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)
Rhegmatogenous retinal detachment (RRD), the most common type of retinal detachment, is the separation of neurosensory retina from the underlying retinal pigment epithelium. The key to surgical treatment of RRD is to find and seal all retinal breaks while the major surgical procedures include scleral buckle (SB), pars plana vitrectomy (PPV), and a combination of the two (PPV/SB). Different surgical methods have their own advantages and limitations. SB plays a very important role in certain types of RRD, providing a high rate of anatomical reduction and a good prognosis of visual function. Combined PPV is also an important auxiliary means for the treatment of complicated RRD. The rapid development of vitreoretinal surgery has greatly contributed to the trend of RRD surgery from extraocular to intraocular. However, it is worth noting that personalized RRD surgical methods are needed to be provided for different patients in order to minimize the occurrence of complications.
ObjectiveTo observe the clinical characteristics and surgical outcomes in patients with retinal detachment associated with atopic dermatitis (AD-RD). MethodsA retrospective case series. From January 2015 to April 2023, 8 patients (12 eyes) with AD-RD at Zhongshan Ophthalmic Center of Sun Yat-sen University were included. All patients underwent best-corrected visual acuity (BCVA), ultra-wide-field fundus photography, B-mode ultrasound, ultrasound biomicroscopy (UBM), and wide-field optical coherence tomography (OCT). BCVA was examined by standard logarithmic visual acuity chart and was converted into logarithm of the minimum angle of resolution (logMAR) visual acuity for statistical purposes. In the primary surgery, 9 eyes underwent scleral buckling; 1 eye underwent pars plana vitrectomy (PPV) combined with silicone oil tamponade; 1 eye underwent PPV combined with C3F8 tamponade; 1 eye underwent C3F8 tamponade combined with retinal laser photocoagulation. The follow-up time was (29.1±40.9) months. BCVA before and after surgery was compared using paired t test. ResultsAmong the 8 patients, 6 were male and 2 were female. The mean age was (23.38±7.95) years old. Among them, 4 patients had bilateral affliction while the remaining 4 had unilateral involvement. The logMAR BCVA was 0.86±0.86. All 12 eyes were with a history of uveitis. Among 8 eyes with bilateral involvement, 6 of them were misdiagnosed as uveitis with exudative retinal detachment; 11 eyes had anterior uveitis at presentation; 9 eyes had a history of cataract, with 4 eyes having concurrent cataract and 5 eyes with intraocular lens. All affected eyes displayed as focal retinal detachment. UBM revealed ciliary epithelial detachment in 9 eyes, and no definite ciliary epithelial break was found in any case. Retinal breaks were observed in only 2 eyes in the pre-surgery retina examination, while ciliary epithelial holes were discovered in other 10 eyes during surgery. The retina was successfully reattached in 10 eyes after one surgery, including 9 eyes received scleral buckling. During the final follow-up, the logMAR BCVA of the affected eye improved significantly to 0.30±0.25 compared to pre-surgery values (t=2.43, P=0.03). ConclusionsAD-RD is a challenging complication of AD with a high rate of young onset, bilateral involvement, associated with concurrent cataracts, and shallow temporal retinal detachment associated with ciliary epithelial detachment. Scleral buckling is an effective treatment for AD-RD.
Objective To observe the therapeutic effect of scleral buckling procedure on old retinal detachment. Methods The clinical data of 42 patients (46 eyes), including 24 males (27 eyes) and 18 females (19 eyes), with old retinal detachment treated by scleral buckling procedure in our department were retrospectively reviewed. The duration of the disease ranged from 1 month to 2 years. All the patients were with rhegmatogenous retinal detachment and combined with mainly predominantly-subretinal proliferative vitreoretinopathy (PVR) (stage C), including stage C1 of PVR in 16 eyes (34.8%), stage C2 in 19 eyes (41.3%), and stage C3 in 11 eyes (23.9%). Scleral buckling was performed on 13 eyes (28.3%) and cerclage combined buckling on 33 eyes (71.7%). Sterile air was injected into 36 eyes (78.3%) during the operation, and C 3F 8 was introvitreal injected into 7 eyes (15.2%) after the operation. Results The follow-up duration was from 6 months to 1 year (mean 7.3 months). Retina was completely reattached in 31 eyes (67.4%), and was alleviated obviously in 12 eyes (26.1%). The subretinal fluid increased after the operation with un-reattached retina and vitrectomy was performed in 2 eyes. One eye underwent vitrectomy due to the development of PVR. After the first operation, the curative ratio of retinal detachment was 67.4%, and effective ratio (cure and alleviation) was 93.5%. The visual acuity improved in 28 eyes (60.9%), kept no change in 11 eyes (23.9%), and decreased in 7 eyes (15.2%). Conclusion Reattachment of retina and improvement of visual acuity can be achieved in some degree in some patients with old retinal detachment who undergo simple scleral buckling procedure without vitrectomy. (Chin J Ocul Fundus Dis, 2006, 22: 35-38)
