Objective To observe the features of the images of optical coherence tomograpy (OCT) in patients with traumatic macular hole (TMH), and detect the clinical significance of OCT. Methods Consecutive 74 patients (74 eyes) diagnosed with TMH by examinations of visual acuity, slit lamp, and direct or indirect ophthalmoscopy underwent optical coherence tomography (OCT). The analysis software of OCT was used to make the quantitative measurements of TMH. And the TMH were classified according to the morphological characteristics of the images of OCT. 50deg;color fundus photography was performed on the patients after OCT. The relationship of TMH with the average visual acuity, disease duration, average neuroepithelial thickness on the margin of hole, and the base diameter and the apex diameter of macular hole were retrospectively analyzed. Results The characterisctics of the images of 74 cases (74 eyes) of TMH were classified into 5 types: macular holes with symmetric edema of the neurosensory retina at the margin in 27 eyes (36.5%), macular holes with asymmetric edema of the neurosensory retina at the margin in 12 eyes (16.2%), macular hole with full-thickness defect of neurosensory retina without edema or detachment at the margin in 14 eyes (18.9%), macular hole with localized detachment of the neurosensory retina at the margin without edema in 17 eyes (23.0%), and macular hole with thinning neurosensory retina in 4 eyes ( 5.4%). There was no significant difference of visual acuity among different types of TMH (F=1.574, P=0.191). The visual acuity was positively related with the marginal retinal thickness (r=0.342, P=0.003), but not related to age, diameter of macular hole or the disease duration (r value was from -0.022 to -0.134,P value was from 0.863 to 0.261). The disease duration of Type IV TMH was shorter than that of other TMH types. In the patients with the disease duration over 90 days, Type I TMH was predominant. The average retinal thicknesses at the margin of the hole showed significant differences among different TMH types (F=13.921, P=0.000). Conclusions TMH could be divided into 5 types according to the characteristics of images of OCT; the clinical characteristics of different types of TMH varies.
Objective To observe the diameters of macular hole and destroyed boundary line between inner and outer segment (IS/OS) of the photoreceptors and the correlation with the visual acuity in patients with idiopathic macular hole(IMH). Methods The clinical data of 39 eyes (37 patients) with IMH were retrospective analyzed. All the patients had undergone the examinations of visual acuity (Snellen chart), intra-acular pressure, ocular fundus (indirect ophthalmoscope), and Fourier-domain optical coherence tomography (FD-OCT) whose speed was 27 000A scan/s, area was 6.0 mmtimes;6.0 mm, and the mode was 512times;128. The diametres of macular hole and destroyed IS/OS, and the correlations with visual acuity were detected. Results The mean logMAR was 0.99plusmn;0.44 (ranged from 0.15 to 2.00),the mean diameter of macular holes was (942.0plusmn;348.4) mu;m(ranged from 171 to 1491 mu;m), and the mean diameter of IS/OS disruption was (1870.3plusmn;673.2) mu;m(range from 463 to 3176 mu;m). There was a significant correlation among the diameter of the macular hole, the diameter of the IS/OS disruption, and logMAR in IMH (P=0.038, 0.002, 0.000). In eyes with closed macular hole after surgery, the logMAR and the diameter of the IS/OS disruption had a significant decrease. Conclusion Using FD-OCT the photoreceptor changes can be visualized in vivo. The abnormality in the ISOS boundary line appears to be involved for a much larger area beyond the macular hole itself, and persists there with small size even after the macular hole closure surgery.
Objective To test the hypothesis that the macular pigment may be a marker of foveal cone function and consequently the structural integrity of foveal cones.Methods Sixteen patients (32 eyes) diagnosed to have Stargardt dystrophy and three patients with full thickness macular holes by clinical criteria were studied with a scanning laser ophthalmoscopy (SLO) comparing argon laser blue and infrared images for the presence or absence of macular pigment (MP) in the fovea. An C++ computer based program was used to evaluate the density of MP. Eyes were graded into three categories: those without foveal macular pigment, those with partial pigment and those with normal amounts of macular pigment. These categories were compared with visual acuity determined by the Snellen chart. Results Thirteen eyes with a visual acuity of 20/200 or worse had no macular pigment in the fovea. Eleven eyes with visual acuity of 20/40 or better had a normal amount of macular pigment in the fovea and 1 eye had partial macular pigment. Eleven eyes with partial macular pigment had intermediary acuity value.Conclusions Foveal macular pigment is closely related to foveal cone acuity and therefore may be a marker for the presence of foveal cones. Infrared light is a sensitive indicator of early macular diseases.(Chin J Ocul Fundus Dis,2003,19:201-268)
Objective To investigate the characteristics of optical coherence tomography (OCT) images in idiopathic macular hole. Methods OCT、color photography and fundus fluorescein angiography were performed in 65 cases(70 eyes) of macular holes and which were then graded by connecting to their clinical characteristics. Results Among the 70 eyes the number of 1~4 stages of macular holes were 11,12,36 and 11 eyes respectively.In eyes of stage 1 OCT images showed flattening or disappearing of fovea and minimally reflective space within or beneath the neurosensory retina;stage 2 showed a fullthickness hole with an attached operculum and surrounding edema;stage 3 displayed a full-thickness hole with surrounding edema and stage 4 showed a full-thickness hole and a complete separation of the poterior hyaloid membrane from the retina.The dimeter of the macular holes in stage 2,3 and 4 were (241.75plusmn;107.08),(699.78plusmn;160.99), (631.36plusmn;243.46)mu;m,respectively. Conclusions OCT can display the characteristics of idiopathic macular holes and measure the diameters of holes quantitatively. (Chin J Ocul Fundus Dis, 1999, 15: 205-208)
Appropriate classification and staging is the basis for the diagnosis and treatment of idiopathic macular hole (IMH). According to the appearance of vitreous and retina determined by optical coherence tomography, IMH can be classified as primary or secondary IMH, and IMH with or without vitreous attachment; Vitreous attachment can be further classified as vitreomacular adhesion or vitreomacular traction. According to the measured horizontal diameter, IMH can be classified as large, middle and small IMH. This new classification system and comprehensive parameters improve the traditional Ⅳ-stage theory, with a better description of the occurrence and development of IMH process. It should be used as the general principal to guide IMH classification, evaluation of surgical indications, selection of operative method, and estimation of surgical outcome. Ganglion cell damage caused by internal limiting membranes (ILM) peeling is the major concern in the IMH vitreoretinal surgery. For complicated and large IMH, inverted ILM flapping can improve the closure rate; ILM peeling and postoperative face-down posture are not necessary for IMH less than 250um in diameter. The current vitreoretinal surgery trend to treat IMH is personalized surgical treatment, following the existing evidence-based medical evidence, and based on the new classification information, ocular and systemic features of each patient.