ObjectiveTo analyze the reasons for the failure of scleral buckling (SB) in the treatment of rhegmatogenous retinal detachment, and observe the efficacy and safety of re-buckling.MethodsThis was a retrospective non-comparative clinical research. From July 2014 to June 2020, patients with first-time SB failure who visited the Beijing Tongren Hospital were included in this study. There were 42 patients, including 30 males and 12 females, with the average age of 29.40±16.13 years, and they were all monocular. The retinal detachment range<1, 1-2 and>2 quadrants were 9, 22 and 11 eyes, respectively. The macula was involved in 38 eyes. The average logarithm of the minimum angle of resolution (logMAR) best corrected visual acuity (BCVA) was 0.99±0.57. Forty eyes and 2 eyes were performed 1 and 2 SB, and all the retina were not reattached. All patients were under general anesthesia, according to the conditions during the operation, re-freeze and located the holes under indirect ophthalmoscope. And selected the new external pressure material or retained the old one in combination with the other operations to reattaced the retina. The average follow-up time was 31.93±18.97 months. The reasons for the failure of the first surgery based on the records of this surgery were analyzed. The visual acuity changes, the rate of retinal reattachment and the occurrence of complications were observed. The visual changes were compared by paired t test.ResultsThe top three reasons for the failure were: 16 case of the displacement of the compression spine (38.10%); 9 cases of missing the retinal holes and 9 case of improper selection of compression substances (account for 21.43%, respectively); 6 cases of insufficient height of compression spine (14.29%). All of retina were reattached (100%, 42/42). The average logMAR BCVA was 0.52±0.40. The difference of logMAR BCVA between before and after surgery was statistically significant (t=6.106, P=0.000). There were a slight increase in intraocular pressure in 8 eyes, the average intraocular pressure was 25.00±2.61 mmHg (1 mmHg=0.133 kPa). No serious complications occurred after surgery.ConclusionsThe position deviation of the compression spine, the missed hole during the operation, the improper selection of external compression material, and the insufficient height of the compression spine are the main reasons for the failure of SB. After adjusting the reasons for the failure, there is still a higher rate of retinal reattachment.
ObjectiveTo analyze the clinical efficacy of scleral buckling surgery for rhegmatogenous retinal detachment (RRD) of 376 patients.MethodsA retrospective analysis was performed about 376 patients (391 eyes) who underwent scleral buckling surgery in Chengdu Aidi Eye Hospital from January 2018 to December 2019. There were 214 males (224 eyes) and 162 females (167 eyes). There were 15 binocular cases and 361 monocular cases. The average age was 37.16±16.36 years. The average course of disease was 3 months. There were 1 to more than 10 retina holes for all patients. Retinal breaks occur in all quadrants and at ora serrata. The preoperative average BCVA was 0.27 and the postoperative average BCVA was 0.41. Retinal detachment ranges was observed in 268 eyes in 1 quadrant, 97 eyes in 2-3 quadrants, 26 eyes in total, and 231 eyes with macular involvement. There were 376 eyes treated with scleral buckling, 9 eyes treated with scleral buckling combined with scleral encircling, 6 eyes treated with scleral encircling. The average follow-up time was 5 months. Postoperative follow-up was conducted to observe retinal reduction, BCVA, complications and patient compliance.ResultsAfter the first operation, retinal reattachmnents were successfully achieved in 375 eyes (95.91%); 16 eyes (4.09%) failed in retinal reattachmnents. Eight eyes were treated with scleral buckling again, 5 eyes were treated with vitrectomy silicone oil filling, and 3 eyes were treated with air injection. After the second operation, retinal reattachmnents were ultimately achieved in 16 eyes (100.00%). The average BCVA after operation was 0.15. Postoperative intraocular pressure increased by 45 eyes (11.51%). The intraocular pressure increased from the next day to 3 days after operation. The intraocular pressure was completely controlled 1-3 days after the treatment of topical medication and 20% mannitol. Vitreous and subretinal hemorrhage in 1 eye caused by drainage of the subscleral liquid. There was no cases withpostoperative infection.ConclusionThe retinal reattachment rate is 95.91% in 376 patients with RRD treated by scleral buckling surgery, and the visual acuity has significantly improved.
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.
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)
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.