Objective To evaluate the curative effects of vitreoctomy or simple scleral buckling on retinal multiple-tear detachment associated with tracted anterior flap. Methods The clinical data of 89 eyes in 89 patients with retinal multiple-tear detachment associated with tracted anterior flap diagnosed in Jan, 1999-Jan, 2002 were retrospectively analyzed. In the 89 patients, 41 had undergone vitreoctomy and 48 had undergone scleral buckling without vitrectomy. In the duration of 2- to 36-month follow-up with the mean of (11.02±7.90) months, visual acuity, retinal reattached rate and postoperative complication were examined and the results in the 2 groups were compared. Results In 41 eyes underwent vitreocotmy, successful reattachment was found in 38 (92.7% ); visual acuity increased in 33 (80.5%), didn′t change in 6 (14.6%), and decreased in 2 (4.9%); leakage of flocculent membrane in anterior chamber occured was found in 2 (4.9%), complicated cataract in 3 (7.3%),and severe proliferative vitreoretinopathy (PVR) in 3 (7.3%). In 48 eyes underwent scleral buckling, 41 (85.4%) had success reattachment; visual acuity increased in 36 (75.0%), didn′t change in 4 (8.3%), and decreased in 8 (16.7%); leakage of flocculent membrane in anterior chamber was found in 6 (12.5%), complicated cataract in 9 (18.8 %), and severe PVR in 8 (16.7%). Conclusion There isn′t any difference of the success rate of the surgery between vitrectomy and scleral buckling for retinal multiple-tear detachment associated with tracted anterior flap.The better visual acuity and less complications are found in the vitrectomy gro up than those in the scleral buckling group. (Chin J Ocul Fundus Dis,2004,20:209-211)
ObjectiveTo observe the therapeutic effect of segmental scleral buckling and vitrectomy with/without lensectomy on the retinopathy of prematurity (ROP) stage 4a, 4b and 5. MethodsOne hundred and thirty-four ROP infants (181 eyes) diagnosed as stage 4a, 4b and 5, and performed with segmental scleral buckling or vitreous with/without lensectomy were retrospectively analyzed. The operated 4a-, 4b- and 5- stage eyes were 40, 51 and 90 eyes. The operational method depended on the location and severity of fibrovascular membrane. Of 181 eyes, segmental scleral buckling was referred for 37 eyes which include 23 eyes with 4a stage and 14 eyes with 4b stage; vitrectomy was referred for 50 eyes which include 14 eyes with 4a stage, 29 eyes with 4b stage and 7 eyes with 5 stage; vitrectomy with lensectomy was referred for 94 eyes which include 3 eyes with 4a stage, 8 eyes with 4b stage and 83 eyes with 5 stage. The effect was classified as success, improved and failure. Failure includes lost eye. Follow-up for 4a, 4b and 5 stage patients are 34, 31 and 29 months respectively. ResultsSegmental scleral buckling was referred for 37 eyes, success in 23 eyes (62.16%), improved in 11 eyes (29.73%), failure in 3 eyes (8.11%). Vitrectomy was referred for 50 eyes, and success in 20 eyes (40.00%), improved in 22 eyes (44.00%), and failure in 8 eyes (16.00%). In the total of 94 eyes underwent vitrectomy with lensectomy, 20 eyes was success (21.28%), improved in 17 eyes (18.08%), failure in 57 eyes (60.64%). In 40 stage 4a eyes, 33 successes (82.50%), 6 improved (15.00%) and 1 failure (2.50%). In 51 stage 4b eyes, 11 successes (21.57%), 30 improved (58.82%) and 10 failures (19.61%). For 90 stage 5 eyes, 14 successes (17.50%), 19 improved (23.75%) and 57 failures (71.25%). The therapeutic effect of segmental scleral buckling for stage 4a was better than that for stage 5 (χ2=6.707,P=0.035). The difference of therapeutic effect of vitrectomy for different stage was significant (χ2=21.010,P=0.000); stage 4a was the best; stage 4b was the second, stage 5 was the worst. The therapeutic effect of vitrectomy with lensectomy for stage 5 was worse than that for stage 4a and 4b (χ2=16.066,P=0.003). ConclusionThe surgery patterns of ROP was determined based on the disease severity, the surgery effects of stage 4a and 4b were better than stage 5, which had nothing to do with the surgical procedures.
