layers by using 3 mm×3 mm images of the macular. The following postoperative foveal microstructures were evaluated:epiretinal membranes, macular edema, subretinal fluids, integrity of ellipsoidal zone and external limiting membrane. Pearson correlation analysis was used to analyze the correlation between FAZ area and BCVA. The correlation between macular microstructures and BCVA was analyzed by Spearman correlation analysis.ResultsAt 3 months after the removal of silicone oil, the FAZ area in the macula-off group, macula-on group and the control group were 0.447±0.041, 0.409±0.034, 0.335±0.027 mm2, respectively. Compared with the control group, the FAZ area in the macula-off group and macula-on group were enlarged, the difference was statistically significant (F=184.148, P<0.05). The logMAR BCVA in the macula-off group and macula-on group were 0.800±0.180 and 0.386±0.160, respectively. There was significant difference in ellipsoidal zone rupture between the two groups (χ2=7.577, P=0.006). The results of correlation analysis showed that the area of FAZ and the incidence of ellipsoidal zone fracture after surgery were positively correlated with BCVA after surgery (r=0.329, 0.290; P=0.003, 0.010).ConclusionsThe FAZ area of RRD is enlarged after surgery. FAZ area and ellipsoid zone fracture are positively correlated with BCVA after surgery.