Objective To observe the effect of amniotic homogenate on closing holes in experimental rhegmatogenous retinal detachment and investigate its mechanism. Methods Forty rabbits were randomly divided into group A, B, C and D with 10 rabbits in each group. Group A and C were the treatment groups, and group B and D were the control groups. All eyes of rabbits underwent pars plana vitrectomy, retinectomy, and fluidair exchange. The surface of the breaks was treated with 01 ml amniotic homogenate in experimental groups and 0.1 ml PBS in control groups. At the end of operation, 20% SF6 was tamponaded and the retina reattaced. The animals were executed 14 (group A and B) and 28 days (group C and D) after the surgery. The tissue sections were observed by light microscope, electron microscope and immunocytochemistry method. Results Fourteen days after the surgery, the retina reattached in 6 eyes in group A (60%) and 2 eyes in group B (20%) (P=0.021). Twenty-eight days after the surgery, the retina reattached in 8 eyes in group C (80%) and 3 eyes in group D (30%) (P=0.046). The difference of the rate of retinal reattachment among the 4 groups were statistical significant (Plt;0.05). Light postoperative inflammation of ocular anterior segment was observed, which was controlled 3-5 days after treated with topical steroids. The result of light microscopy showed that the eyes in treatment groups had multilayer of fibroblastlike cells around the retinal breaks, adhering to the choroid and retinal pigment epithelial cells. The proliferative cells around the retinal breaks obvious less in control groups than that in the treatment groups, and the retina could not adhere to the choroid. The results of electron microscopy were the same as that of light microscopy. Immunohistochemistry staining of the fibroblastlike cells revealed positve glial fibrillary acidic protein, which suggested that the proliferative cells around the retinal breaks were retinal glial cells. Conclusions Amniotic homogenate helps to seal retinal breaks and promote retinal reattachment by stimulating the proliferation of retinal glial cells around the breaks.
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 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)
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)
Objective To observe surgical outcomes and influencing factors of retinal detachment (RD) after phacoemulsification cataract extraction and intraocular lens (IOL) implantation. Methods The clinical data of 38 patients who underwent retinal detachment after phacoemulsification cataract extraction and intraocular lens implantation were retrospectively analyzed. All patients diagnosed via visual acuity, slit-lamp microscopy, direct or indirect ophthalmoscopy, A or Bscan ultrasonography and optical coherence tomography (OCT). There were 21 males (21 eyes) and 17 female (18 eyes). The age was from 42 to 83 years, with the mean of (57.4±11.2) years. There were nine patients (10 eyes) with simple macular hole RD (MHRD). Vitrectomy or scleral buckling or combined vitrectomy and scleral surgery were implemented according to RD range, the hole location and size, proliferative vitreoretinopathy (PVR) grading; simple MHRD eyes were treated posterior scleral reinforcement surgery. The followup was ranged from 3 to 12 months, with a mean of (11.9±6.8) months. Results The retina was reattached successfully through one operation in 36 eyes (92.3%), two eyes failed because of a relapse after surgery, and one eye finally succeeded by the third times of surgery. There were two eyes (5.1%) with improved vision, one eye (2.6%) with stable vision, and 36 eyes (92.3%) with decreased vision. Conclusion The ratio of the reattachment by one operation for RD after phacoemulsification cataract extraction and intraocular lens implantation is high, but the final visual prognosis remains poorly.
Objective To compare the efficacy and safety of pars plana vitrectomy (PPV) versus scleral buckling (SB) on rhegmatogenous retinal detachment (RRD) after cataract surgery. Methods A computerized search was conducted in the Cochrane Library, Medline, Embase, China National Knowledge Infrastructure (CNKI), Chinese Biological Medicine Database (CBM) combined with manually searching of related literatures. Randomized controlled trials (RCT) comparing PPV with SB for RRD after cataract surgeries were collected. Best corrected visual acuity (BVCA), reattachment rate after primary surgery, final reattachment rate and complications between the two operations were compared. Results A total of four RCTs were included in this meta analysis, including 690 eyes of 690 patients (331 eyes in the PPV group, 359 eyes in the SB group). There was no difference in reattachment rates after primary surgery between two groups [odds ratio (OR) =1.68; 95% confidence interval (CI), 0.81-3.49; P=0.16). Final reattachment rate were in favor of PPV (OR=1.97; 95% CI,1.04 -3.73;P=0.04). There was no significant difference in the proportion of BCVA at six months (weighted mean difference=0.06; 95%CI,-0.01- 0.14; P=0.11). PPV was associated with a significantly lower frequency of diplopia/extrocular muscle dysfunction than SB (OR=6.59; 95% CI1.16 - 37.27; P=0.03), whereas other complications, such as proliferative vitreoretinopathy, macular pucker, cystoid macular edema, and choroidal detachment did not differ statistically (P>0.05). Conclusion Compared with SB, PPV is more likely to achieve a favorable final reattachment rate for RRD after cataract surgery, and with a lower rate of diplopia/extrocular muscle dysfunction.