ObjectiveTo observe the effect of scleral buckling surgery (SB) in the treatment of rhegmatogenous retinal detachment (RRD) with subretinal hyperplasia (SRP). MethodsA retrospective case study. From January 2016 to December 2018, 31 patients with old RRD with SRP who were treated with SB in Department of Ophthalmology, Central Theater Command General Hospital were included in the study. There were 18 males with 20 eyes and 13 females with 15 eyes. Age was (26.5±8.7) years. The course of disease was (12.6±10.3) months. The best corrected visual acuity (BCVA) test was performed using the international standard visual acuity chart, which was converted to logarithm of the minimum angle of resolution (logMAR) visual acuity at the time of recording. Retinal detachment ranges ≤2, >2-<3, ≥3 quadrants were 10 (28.6%, 10/35), 20 (57.1%, 20/35), and 5 (14.3%, 5/35) eyes, respectively. All affected eyes were treated with SB. Among them, 22 eyes (63.0%, 22/35) underwent local Scleral buckling, 11 eyes (31.4%, 11/35) underwent combined encircling buckle, and 2 eyes (5.7%, 2/35) underwent encircling buckle alone. Subretinal fluid drainage was performed in 33 eyes (94.3%, 33/35). The mean follow-up time was 18.2 months. Relevant examinations were performed with the same equipment and methods before operation to observe BCVA and retinal reattachment. Paired sample t test was used to compare logMAR BCVA before and after operation. ResultsAt the last follow-up, retinal reattachment occurred in 32 eyes (91.4%, 32/35) of 35 eyes. The retina did not reset in 3 eyes (8.6%, 3/35). logMAR BCVA of affected eye was 0.67±0.29 (finger counting-1.0). The difference of logMAR BCVA before and after operation was statistically significant (t=5.133, P=0.036). In 35 eyes, visual acuity improved, stabilized and decreased in 19 (54.3%, 19/35), 13 (37.1%, 13/35) and 3 (8.6%, 3/35) eyes, respectively. Ten months after surgery, the silicone tape was exposed and infected 1 eye. After the silicone tape was removed, the infection subsided and the retina was in place. There were no intraocular hemorrhage, vitreoretinal impaction, endophthalmitis and other complications during and after operation. ConclusionSB treatment of RRD with SRP can achieve good retinal reposition and improve visual acuity to some extent.
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.
ObjectiveTo observe the changes of retinal morphology and function of macular-off rhegmatogenous retinal detachment (RRD) after scleral bulking. MethodsIn this prospective study, 42 eyes of 41 patients who underwent scleral bulking were enrolled. There were 26 males (27 eyes) and 15 females (15 eyes), with an average age of (33.78±11.21) years. Best corrected visual acuity (BCVA), intraocular pressure, indirect ophthalmoscope, visual fields, optical coherence tomography (OCT) and B scan of ocular ultrasound were measured for all patients. The average BCVA was 0.29±0.18. The retinal detachment time was (21.12±3.71) days. The mean visual field defect (MD) was (13.54±6.44) dB. The mean loss variance (LV) was (8.43±2.11) dB. All the patients were performed cryotherapy and sub-choroidal fluid drain out. The mean follow-up was 12.4 months (from 6 to 24 months). At two weeks, 1, 3, 6, 12 months after surgery, the changes of BCVA, visual fields, retinal morphology and subretinal fluid were observed. ResultsIndirect ophthalmoscope combined with B scan showed the time of retinal reattachment was (7.32±2.53) days. Subretinal fluid was found completely absorbed by OCT with a mean of (7.82±3.52) months. At 12 months after surgery, subretinal fluid was completely absorbed in 37 eyes (88.10%). In these 37 eyes, 15 eyes had normal retinal microstructure, 5 eyes had neuroepithelial cystoid edema; 12 eyes had disrupted inner segment/outer segment (IS/OS) junction, and 5 eyes had disrupted IS/OS and external limiting membrane (ELM). BCVA at 6 months after surgery was no significant difference with that at 12 months after surgery (t=-0.636, P=0.529). At 12 months after surgery, there were 4 retinal patterns on OCT examination, including normal retinal microstructure, neuroepithelial cystoid edema, IS/OS line disruption, and IS/OS and ELM disruption. The BCVA difference among these 4 groups was significant (F=52.42, P < 0.05). The BCVA difference between eyes with or without residual subretinal fluid was significant (t=-5.747, P=0.000). At 1, 2 weeks and 1, 3, 6, 12 months after surgery, the MD were (11.38±2.53), (10.14±2.19), (9.17±2.13), (6.63±1.70), (5.71±1.89), (5.14±1.69) dB respectively, with a significant difference between these time-points (F=63.528, P=0.00). However, the MD at 6 months after surgery was no significant difference with that at 12 months after surgery (t=1.442, P=0.157). At 12 months after surgery, there were 12 eyes with normal MD, 30 eyes with higher MD. There was no significant difference between surgery eyes with higher MD and fellow eyes in MD (t=-1.936, P=0.06). The MD value was positively correlated to the time of retinal detachment in patients with normal retinal microstructure (r=0.84, P=0.00). There were differences in LV during different periods after surgery (F=57.25, P=0.00). ConclusionsThe retinal microstructure, visual acuity, visual fields were gradually improved after scleral bulking. The patients had better vision with normal retinal microstructure. The time of retinal detachment positively correlated with visual fields damage.
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.
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.