Objective:To evaluate retinal anatomy using ultrahigh-resolution optical coherence tomography(OCT) in eyes after successful surgical repair of full-thickness macular hole.Methods: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 ultrahighresolution-OCT system developed for retinal imaging,with the capability to achieve approximately 3-μ m axial resolution,was used to evaluate retinal anatomy after hole repair.Results:Despite successful closure of the macular hole,all 22 eyes hadmacular 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%) .Conclusions: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. Objective: To evaluate retinal anatomy using ultrahigh-resolution optical coherence tomography (OCT) in eyes after successful surgical repair of full-thickness macular hole. Methods: 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-μm axial resolution, was used to evaluate retinal anatomy after hole repair.Results: Despite successful closure of the macular hole, all 22 eyes hadmacular 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 3 (14%). Conclusion: With improved visualization of fine retinal architectural features, ultrahigh-resolution OCT can visualize persistent retinal abnormalities without anatomically successful macular hole surgery. Outer foveal hyporeflective disruptions of the junction between the inner and outer segments of the photoreceptors likely for areas of foveal photoreceptor degeneration. Moderately reflective lesions likely represent glial cell proliferation at the site of hole reapproximation. Epiretinal membranes do not seem to decrease visual acuity and may play a role in reestablishing foveal anatomy after surgery.