Objective To evaluate and compare the prognosis of idiopathic macular holes (IMH) and traumatic macular holes (TMH) treated by pars plana vitrectomy (PPV).Methods The clinical data of 72 IMH eyes and 55 TMH eyes, which were treated by PPV between November 2001 and December 2007, were retrospectively reviewed. The visual outcomes and macular anatomic closure were evaluated, and their relationships with prognostic factors including the size of macular hole (MH), preoperative visual acuity (VA) and duration of disease were analyzed.Results The closure rate of IMH (100.0%) was significant higher than that of TMH (85.5%) (P=0.001). The postoperative VA of IMH and TMH were (0.25plusmn;0.02) and (0.21plusmn;0.21) respectively,both significantly increased compare to their preoperative VA (t=-6.841,-4.093; P=0.000). VAincreased IMH and TMH eyes had same VA (chi;2=3.651,P=0.07). PrePPV VAge;0.1 IMH eyes had better outcomes than PrePPV VA<0.1 IMH eyes (chi;2=12.04, P=0.001), while PrePPV VA had no effects on TMH outcomes (chi;2=0.371,P=0.486). IMH eyes with small holes had better outcomes (t=2.476,P=0.016), and TMH eyes with small holes had better closure (t=-4.042, P<0.001). The duration of disease had no significant influence on TMH visual (chi;2=0.704, P=0.401) and anatomic (chi;2=0.166, P=0.684) outcomes. Conclusions PPV is an effective treatment for MH. The closure rate of IMH is higher than that of TMH. The diameter of MH and preoperative VA are major factors for IMH outcomes, and the duration of disease and preoperative VA have no effects on postoperative VA in TMH.
ObjectiveTo evaluate the clinical curative effect of posterior scleral reinforcement for macular retinoschisis in pathological myopic patients. MethodsA prospective study was conducted, in which 36 pathological myopia patients(36 eyes)with myopic foveoschisis were enrolled and divided into two groups according to the treatments: 24 patients (24 eyes) voluntarily underwent posterior scleral reinforcement (PSR, operation group) and 12 patients (12 eyes) didn't receive operation (control group). There are no statistical differences (P>0.05) in age, gender, length of axis oculi, spherical equivalent between the 2 groups. All patients were examined by best corrected visual acuity (BCVA), macular retinoschisis types, central foveal thickness (CFT), maximum foveal thickness (MxFT). Patients in operation group were scheduled to a follow-up 3rd, 6th, and 9th month after surgery respectively. Patients in control group all were followed up once every three months. A contrast observation was made on the changes of BCVA, CFT, MxFT, findings of the foveoschisis and the complications of the surgery between groups. ResultsCompared with the preoperation after 9 month follow-up: in the operation group, the BCVA was significantly increased postoperatively (Z=-3.43, P=0.01), the mean CFT was significantly decreased postoperatively (Z=-2.71, P=0.007), while the MxFT which was not significantly decreased postoperatively (Z=-0.67, P=0.503). In the control group, there was no significant change in BCVA (Z=-1.840, P>0.05), the CFT and the MxFT were signi? cant increased respectively (Z=-2.803, -2.04; P<0.05). In the operation group, there were 6 (25.0%) of the 24 eyes get complete resolution of the foveoschisis; 16 (66.7%) of them is not completely attached however the retinoschisis was significantly decreased; only 2 eyes developed to macular hole the other getting worse and the foveal thickness was increased. In the control group no one get complete resolution of the myopic foveoschisis, and 2 eyes developed to retinal detachment in 6 and 8 month respectively. There was no complications such as post-operative intra-ocular pressure increased, subretinal hemorrhage, macular epiretinal membrane, endophthalmitis, vortex vein circumfluence obstacle and anterior ocular ischemia syndrome occurred after surgery. ConclusionsPosterior scleral reinforcement surgery was found effective in improving the visual acuity, reducing the CFT. No obvious complications were found during and after the surgery.
