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.
Objective To investigate the refractive changes of ocular measurable factors due to scleral buckling surgery. Methods A total of 86 eyes of successful rhegmatogenous retinal detachment with a higher encircling scleral buckle underwent A-scan and keratometer examination before surgery as well as l week,4 and 12 weeks after surgery.The refractive factors included the depth of anterior chamber,thickness of lens,axial length of eye,corneal curvature and refraction of eye were detected pre- and post-operatively. Results Compared with preoperation,the depth of anterior chamber was decreased significantly at the lst,4th and 12th postoperative week(P<0.05),while no significant change of the axial length of eye was observed.The thickness of lens was increased significantly and the refractive error was myopic shifted at the lst and 4th week after operation(P<0.05),but no significant change was observed at the 12th postoperative week.Statistically significant difference was also observed in corneal curvature of central axis in the local bucklele;1 quadrant with encircling group between preoperation and the lst and 4th postoperative week. Conclusions With higher encircling scleral buckle,the refractive change after buckling surgery may be caused primarily by the shallowing of anterior chamber and thickening of lens. (Chin J Ocul Fundus Dis, 1999, 15: 227-229)
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 measure the changes of eye shape and axial length of the eyeball before and after removing the scleral encircling buckles.Methods This is a prospective and controlled study. Twenty eyes (20 patients) with rhegmatogenous retinal detachment and the fellow eyes were enrolled in this study. All patients underwent scleral encircling buckling, and the buckles were removed 2.0-3.5 years after the surgery. The eye shape and axial length of both eyes were measured by three-dimensional computed tomography (3D-CT) before and one,three,six months after the removing surgery. The axial length was also measured by intraocular lens (IOL) Master.Results 3D-CT showed that buckled eyeball depressed at the equator, resulting in a gourd-shaped eyeball. One month after removing the encircling buckle the depression disappeared. By 3D-CT scanning, the axial lengths of buckled eyes were (27.65plusmn;1.22), (27.3plusmn;1.56), (27.29plusmn;1.46) and (27.12plusmn;1.49) mm before and one, three, six months after the removing surgery respectively. The difference between before and after removing surgery was not statistically significant (t=2.89,P=0.723). By IOLMaster, the axial length of operated eyes were (28.32plusmn;1.94), (28.17plusmn;1.87), (28.21plusmn;1.94), (28.25plusmn;1.93) mm respectively. The difference between before and after removing the encircling band was not statistically significant (t=3.304, P=0.93). There was no significant difference in these two measuring modes (t=3.705,P=0.847).Conclusions Encircling buckling can cause eyeball indentation, removing the encircling band can rescue the indentation. There are no changes in the axial length before and after removing the encircling buckles.
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)
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)
Scleral buckling surgery is a main surgical method for rhegmatogenous retinal detachment, and it is the basic skill of retinal surgeons. As a kind of classic treatment, retinal surgeons must recognize and understand the essence and connotation of scleral buckling surgery, master and apply skillfully, improve the success rate of rhegmatogenous retinal detachment, and use the minimum amount of surgical combination to achieve anatomical retinal reattachment and restore visual function as much as possible.
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 occurrence and evolution of persistent submacular fluid (SMF) after scleral buckling surgery (SB) in rhegmatogenous retinal detachment, and then to study the related factors of persistent SMF and the effect of persistent SMF on visual outcome. MethodsNinety eyes of 89 patients with rhegmatogenous retinal detachment which had been performed SB were included in this study. Best corrected visual acuity (BCVA), intraocular pressure, slit-lamp microscopy, three mirror contact lens, indirect ophthalmoscopy and B-scan ultrasonography were measured for all patients. There were 21 eyes with atrophic holes while 42 eyes with horse-shoe tears, 22 eyes with old retinal detachment while 68 new suffered eyes. Thirty-two eyes underwent scleral encircling surgery (SE) and 58 eyes underwent segmental scleral buckling surgery (SSB). The patients were divided into SMF group and non-SMF (NSMF) group according to the results of optical coherence tomography (OCT) at 1 month postoperatively. Thorough ophthalmologic examinations were performd at 1, 3, 6 and 12 months after surgery to the patients, further observations were continued to carry out unless the abnormality had resolved for at least 6 months. ResultsPatients who underwent SE (20 eyes, 62.5%) had a higher incidence of persistent SMF at 1 month after surgery than those who underwent SSB (23 eyes, 39.7%), the difference was significant (χ2=5.024, P < 0.05). Persistent SMF was more frequent in eyes with atrophic holes (66.7%) than that with horseshoe tears (38.1%), the difference was significant (χ2=4.582, P < 0.05). Persistent SMF was found in 72.7% old retinal detachment eyes and in 39.7% new suffered eyes, showed a striking differences (χ2=7.264, P < 0.01). There was no significant difference in BCVA among SE and SSB groups at every time point (t=0.659, 0.699, 1.108, 1.037, 1.902; P > 0.05). The SMF group have a similar BCVA with NSMF group 1 and 3 months after surgery (t=1.812, 1.957; P > 0.05), whereas the SMF group showed worse BCVA than NSMF group from since 6 months after surgery (t=2.324, 2.147, 2.184; P < 0.05). ConclusionsPersistent SMF is more frequent after SE than SSB, the type of retinal breaks and old retinal detachment may be the potential influencing factors. Persistent SMF after SB may affect the final visual outcome.
