Objective To observe the relationship between the size of idiopathic macular hole (IMH) and the healing types of postoperative photoreceptor layer after vitrectomy. Methods This prospective uncontrolled study included 33 eyes of 31 consecutive patients who underwent vitrectomy for IMH. There were 9 males (9 eyes) and 22 females (22 eyes), with the mean age of (58.16±9.10) years. The mean duration of symptoms was (4.97±5.97) months. The best corrected visual acuity (BCVA) and optical coherence tomography (OCT) were measured for all patients. BCVA was measured with international standard visual acuity chart and then converted to logarithm of the minimum angle of resolution (logMAR). The mean logMAR BCVA was 1.07± 0.38. The mean intraocular pressure was (14.05±0.54) mmHg (1 mmHg=0.133 kPa). The minimum size of the macular hole (MIN), the base diameter of the macular hole (BASE), the average width of the macular hole (AWMH) and the average height of the macular hole (AHMH) were (465.19±232.84), (943.63±389.26), (704.72±292.64), (443.84±72.47) μm, respectively. According to the MIN value, the hole size were divided into small, medium and large group which had 9 eyes, 15 eyes, 9 eyes, respectively. According to the postoperative OCT characteristics, the healing types of the photoreceptor layer were divided into 0 - Ⅳ types. All patients underwent pars plana vitrectomy (25G or 27G standard three-incision) with internal limiting membrane peeling with tamponade agents. The mean follow-up was (326.42±157.17) days. The first postoperative OCT characteristics were defined as the early period. The therapy results were evaluated according to the last follow-up time point. BCVA and intraocular pressure before and after operation were compared by paired t test. The postoperative BCVA were compared with preoperative BCVA, MIN, AWMH, AHMH and follow-up using Pearson correlation analysis. Results At the last follow-up, the LogMAR BCVA was 1.52 - 1.40 in 3 eyes, 1.30 - 0.52 in 22 eyes and 0.40 - −0.07 in 8 eyes. Compared with preoperative that, the difference was statistically significant (t=−6.023, P<0.001). The photoreceptor healing was type 0 in 10 eyes (30.3%), type Ⅰ in 4 eyes (12.1%), typeⅡ in 10 eyes (30.3%), type Ⅲ in 9 eyes (27.3%) at the early postoperative period. The photoreceptor healing was type 0 in 5 eyes (15.2%), type Ⅰ in 5 eyes (15.2%), type Ⅲ in 12 eyes (36.4 %), type Ⅳ in 11 eyes (33.3%) at the last follow-up. The preoperative size of IMH was negatively correlated to the photoreceptor healing types at early postoperative period (r=−0.590, P<0.01) and the last follow-up (r=−0.768, P<0.01), respectively. The correlation analysis showed that the postoperative BCVA associated with the preoperative BCVA, the stage of the macular hole, the size of the macular hole, MIN, BASE, AWMH, AHMH, the healing types of photoreceptor layer of the early and the last follow-up after surgery (r=0.500, 0.370, 0.470, 0.435, 0.533、0.505, 0.462, −0.442, −0.656, P<0.05). There was no correlation between age, visual decreasing times and follow-up times (r=0.285, 0.234, −0.310, P>0.05). Conclusion The preoperative sizes of IMH were associated with the postoperative healing types of photoreceptor layer.
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.
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.
ObjectiveTo evaluate the associated factors for predicting anatomical outcomes of idiopathic macular hole (IMH) after vitrectomy. MethodsThis is a retrospective study. A total of 165 eyes in 164 IMH patients underwent a successful vitrectomy and ILM peeling surgery were included in this study.The patients included 43 males and 121 females, with the mean age of (64.0±6.7) years. The corrected vision acuity of logarithm of the minimum angle of resolution (logMAR), indirect ophthalmoscope and spectral domain optical coherence tomography (SD-OCT) were measured for all patients. The mean logMAR corrected vision acuity was 1.0. The duration of disease was (8.7±14.9) months. The minimum diameter (MIN), base diameter (BASE) and height (H) were 521, 1010, 406 μm respectively. The macular hole index (MHI), tractional hole index (THI), diameter hole index (DHI) and macular hole closure index (MHCI) were 0.43, 0.82, 0.57, 0.92 respectively. Anatomical outcomes were divided into 3 levels. A: bridge-shaped healing; B: good healing; C: poor healing. The mean follow-up was (3.6±3.2) months. The multiple factors related with prognosis including age, sex, duration of disease, preoperative logMAR corrected vision acuity, MIN, BASE and H, MHI, THI, DHI, MHCI were analyzed. ResultsDuration of disease (r=0.141), preoperative logMAR corrected vision acuity (r=0.082), age (r=0.044), sex (r=0.109) was independent of anatomical prognosis (P > 0.05). MIN (r=0.397), BASE (r=0.276), H (r=-0.240), MHI (r=-0.363), THI (r=-0.432), DHI (r=0.272) was weak correlation to anatomical prognosis (P < 0.05). MHCI correlated significantly with anatomical outcomes (r=-0.543, P=0.000). The median MHCI of A, B and C were 1.07, 0.91, 0.56 respectively. There were significant difference of MHCI among the three levels (H=52.857, P < 0.05). ConclusionsMHCI has the best correlation with anatomical outcomes. It can be considered a key factor for predicting anatomical outcomes of IMH after vitrectomy.
