Ko Tony H, Witkin Andre J, Fujimoto James G, Chan Annie, Rogers Adam H, Baumal Caroline R, Schuman Joel S, Drexler Wolfgang, Reichel Elias, Duker Jay S
Department of Electrical Engineering and Computer Science, Massachusetts Institute of Technology, Cambridge, Mass, USA.
Arch Ophthalmol. 2006 Jun;124(6):827-36. doi: 10.1001/archopht.124.6.827.
To evaluate retinal anatomy using ultrahigh-resolution optical coherence tomography (OCT) in eyes after successful surgical repair of full-thickness macular hole.
Twenty-two eyes of 22 patients were diagnosed as having macular hole, underwent pars plana vitrectomy, and had flat/closed macular anatomy after surgery, as confirmed with biomicroscopic and OCT examination findings. An ultrahigh-resolution-OCT system developed for retinal imaging, with the capability to achieve approximately 3-microm axial resolution, was used to evaluate retinal anatomy after hole repair.
Despite successful closure of the macular hole, all 22 eyes had macular abnormalities on ultrahigh-resolution-OCT images after surgery. These abnormalities were separated into the following 5 categories: (1) outer foveal defects in 14 eyes (64%), (2) persistent foveal detachment in 4 (18%), (3) moderately reflective foveal lesions in 12 (55%), (4) epiretinal membranes in 14 (64%), and (5) nerve fiber layer defects in 3 (14%).
With improved visualization of fine retinal architectural features, ultrahigh-resolution OCT can visualize persistent retinal abnormalities despite anatomically successful macular hole surgery. Outer foveal hyporeflective disruptions of the junction between the inner and outer segments of the photoreceptors likely represent areas of foveal photoreceptor degeneration. Moderately reflective lesions likely represent glial cell proliferation at the site of hole reapproximation. Thin epiretinal membranes do not seem to decrease visual acuity and may play a role in reestablishing foveal anatomy after surgery.
使用超高分辨率光学相干断层扫描(OCT)评估全层黄斑裂孔手术成功修复后眼睛的视网膜解剖结构。
22例患者的22只眼睛被诊断为黄斑裂孔,接受了玻璃体切割术,术后经生物显微镜和OCT检查结果证实黄斑解剖结构变平/闭合。使用为视网膜成像开发的超高分辨率OCT系统(能够实现约3微米的轴向分辨率)来评估裂孔修复后的视网膜解剖结构。
尽管黄斑裂孔成功闭合,但术后所有22只眼睛的超高分辨率OCT图像均显示黄斑异常。这些异常分为以下5类:(1)14只眼睛(64%)存在中心凹外缺陷;(2)4只眼睛(18%)存在持续性中心凹脱离;(3)12只眼睛(55%)存在中等反射性中心凹病变;(4)14只眼睛(64%)存在视网膜前膜;(5)3只眼睛(14%)存在神经纤维层缺陷。
随着视网膜精细结构特征可视化的改善,超高分辨率OCT能够显示出尽管黄斑裂孔手术在解剖学上成功,但仍存在的持续性视网膜异常。光感受器内段和外段交界处中心凹外低反射性破坏可能代表中心凹光感受器变性区域。中等反射性病变可能代表裂孔重新贴合部位的胶质细胞增殖。薄的视网膜前膜似乎不会降低视力,可能在术后重建中心凹解剖结构中发挥作用。