Objective To observe the hemodynamic changes in the retina and choroid after scleral buckling surgery in eyes with rhegmatogenous retinal detachment (RRD). MethodsA prospective clinical observational study. A total of 25 eyes of 25 patients with RRD who underwent scleral buckling surgery in Tianjin Eye Hospital from February to April 2024 were included in the study. Among them, 10 were male and 15 were female. Age was 17-68 years old. All cases were monocular. The surgical eye and the contralateral healthy eye were divided into the affected eye group and the contralateral healthy eye group respectively. Best corrected visual acuity (BCVA), scanning source optical coherence tomography angiography (SS-OCTA), and axial length (AL) measurements were performed 3 months after surgery. SS-OCTA examination of macular area was performed by VG200 of Visual Microimaging (Henan) Technology Co., LTD. Scanning range 21 mm×26 mm. According to the partitioning method of the early treatment group of glycosuria retinopathy, the retina within 21 mm of the macular fovea was divided into concentric circles with the macular fovea as the center and diameters of 1-3, 3-6, 6-12, 12-21 mm, respectively. The built-in software of the device was used to record the central area (12 mm×12 mm in the fovea of the macula) and the peripheral area (12-21 mm range) retinal superficial capillary plexus (SCP), deep capillary plexus (DCP), radial peripapillary capillaries (RPC) blood density and choroidal vascular index (CVI), choroidal vascular volume (CVV), and 1-3, 3-6, 6-12, 12-21 mm above concentric circles (S), nasal side (N), temporal side (T), and lower side (I) SCP, DCP, and RPC blood flow density. Quantitative data between the two groups were compared by independent sample t test or Wilcoxon signed rank test. The correlation between retinal and choroid blood flow parameters and postoperative BCVA was analyzed by Spearman correlation analysis. ResultsCompared with the opposite healthy eye group, SCP blood density in the central area (Z=−4.372), DCP blood density in the central area (Z=−2.829), and CVI in the peripheral area (Z=−2.138) were decreased in the affected eye group, and the differences were statistically significant (P<0.05). SCP: in the affected eye group, the blood flow density in T3-6 mm, T6-12 mm, N6-12 mm and T12-21 mm regions decreased, while the blood flow density in I6-12 mm regions increased, with statistical significance (P<0.05). DCP: blood flow density in S6-12 mm, I6-12 mm, S12-21 mm and I12-21 mm regions decreased significantly, and the differences were statistically significant (P<0.05). RPC: blood flow density decreased significantly in T6-12 mm and I12-21 mm, and the differences were statistically significant (P<0.05). CVI: T6-12 mm, S12-21 mm, T12-21 mm, I12-21 mm significantly decreased, and T1-3 mm, S12-21 mm significantly increased, the differences were statistically significant (P<0.05). Correlation analysis showed that AL growth was positively correlated with CVV in central region (r=0.408, P=0.040) . The number of pad pressure was negatively correlated with the blood density of central DCP (r=−0.422, P=0.030). ConclusionsAfter scleral buckling operation, the blood flow density and choroidal blood flow parameters in RRD affected eyes are lower than those in contralateral healthy eyes in some areas. The increase of AL is positively correlated with CVV in the central region, and the wider the range of pad pressure, the worse the recovery of DCP blood density.