Objective To observe the the clinical characteristics of images of optic coherence tomography (OCT) in highly myopic eyes with retinoschisis. Methods The clincial data of 158 patients (158 eyes) with high myopia diagnosed by examinations of best corrected visual acuity and refraction, indirect stereoscopic ophthalmoloscopy, A/Bscan ultrasonography, and OCT, were retrospectively analyzed. The patients were divided into retinoschisis group and nonretinoschisis group according to the results of OCT (whether the patients had macular reinoschisis at the posterior pole). There were 53 patients (55 eyes, 34.8%) in the former group, and 101 patients (103 eyes, 65.2%) in the latter group. The age, sex, diopter, visual acuity, ocular axial length, and incidence of posterior scleral staphyloma, vitreous traction, and retinal detachment of the two groups were compared. Results B-scan ultrasonography showed posterior scleral staphloma in all of the 158 eyes. OCT indicated that in the 55 eyes in the retinnoschisis group, 15 (27.3%) had inner, 53 (96.4%)had outer, and 7 (12.7%)had middle retinoschisis. The inner and outer one could exist independently or in the same eye, while the middle one was always accompanied by the outer retinoschisis. Two or more types of schisis coexisted in 13 eyes (23.6%), single outer retinoschisis was found in 40 eyes (72.7%), and single inner retinoschisis was found in 2 eyes (3.6%). There were 26 eyes(47.3%)were accompanied with retinal detachment, 13 eyes(23.6%) with macular hole, and 12 eyes (21.8%)with vitreous traction. In the 103 eyes in the nonretinoschisis group, 23 eyes (22.3%)had vitreous traction, 19 eyes (18.4%) had macular hole, and 21 eyes (20.4%)had retinal detachment. The differences of age, diopter and ocular axial length, sex, incidence of macular hole and vitreous traction between the two groups were not statistically significant (Pgt;005). The visual acuity in retinoschisis group was much lower than that in the nonretinoschisis group (Plt;005), and the difference of incidence of the retinal detachment between the two groups was significant (Plt;001). 〖WTHZ〗Conclusion 〖WTBZ〗Macular retinoschisis in eyes with high myopia can exist in inner or middle retina, but most of them locate at outer retina.The patients always have poor visual acuity and are often accompanied by other macular lesions such as retinal detachment.
Objective To evaluate the clinical features of macular retinoschisis (MRS) and macular retinal detachment without hole (MRDH) in highly myopic eyes. Methods The clinical data of 19 patients (24 eyes) with MRS and MRDH from 186 patients (349 eyes) with high myopia were retrospectively analyzed. All of the patients had undergone the examinations of subjective refraction, binocular indirect ophthalmoscope, slit lamp microscope combined with Goldmann threemirror contact lens, fundus images, A/Bscan ultrasonography, and optical coherence tomography (OCT). Results In 349 eyes, 24 (6.9%) had MRS and (or) MRDH at the posterior pole. The results of ocualr fundus examinations showed that all of the 24 eyes (100%) had posterior scleral staphyloma (PS), 2 (8.3%) had vitreomacular traction (VMT), 2 (8.3%) had macular local superficial retinal detachment, and 1 (4.2%) had fullthickness macular hole. The results of Bscan ultrasonography also indicated PS in all 24 eyes (100%), macular local superficial retinal detachment in 7 (29.2%) with a bowlike configuration formed by the detached retina and the coneshaped roof of PS, and VMT in 2 (8.3%). The results of OCT revealed macular outerlayer retinoschisis (ORS) in 22 eyes (91.7%) in which 8 (36.4%) also had macular innerlayer retinoschisis (IRS); MRDH in 5 eyes (20.8%) in which ORS was found in 3 (60.0%) and simplex MRDH in 2 (40.0%) including 1 with VMT; VMT in 13 eyes (54.2%); cystoid macular edema (CME) in 3 eyes (12.5%); and lamellar macular hole in 4 eyes (16.7%). Conclusions MRS and MRDH are common complications in highly myopic eyes with posterior scleral staphyloma.OCT is more sensitive and accurate in detecting MRS and MRDH than routine ophthalmoscopic examination and B-scan ultrasonography.
Pathological myopic macular retinoschisis can be classified into 4 types based on optical coherence tomography (OCT) images: outer layer retinoschisis, outer + middle layer retinoschisis, outer + inner layer retinoschisis and multilayer retinoschisis. Currently vitrectomy is the major option to treat this condition as it can remove the posterior vitreous cortex completely and peel the internal limiting membrane (ILM) around the posterior vessels arch. Vitrectomy benefits the visual function significantly for outer layer retinoschisis with foveal detachment, but has no or very little effects on multilayer retinoschisis. The appropriate starting site for removal of posterior cortex and ILM should be the site without inner layer retinoschisis. The knowledge and understanding of the OCT classification of pathological myopic macular retinoschisis is important for us to chose correct operation methods and determine the prognosis after treatment.