ObjectiveTo observe the changes of retinal thickness in idiopathic macular hole eyes after vitrectomy combined with internal limiting membrane peeling. MethodsThe study included 40 eyes in 40 consecutive patients with idiopathic full-thickness macular holes who underwent vitrectomy and internal limiting membrane peeling. There were 10 males (10 eyes) and 30 female (30 eyes), the average age was (63.60±6.26) years, the average disease duration was (6.00±3.53) months. All patients were examined by spectral-domain optical coherence tomography to measure the foveal retinal thickness, parafoveal retinal thickness and every quadrant in 1, 3, 6 months after surgery. ResultsCompared foveal retinal thickness after 1 month with 3 month, the difference was significant (F=4.527, P=0.013). But foveal retinal thickness were not significantly different in 3 months and 6 months after surgery (F=2.031, P=0.971). The difference of average parafoveal retinal thickness between 1 month, 3 months and 6 months after surgery was not significant (F=2.011, P=0.139). The retinal thickness of the operated eyes were not significantly different from the normal fellow eyes in 1 month after surgery (t=0.651, P=0.519). And the foveal retinal thickness of the operated eyes and the normal fellow eyes are significantly different in 3 months and 6 months after surgery (t=-2.563, -2.524; P=0.015, 0.016). The thickness of temporal were thicker than other quadrant in 1 month, 3months and 6 months after surgery (t=-3.701, -4.612, -4.125; P=0.014, 0.006, 0.009). ConclusionThere is a transient increase in the foveal retinal thickness after macular hole surgery.
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 observe the effect of epinephrine in intraocular irrigation solution on retinal vascular caliber and macular thickness. MethodsA prospective control study. 32 eyes of 32 patients with macular hole who underwent vitrectomy were enrolled in this study. The patients including 14 males (14 eyes) and 27 females (18 eyes), with the average age of (64.0±4.5)years. Uncorrected visual acuity, corrected visual acuity, slit lamp biomicroscopy, indirect ophthalmoscopy, fundus color photography and optical coherence tomography were performed in all patients. Retinal vascular caliber located in 0.5-1.0 disc diameter from optic disk was measured from digital fundus photographs and summarized as central retinal artery (CRAE) and vein (CRVE) equivalents in all eyes at baseline and at the 1 month, 3 months follow-up visit. The macular thickness is the distance from retinal interface of inner plexiform layer to retinal pigment epithelium layer. The macula was divided into inner ring ( < 3 mm) and outer ring (3-6 mm) according to the distance from the fovea. The patients were divided into experiment group (include epinephrine in intraocular irrigation solution, 1:1000) and control group (without epinephrine in intraocular irrigation solution), 16 eyes in each group. The difference of CRAE and CRVE between two groups was not significant (P > 0.05). The difference of macular thickness between inner ring and outer ring was not significant (P > 0.05). The average follow-up was 3.5 months. CRAE, CRVE and macular thickness in inner ring and outer ring before and 1 month, 3 months after surgery were comparatively analyzed. ResultsThe differences of CRAE and CRVE before and 1, 3 months after surgery both in experiment group (tCRAE=0.322, 0.148; tCRVE=0.317, 0.005) and control group (tCRAE=0.226, 0.137; tCRVE=0.284, 0.151) were not significant (P > 0.05). The differences of CRAE (t=0.624, 0.424) and CRVE (t=0.015, 0.041) between experiment group and control group also were not significant (P > 0.05). The differences of macular thickness in inner ring and outer ring before and 1, 3 months after surgery both in experiment group (tinner=0.322, 0.148;touter=0.317, 0.005) and control group (tinner=0.226, 0.137;touter=0.284, 0.151) were not significant (P > 0.05). The differences of macular thickness in inner ring (t=1.568, 0.373) and outer ring (t=-1.697, 0.536) between experiment group and control group also were not significant (P > 0.05). ConclusionEpinephrine (1:1000) in intraocular irrigation solution has no effect on retinal vascular caliber and macular thickness in patients with macular hole.
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.