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 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.
The reattachment rate, macular hole (MH) closure rate, visual acuity improvement and re-detachment rate of MH retinal detachment (MHRD) of high myopia are not satisfactory owing to long axis oculi, posterior scleral staphyloma and macular atrophy. At present, minimally invasive vitrectomy surgery combined with the internal limiting membrane flap technique has become popular in the treatment of MHRD, as it can promote MH closure, and significantly improve the outcome of MHRD. However if this method can improve the postoperative visual function is still controversial. The advantage of this technique is that the loosened internal limiting membrane is applied to cover the MH surface to form a scaffold structure similar to the basement membrane. It can stimulate Müller cell gliosis more effectively, and promote tissue filling in the MH which results in MH closure. It can also promote retinal reattachment and reduce the likelihood of retinal re-detachment. This technique is expected to be a standard surgical method for the treatment of MHRD of high myopia in the future. The inserted internal limiting membrane flap technique is relatively easy to perform, induces stable flaps by simple procedures, and can be an essential complement procedure of the inverted internal limiting membrane flap technique. In order to reduce the recurrence rate in the future, it is necessary to further define the indications of different surgical methods and the predictive effects of MH healing mode on the success rate and visual function recovery.
ObjectiveTo observe and compare the outcomes of vitrectomy (PPV) combined with complete internal limiting membrane (ILM) peeling and fovea-sparing ILM peeling for the high myopic foveoschisis (MF).MethodsA retrospective case study was performed. From June 2016 to June 2018, 31 eyes of 31 patients with high myopic MF diagnosed in Department of Ophthalmology of Central Theater Command General Hospital were included in the study. There were 9 males and 22 females, who were monocular. The mean age was 57.55±9.45 years. All patients underwent BCVA, diopter, spectral domain OCT and axial length measurement. Snellen visual acuity chart was used for BCVA examination, and which was converted into logMAR visual acuity. According to the surgical method, patients were divided into PPV combined with ILM complete removal group (group A) and PPV combined with retained fovea ILM group (group B), which were 16 patients (16 eyes) and 15 patients (15 eyes ), respectively. The mean logMAR BCVA was 1.03±0.33 in group A and 1.11±0.35 in group B. The mean CFT was 596.51±196.69 μm in group A and 578.33±200.18 μm. There were no statistically significant differences in age (t=0.649, P=0.527), AL (t=-0.639, P=0.533), logMAR BCVA (t=-0.368, P=0.718), CFT (t=0.228, P=0.823) and MF type (P=0.576) between the two groups. The mean follow-up time after operation was 18.65±5.15 months. At 7 d, 1, 3, 6 and 12 months after surgery, and at the last follow-up, the same equipment and methods for relevant examinations. The changes of BCVA, CFT, macular hole and other complications were compared between the two groups. Comparison of BCVA and CFT between the two groups before and after operation was performed by paired t test. The count data were compared by using Fisher exact probability method.ResultsAt the last follow-up, MF was completely restored in 27 eyes (87.1%) of 31 eyes, partially restored in 4 eyes (12.9%). The mean logMAR BCVA of group A and Group B was 0.67±0.24 and 0.64±0.21, respectively. The average CFT was 126.25±36.61 μm and 134.27±25.29 μm, respectively. Compared with pre-operation, BCVA was obviously improved in both groups (t=6.630, 9.260; P=0.000, 0.000), CFT was significantly decreased in both groups (t=10.206, 8.799; P=0.000, 0.000). There were no statistically significant differences in logMAR BCVA and CFT between the two groups (t=0.156, -0.924; P=0.878, 0.371). In group A, full-thickness macular hole occurred in 1 eye (6.3%), while no macular hole occurred in group B. There was no significant difference in macular hole incidence between two groups (χ2=0.969, P=0.516). No intraocular hemorrhage, endophthalmitis and other complications occurred during the follow-up period.ConclusionsPPV combined with ILM peeling or fovea-sparing ILM peeling is effective in the treatment of high myopic MF. Both may contribute to improved MF closure rate and BCVA.