Objective To evaluate the causes of the metamorphopsia in patients with reattached retina after scleral buckling surgery. Methods Amsler grid test, ophthalmoscopic examination, fundus fluores cein angiography (FFA) and optical coherence tomography (OCT) were performed on 79 patients (79 eyes) with reattached retina at the 2nd week, 2nd, 6th month and 1st year after scleral buckling operation. Results Two weeks after the operation, 51 patients (51 eyes, 64.56%) complained of metamorphopsia,and 44 patients (44 eyes, including 35 with and 9 without metamorphopsia) were examined by OCT and FFA. In patients with metamorphopsia, the results of OCT in 31 (88.57%) revealed abnormal macula with seven kinds consisting mostly of stratum neuroepithelium detachment (74.29%), while of FFA in 6 patients showed abnormal macular (17.14%) including 4 with neuroepithelium detachment (66.67%). In patients without metamorphopsia, abnormal macula could be found in 2 by OCT while nothing special was seen in FFA. Most abnormal macula in patients followed-up 2 months, 6 months and 1 year postoperatively meliorated as time went by, with alleviative or disappeared metamorphopsia; while the patients with persistently existing macular membrane had aggravating metamorphopsia. Conclusions Abnormal macula is the main reason for metamorphopsia after scleral buckling surgery. Neuroepithelium detachment and macular membrane are the main causes of metamorphopsia at the early and terminal stage after operation.(Chin J Ocul Fundus Dis,2004,20:94-97)
Surgical treatments for macular hole and rhegmatogenous retinal detachment are the most common and principle procedures for vitreoretinal specialists. The surgical success rate reached 95.0% and above for vitrectomy, macular surgeries with ILM peeling, or local/total scleral buckling. However, the postoperative visual function recovery is nowhere near good enough. Specialists must pay more attention to the visual function recovery of those patients. Postoperative macular anatomical and functional rehabilitation for macular hole and scleral buckling procedures need a long period of time. At present, the postoperative visual acuity for macular hole depends on many factors, such as macular hole closure conditions, surgical procedures, microsurgical invasive ways, skills of membrane peeling, usage of dye staining, and tamponade material choice. It also depends on residual subretinal fluid under macular area for patients received scleral buckling. It is important for us to investigate these factors affecting recovery of macular anatomy and function, and thus develop some drugs to improve the macular function recovery.
ObjectiveTo observe the effect of segmental scleral buckling on the treatment of rhegmatogenous retinal detachment (RRD) with multiple retinal breaks. MethodsThis is a retrospective study. Seventeen patients (17 eyes) suffering from RRD with multiple retinal breaks were enrolled in this study. There were 8 eyes with the retinal breaks located in different quadrants and 9 eyes located in different latitudes within the same quadrant. Three were 3 eyes with 2 retinal breaks, 5 eyes with 3 retinal breaks, 9 eyes with more than 3 retinal breaks. The forms of retinal breaks included U-shaped break (4 eyes), tear break (1 eye), degenerative break (3 eyes) or U-shaped breaks combined with degenerative breaks (7 eyes), U-shaped breaks combined with tear breaks (1 eye), tear breaks combined with degenerative breaks (1 eye). The best corrected vision acuity (BCVA) was count finger to 0.8. The segmental scleral buckling was performed in all patients with the reasonable combination of silicon sponges and tires. The mean follow-up was 9.3 months (from 6 to 12 months). The BCVA, retinal attachment and complications were observed in the follow-up. ResultsFifteen eyes were reattached without recurrent of retinal detachment (88.2%). One eye with recurrent retinal detachment after 3 months due to proliferative vitreoretinopathy, and was partly reattached after vitrectomy combined with silicon oil tamponade. Retina remained detached in 2 eyes (11.8%), including 1 eye reattached after combined with gas tamponade, and 1 eye with vitrectomy. Sixteen eyes were completely reattached (94.1%), including 14 eyes were underwent only 1 operation (82.4%). The BCVA were improved more than 2 lines in 9 eyes (52.9%), 1 to 2 lines in 5 eyes (29.4%), and only 3 eyes (17.7%) without improvement. All patients have no serious complications during the operations. ConclusionFor certain patients suffering from RRD with multiple retinal breaks, a reasonable design of segmental scleral buckling can effectively increase the success rate of retinal reattachment (82.4%).
Objective To verify the significance of the morphological changes of the macula and its relationship to visual function by using optical coherence tomography (OCT) after scleral buckling procdure. Methods The macula of retinae of 68 patients (70 eyes) with reattached retinae after scleral buckling operation for retinal detachment were examined by OCT to scan the macula through fovea vertically and horizontally. Results Among the 70 eyes, 22 eyes revealed normal macula with thickness of neurosensory retina meant (146.47±20.59)μm. In the other 48 eyes (68.60%) with abnormal macula, 19 eyes showed extensive subretinal interspace, 9 eyes showed local subretinal interspace, 8 eyes showed macula edema, 4 eyes showed thin macula, 4 eyes showed subretinal proliferation and 4 eye showed epiretinal membrane over macula. In the normal macular structure group under the OCT, the visual acuity (VA) of the operated eyes was more than 0.3 in 6 eyes 2 weeks after operation and in 14 eyes 3 mons after operation. In the macula edema group, the VA was more than 0.3 in 1 eye 2 weeks after opoeration and 2 eyes 3 mons after operation. In the subretinal interspace group, the VA was more than 0.3 in 5 eyes 2 weeks after operation and in 23 eyes 3 mons after operation. The proportions of the numbers of operated eyes with the VA more than 0.3 after 3 mons of the operation in macular normal group subretinal interspace group and other macular disease group were significantly different (χ2=18.91, P<0.01). Conclusion OCT can precisely detect the structural changes of macula after retinal reattachment and assess visual function after surgery of retinal detachment. (Chin J Ocul Fundus Dis, 2002, 18: 266-268)