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.
ObjectiveTo observe the efficacy of pars plana vitrectomy (PPV) combined with endoscopic cyclophotocoagulation (ECP) for refractory glaucoma. MethodsTwenty-eight patients (30 eyes) diagnosed with refractory glaucoma were enrolled in this study. The intraocular pressure was ranged from 28 to 55 mmHg (1 mmHg=0.133 kPa), with the mean of (46.3±10.3) mmHg. There were 24 eyes with initial visual acuity <0.05, 1 eye with 0.05-0.08 initial visual acuity and 5 eyes with ≥0.1 initial visual acuity. The mean number of intraocular pressure-decreased drugs was 4. All the eyes underwent PPV combined with ECP. The cyclophotocoagulation ranged from 90°-360°, with the mean of (232.5±77.6)°. The cyclophotocoagulation was <180° in 4 eyes, 180°-270° in 6 eyes, >270° in 20 eyes. The follow-up ranged from 12 to 20 months, with the mean of 15.2 months. The intraocular pressure, vision and the mean number of intraocular pressure-decreased drugs before and after surgery were comparatively observed. The relationship between cyclophotocoagulation area and postoperative intraocular pressure was analyzed. ResultsAt the final follow-up, the intraocular pressure ranged from 12 to 36 mmHg, with the mean of (18.5±4.4) mmHg, which decreased 49.4% compared with preoperative intraocular pressure (t=15.537, P<0.01). Among 30 eyes, the intraocular pressure was ≤21 mmHg without any intraocular pressure-decreased drugs in 24 eyes (80.0%), 1 eye (3.3%) with ≤21 mmHg who treatment by local intraocular pressure-decreased drugs, lose control of intraocular pressure in 5 eyes (16.7%). The vision was <0.05 in 15 eyes, 0.05-0.08 in 3 eyes and ≥0.1 in 12 eyes. The difference of vision distribution before and after surgery was not significant (χ2=6.197, P>0.05). Compared with preoperative vision, the postoperative vision was improved in 8 eyes (26.7%), stabled in 15 eyes (50.0%), decreased in 7 eyes (23.3%). The mean number of intraocular pressure-decreased drugs was reduced from 4 to 1 (t=8.402, P<0.01).The cyclophotocoagulation area was positive related to postoperative intraocular pressure (r=4.160, P<0.05). There were no ocular and systemic complications during and after surgery except slight inflammation. ConclusionPPV combined with ECP for refractory glaucoma can reduce intraocular pressure, stabilize or improve the visual acuity.
At present, tamponade agent which being used in retinal surgery is mainly sterile air, gas and silicone oil. Sterile air is mostly used in the treatment of simple retinal detachment. Gas or silicone oil as tamponade is greatly applied for complicated retinal detachment. In recent years, with the application of micro-invasive vitrectomy under a wide-angle viewing system and perioperative anti-vascular endothelial growth factor drugs, application of intraocular filling materials also has changed. The application of silicone oil is significantly reduced. Percentage rate of gas as tamponade for retinal detachment is reduced. The application of sterile air as tamponade is rising. With selecting indication carefully and picking up the suitable air or gas, doctor will reduce the workload. It will also reduce the social burden and benefit patients.
Refractory macular holes typically represent macular holes larger than 400 μm, macular holes in pathological myopic eyes or complicated with myopic schisis, chronic holes longer than 6 months, persistent macular holes after surgeries, and some subtypes of secondary macular holes. A routine pars plana vitrectomy combined with internal limiting membrane peeling yielded a lower closure rate and unsatisfying visual rehabilitation in patients with refractory macular holes, which raised concerns among vitreoretinal surgeons. This editorial reviewed the new upcoming surgical techniques which were reportedly to improve the anatomical and visual prognosis of major subtypes of refractory macular holes. Although with a great variability, these surgical techniques are based the following surgical strategies: firstly, to sufficiently unravel the epi-macular tractional force; secondly, to bridge the defect of neurosensory retina by tissue insertion or implantation and stimulate wound healing process; thirdly, proper tamponade of gas or silicone oil so that the surface tension can stabilize the inserted or implanted tissue and encourage closure of the holes. In conclusion, surgical strategies for refractory macular holes should be made after a comprehensive consideration and a customized design.