Objective To investigate the visual function of idiopathic macular hole before and after macular surgery. Methods Vitreous-retinal surgery was performed in 19 patients(19 eyes) with idiopthic macular hole.Among them,3 eyes belonged to stage 2,10 eyes stage 3 and 6 eyes were stage 4. The visual function including international standard visual acuity,laser retinal visual acuity,photopic ERG intensity responses- and Humphrey 30deg;-2 visual field were tested and compared before and after the surgery. Results (1)International standard visual acuity was from 0.01 to 0.1 preoperatively,and from 0.04 to 0.4 post operatively,the difference was not significant(P>0.0 5).(2)Laser retinal visual acuity was from 0.12 to 0.4 preoperatively,and from 0.2 to 0.63 postoperatively,the difference was significant (P<0.05).(3)In photopic ERG intensity responses:the Log K value of bwave decreased after surgery (P<0.05),but no obvious change found in Rmax and n Value after operation.(4)Humphrey visual field examination revealed the thresholds for 0-10deg; increased after surgery(P<0.05),but not obvious for 15-30deg;. Conclusion The visual function of the macular cones are increased by macular surgery for IMH. (Chin J Ocul Fundus Dis,2000,16:213-284)
ObjectiveTo evaluate the efficacy of intravitreal injection (IVI) of expansile gas alone to treat idiopathic full-thickness macular hole (FTMH).MethodsThis is a prospective interventional case series. Twenty FTMH patients (26 eyes) who underwent IVI with expansile gas alone were enrolled in this study. There were 5 males (5 eyes) and 21 females (21 eyes), with the mean age of (59±12) years. All patients received the best corrected visual acuity (BCVA), slit lamp microscope, indirect ophthalmoscopy, fundus color photography and three-dimensional optical coherence tomography (OCT) examinations. The BCVA was measured using the international standard visual acuity chart, and the results were converted to the logarithm of the minimum angle of resolution visual acuity. The diameters of macular holes and the interface between vitreous and macular were observed by OCT (Topcon, OCT-2000). Based on the diameter, the holes were classified as small FTMH (equal or lesser than 250 μm), medium FTMH (more than 250 μm but equal or lesser than 400 μm) and large FTMH (more than 400 μm). The mean BCVA was 0.85±0.29. There were 7, 10 and 9 eyes with small, medium and large FTMH. There were 10 eyes with vitreous- macular traction (VMT). All the eyes received IVI of 0.2 ml C3F8 followed facedown positioning for 7-14 days. The follow-up ranged from 1 to 23 months. The BCVA, FTMH closure and complications were observed. If holes failed to close at 1 month after IVI, vitrectomy combined with internal limiting membrane (ILM) peeling and C3F8 tamponade would be performed for these eyes.ResultsFTMHs was able to close in 17/26 eyes (65.4%) had hole closure, failed to close in 9 /26 eyes (34.6%). All 10 eyes with VMT achieved vitreous-macula separation after IVI of gas. The eyes failed in the closure initially with IVI of gas alone, all succeed with hole closure after vitrectomy combined with ILM peeling and C3F8 tamponade. The closure rate of small (6 eyes), medium (8 eyes) and large FTMH (3 eyes) was 85.7%, 80.0% and 33.3% respectively. The diameter of FTMHs in holes-closure eyes and failed-closure eyes was (307.8±122.8), (431.6±128.4) μm respectively, the difference was significant (t=−2.407, P=0.024). VMT was found in 6 eyes and 4 eyes in holes-closure group and failed-closure group, respectively, the difference was significant (t=−2.196, P=0.038). The mean preoperative BCVA was 0.51±0.36. There was a significant difference between pre-and postoperative BCVA (t=4.758, P<0.05). Two eyes developed local retinal detachment, which achieved hole closure and retinal reattachment after vitrectomy.ConclusionIVI of expansile gas alone is an effective way in treating FTMH with a diameter smaller than 400 μm and with VMT before surgery.