ObjectiveTo observe the clinical efficacy of minimally invasive vitreous surgery (MIVS) for special rhegmatogenous retinal detachment (RRD) in children and adolescents.MethodsA retrospective clinical comparative study. Fourteen eyes with special type of RRD in 14 children and adolescents who received the MIVS treatment from January 2014 to January 2019 in Ophthalmology Department of The First Affiliated Hospital Ophthalmology of Air Force Military Medical University, were included in this study. Among them, 8 eyes from 8 males and 6 eyes from 6 females. The age of them ranged from 5 to 17, with the mean age of 12.64±4.11 years. The course of disease was ranged from 1 d to 1 year, and the average of it was 30 d. All the eyes developed the special type RRD, including pseudophakic and aphakic retinal detachment, giant retinal tear with retinal detachment, choroidal detachment associated with retinal detachment, and RRD with ocular dysplasia. In the 14 eyes, there was 2 eyes with retinal detachment in 1 quadrant, 4 eyes in 2 quadrants, 1 eye in 3 quadrants and 7 eyes in total 4 quadrants. All the eyes were treated with 23G or 25G MIVS and filled with irrigation solution, air and silicone oil. In addition, 10.4 months' follow-up for average after surgery were taken to observe the occurrence of retinal reattachment, BCVA and related complications in the eyes.ResultsIn the 14 eyes, 13 (92.9%) of them attained retinal reattachment and 1 eye (7.1%) got a poor retinal reattachment after one operation. At the last follow-up, all the 14 eyes (100.0%) attained retinal reattachment and 5 of them at the filling state of silicone oil. The vision of 8 eyes (57.1%) were improved, 4 eyes (28.6%) have no notable changes and 2 eyes decreased (14.3%). During the operation, iatrogenic retinal breaks were occurred in 1 eye, and silicone oil entered underneath the retina in 1 eye. After the operation, 1 eye suffered a relapse of retinal detachment after the removal of silicone oil and then were filled with it again.ConclusionsMIVS is a safe and effective way to treat the special type RRD among the children and adolescents. The rate of retinal reattachment is 92.9% after one surgery and 100.0% at the last follow-up. Therefore, MIVS can help most of eyes with special type RRD to get a stable and improved vision.
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 compare the outcome of C3F8 versus silicone oil intraocular tamponade after pars plana vitrectomy (PPV) for the treatment of severe highly myopic macular hole retinal detachment (MHRD). Methods Thirty-two highly myopic MHRD patients (32 eyes) with extreme long axial lengths (ge;29.0 mm), quot;severequot; retina pigment epithelium (RPE) and chorioretinal atrophy, and posterior staphyloma who underwent PPV, were enrolled in this study. The patients were divided into two groups according to different intraocular tamponade agents: C3F8 (group A, 15 eyes) and silicone oil (group B, 17 eyes). The patients with retinal re-detachment after surgery received PPV again. The differences of sex (P=1.000), age (t=0.444, P=0.660), best-corrected visual acuity (t=0.084, P=0.934), diopter (t=0.449, P=0.978), lens state (P=1.000), time of the symptoms (t=0.375, P=0.710) and degree of retinal detachment (chi;2=0.014, P=0.907) between group A and B were not statistically significant. The anatomic reattachment of the retina, macular hole closure, and vision acuity were observed at one week, one, three, six and 12 months after surgery. Results The rates of retinal reattachment and macular hole closure were 60.00% and 13.33 % in group A, 82.35% and 29.41% in group B in the first time of surgery. There was no difference in rates of retinal reattachment and macular hole closure between two groups (P=0.243, 0.402). The rates of retinal reattachment and macular hole closure were 86.67% and 20.00% in group A, 94.12% and 29.41% in group B in the second time of surgery. There was no difference in rates of retinal reattachment and macular hole closure between two groups (P=0.589, 0.691). Twelve months after surgery, the vision acuity improved in five eyes, unchanged in seven eyes , and decreased in three eyes in group A; the vision acuity improved in seven eyes , unchanged in eight eyes , and decreased in two eyes in group B. The differences of vision result was not statistically significant between two groups (chi;2=0.209, P=0.647). Conclusion The rates of retinal reattachment and macular hole closure with silicone oil tamponade was higher than that with C3F8 tamponade in eyes with severe highly myopic MHRD, but the differences are not statistically significant.
Retinal break is the cause of primary retinal detachment, which remains a main cause for visual loss, and closure of the breaks is the principle of treatment. Currently surgical treatment can successfully reattach the retina in most cases. However, some basic questions still beset treatment of the disease, such as the cause responsible for development of retinal breaks and how to prevent it, and how the visual recovery can be satisfactory after reattachment surgery. Recent research indicates that the development of retinal breaks is associated with the process of vitreous liquefaction, posterior vitreous detachment (PVD) and abnormal vitreoretinal adhesion and traction. The retinal breaks can occur in the posterior margin of the vitreous base in the eye with complete PVD. Partial PVD may cause posterior breaks especially in cases of myopic traction maculopathy associated with schisislike thickening in the outer retina (foveoschisis) and vitreomacular traction. It is known that microstructural changes and atrophy of the macula, and epiretinal membrane formation are the reasons for poor vision after the retina is reattached. Therefore, more attention should be paid to further understand the vitreous pathology and traction mechanism, to research for methods of its clinical evaluation and strategy of prevention and treatment, and to accelerate visual recovery after reattachment surgery, in order to raise the standard of the disease treatment.