ObjectiveTo compare the effects of intravitreal tamponade of C3F8 with silicon oil on postoperative vitreous hemorrhage and visual prognosis after vitrectomy for proliferative diabetic retinopathy (PDR). MethodsThe clinical data of 121 patients (127 eyes) who underwent primary vitrectomy due to PDR were analyzed retrospectively. All the patients were divided into two groups according to different intravitreal tamponade, including C3F8 tamponade group (53 patients with 56 eyes) and silicone oil tamponade group (68 patients with 71 eyes). There was no difference of gender (χ2=0.956), age (t=1.122), duratiion of diabetes (t=0.627), fasting blood glucose (t=1.049), systolic pressure (t=1.056), diastolic pressure (t=0.517), history of hypertension (χ2=0.356), nephropathy (χ2=1.242), preoperative laser photocoagulation (χ2=1.225) and All the patients underwent three port pars plana vitrectomy. The mean follow-up was 2 years ranging from 6 months to 4 years. And then the incidence and onset time of postoperative vitreous hemorrhage and postoperative BCVA of the two groups were compared. ResultsPostoperative vitreous hemorrhage occurred in 14 of 56 eyes (25.00%) in C3F8 tamponade group. The average onset time of postoperative vitreous hemorrhage were (64.64±59.09) days ranging from 7-225 days and mostly were within 30-60 days (35.71%, 5/14). Postoperative vitreous hemorrhage also occurred in 7 of 71 eyes (9.89%) of silicone oil tamponade group after silicone oil removal with an average onset time of (25.29±20.46) days ranging from 3-65 days and were mostly within 15-30 days (42.86%, 3/7). There was a significant difference in the incidence of postoperative vitreous hemorrhage between the two groups (χ2=5.200, P<0.05). BCVA of the two groups was improved significantly after operation (Z=2.472, 3.114; P<0.05). Postoperative BCVA of silicone oil tamponade group was poorer than C3F8 tamponade group (Z=1.968, P<0.05). ConclusionBoth C3F8 and silicone oil tamponade can improve the visual acuity after vitrectomy for PDR. Compared with C3F8, silicone oil tamponade had lower incidence and late onset of postoperative vitreous hemorrhage after vitrectomy for PDR.
ObjectiveTo investigate the factors correlated with the visual outcome of idiopathic macular holes (IMH) after vitreoretinal surgery. MethodsA total of 57 eyes of 57 patients with IMH were included. There were 43 females (43 eyes) and 14 male (14 eyes), mean age was (60.46±4.79) years. All the eyes underwent best corrected visual acuity (BCVA), slit-lamp microscope, three-mirror contact-lens and optical coherence tomography (OCT) examinations. BCVA were examined with interactional visual chart and recorded with logarithm of the minimum angle of resolution (logMAR) acuity. The minimum diameter and base diameter of macular holes and central retinal thickness (CRT) were detected by OCT. The average logMAR BCVA of 57 eyes was 0.98±0.41. The minimum diameter and base diameter of macular holes were (479.53±164.16) μm and (909.14±278.65) μm. All the patients underwent pars plana vitrectomy combined with phacoemulsification cataract extraction and intraocular lens implantation. The mean follow-up period was (173.44±147.46) months. The relationships between final BCVA and these parameters were examined by single and multiple regression analysis. The valuable influence factors were filtrated and formulated using multiple linear regression models. ResultsAt the final follow-up, the logMAR BCVA of 57 eyes was 0.44±0.31, the CRT was (158.79±86.96) μm. The final BCVA was positive related to minimum diameter of macular holes and preoperative BCVA (r=0.420, 0.448; P=0.001, 0.000), negative related to postoperative CRT (r=-0.371, P=0.004). There was no relationship between the final BCVA and base diameter of macular holes, age and follow-up (r=0.203, -0.015, 0.000; P=0.130, 0.913, 0.999). The incidence of preoperative BCVA for postoperative BCVA was bigger than preoperative minimum diameter of macular holes (P=0.008, 0.020). ConclusionThe preoperative minimum diameter of macular holes and BCVA are related to postoperative BCVA in IMH eyes.
