Yun Hsia1, Tzyy-Chang Ho1, Chang-Hao Yang1,2, Yi-Ting Hsieh1, Tso-Ting Lai1,3, Chung-May Yang1,2. 1. Department of Ophthalmology, National Taiwan University Hospital, Taipei, Taiwan. 2. College of Medicine, National Taiwan University, Taipei, Taiwan. 3. Graduate Institute of Clinical Medicine, College of Medicine, National Taiwan University, Taipei, Taiwan.
Abstract
PURPOSE: To evaluate the clinical characteristics and evolution of lamellar macular hole (LMH) in high myopia and the parameters associated with structural worsening, defined as the development of foveal detachment or full-thickness macular hole. METHODS: Patients with high myopia and LMH were retrospectively recruited. The clinical characteristics and various parameters of optical coherence tomography were identified at baseline and during follow-up visits. Cox regression analysis was used to evaluate the hazard ratios for foveal detachment and full-thickness macular hole. RESULTS: Among 112 eyes (98 patients), 64.3% were female; the mean axial length of all eyes was 29.6 ± 1.9 mm. The 'LMH without retinoschisis' group accounted for 39.3% of the eyes. Forty-two percent developed structural worsening within a median follow-up of 67 months. Multivariable regression on all cases showed elevated tissue inside the LMH (P = 0.003) protected against structural worsening while V-shaped LMH (P = 0.006) predicted it. In the "LMH with retinoschisis group", ellipsoid zone disruption (P = 0.035), and V-shaped LMH (P = 0.014) predicted structural worsening, while elevated tissue inside the LMH (P = 0.028) protected against it. In the "LMH without retinoschisis group", no associated factor was identified. CONCLUSIONS: LMHs in high myopia are unstable, especially those with V-shaped LMH. Elevated tissue inside LMHs have a protective effect against further structural worsening.
PURPOSE: To evaluate the clinical characteristics and evolution of lamellar macular hole (LMH) in high myopia and the parameters associated with structural worsening, defined as the development of foveal detachment or full-thickness macular hole. METHODS:Patients with high myopia and LMH were retrospectively recruited. The clinical characteristics and various parameters of optical coherence tomography were identified at baseline and during follow-up visits. Cox regression analysis was used to evaluate the hazard ratios for foveal detachment and full-thickness macular hole. RESULTS: Among 112 eyes (98 patients), 64.3% were female; the mean axial length of all eyes was 29.6 ± 1.9 mm. The 'LMH without retinoschisis' group accounted for 39.3% of the eyes. Forty-two percent developed structural worsening within a median follow-up of 67 months. Multivariable regression on all cases showed elevated tissue inside the LMH (P = 0.003) protected against structural worsening while V-shaped LMH (P = 0.006) predicted it. In the "LMH with retinoschisis group", ellipsoid zone disruption (P = 0.035), and V-shaped LMH (P = 0.014) predicted structural worsening, while elevated tissue inside the LMH (P = 0.028) protected against it. In the "LMH without retinoschisis group", no associated factor was identified. CONCLUSIONS: LMHs in high myopia are unstable, especially those with V-shaped LMH. Elevated tissue inside LMHs have a protective effect against further structural worsening.