ObjectiveTo observe the outcome of scleral buckle and vitrectomy for familial exudative vitreoretinopathy (FEVR) associated rhegmatogenous retinal detachment (RRD) with different stages. MethodsTwenty eyes in 19 patients were included in this study. All the eyes were staged according to the staging system of FEVR. There are 7 eyes at stage 3A, 4 eyes at stage 4A, 6 eyes at stage 4B, and 3 eyes at stage 5. According to classification of retinal detachment (RD) with proliferative vitreoretinopathy (PVR), PVR B was in 5 eyes, PVR C1 in 2 eyes, PVR C2 in 3 eyes, PVR C3 in 7 eyes, PVR D1 in 3eyes. Retinal holes responsible for the RD could be found in every case. Scleral buckle or vitrectomy were chosen according to FEVR staging, PVR classification, location of retinal breaks, extent of RD.Ten eyes (stage 3A in 7 eyes, stage 4A in 3 eyes;PVR B in 5 eyes, PVR C1 in 2 eyes, PVR C2 in 3 eyes) were undergone scleral buckle, the mean preoperative minimum resolution angle in logarithmic (logMAR) best corrected visual acuity (BCVA) is 0.60±0.32.Ten eyes (stage 4A in 1 eyes,stage 4B in 6 eyes,stage 5 in 3 eyes;PVR C2 in 1 eyes,PVR C3 in 6 eyes,PVR D1 in 3 eyes) were undergone vitrectomy, the mean preoperative logMAR BCVA is 1.81±0.53. The mean follow up was(20.20±7.25) months, range 3 to 30 months. Surgical outcome were estimated by the average number of operation, reattachment of retina and BCVA. ResultsFinal retinal attachment was obtained in 100% of all 20 eyes. The mean postoperative logMAR BCVA of scleral buckle group (0.34±0.32) is improved than preoperative BCVA, the difference wan statistically significant (t=2.932, P=0.017). The mean postoperative logMAR BCVA of vitrectomy group (1.42±0.64) is not changed compare with preoperative BCVA (t=1.812,P=0.103).The mean number of operation of scleral buckle group (1.10±0.32) is less than vitrectomy group's (2.20±0.42),the difference wan statistically significant (t=6.588, P=0.000). ConclusionsAmong the patients whose FEVR staging is less than 4A and PVR classification is less than C3,epiretinal membranes or subretinal membranes appears mild, and scleral buckle can achieve high success rate with less number of operations,and the BCVA is improved in most of the cases. For the patients whose FEVR staging is more than 4B and PVR classification is more than C3, proliferative vitreoretinopathy seems to be serious, retina can be effectively reattached via vitrectomy, however, the number of operations required is multiple, and the BCVA is probably unimproved after operation.
The internal limiting membrane (ILM), composed of collagen fibers, glycosaminoglycans, laminin and fibronectin, is the basement membrane of the retinal Müller glia cells and serves as an interface between the vitreous and retina. The ILM is the structural interface between the vitreous and retina. ILM removal ensures separation of the posterior hyaloid from the macular surface, which can relieve macular traction and prevent postoperative epiretinal membrane formation. Thus, vitrectomy with ILM peeling has become an increasingly utilized and vital component in surgical intervention for various vitreoretinal disorders. However, many recent studies showed that ILM peeling is a procedure that can cause immediate traumatic effects and progressive modification on the underlying inner retinal layers.There were some surgical strategy (fovea-sparing ILM peeling or inverted internal limiting membrane flap technique, or Abrasion Technique). But some controversies exist, such as when ILM peeling is necessary, which adjuvant to use to perform the procedure, and what is the best technique to peel the ILM. A full assessment ILM structure and function and related factors of surgery is helpful to predict the anatomical and functional prognosis.
Refractory macular hole (MH) has lower surgical anatomical closure rate and poor recovery of visual acuity due to its clinical characteristics. Refractory macular hole includes unclosed MH, reopening MH, large MH, high myopic MH, traumatic MH and secondary MH. Some modified surgeries were employed to improve the surgical results. Inverted internal limiting membrane flap, autologous transplantation of the internal limiting membrane, laser photocoagulation, extended internal limiting membrane peeling, arcuate retinotomy, lens capsular flap transplantation and mesenchymal stem cell transplantation can improve the prognosis partially. Loosening MH traction, providing a scaffold for Müller cell proliferation and promoting photoreceptor reconstruction will be the key points in future.
Idiopathic macular hole after the internal limiting membrane (ILM) is removed during surgery, the intraoperative optical coherence tomography can be used to observe the presence of debris tissue (RF) protruding into the vitreous cavity at the edge of the hole. Current studies suggest that RF may be caused by epiretinal proliferation and vitreomacular traction, but it is still controversial, and the influence of postoperative anatomical and functional recovery is not clear. Common points can still be found, some of the studies suggest that RF is not conducive to postoperative anatomical and functional recovery during the operation, ILM fragments remain on RF tissues after ILM peeling and re-staining. However, in some studies suggest that RF is beneficial to postoperative anatomical and functional recovery, and ILM fragments on RF are removed. This suggests that whether ILM is removed on RF lead to a certain influence on the postoperative efficacy. There are few researches on RF at present, so it is necessary to understand RF from its essence and assist judgment through histological analysis.