视盘旁伽马区和垂直黄斑中心凹位置。2011 年北京眼研究。
Location of Parapapillary Gamma Zone and Vertical Fovea Location. The Beijing Eye Study 2011.
机构信息
Department of Ophthalmology, University Hospital of Cologne, Cologne, Germany.
Beijing Institute of Ophthalmology, Beijing Ophthalmology and Visual Sciences Key Laboratory, Beijing Tongren Hospital, Capital Medical University, Beijing, China.
出版信息
Invest Ophthalmol Vis Sci. 2021 Jan 4;62(1):18. doi: 10.1167/iovs.62.1.18.
PURPOSE
To assess the spatial relationship between the locations of the parapapillary gamma zone and the fovea.
METHODS
In a non-glaucomatous subgroup of the population-based Beijing Eye Study population, we measured the mean angle between the optic disc-fovea line and the horizontal (disc-fovea angle), the vertical distance of the fovea from the horizontal through the optic disc center (fovea vertical distance), and the location and width of the widest part of parapapillary gamma zone.
RESULTS
The study included 203 individuals (203 eyes; mean axial length, 24.4 ± 1.5 mm; range, 22.03-28.87 mm). The widest gamma zone part was located most often temporal horizontally (51.7%), then inferiorly (43.8%), superiorly (2.5%), and nasally (2.0%). The disc-fovea angle (mean, 7.50° ± 4.00°; range, -6.30° to -23.25°) was significantly higher (P = 0.003; i.e., fovea located more inferiorly) in eyes with the widest gamma zone inferiorly (8.46° ± 4.37°) than in eyes with the widest gamma zone temporally (6.71° ± 3.46°) and in eyes with the widest gamma zone temporally, superiorly, or nasally combined (6.75° ± 3.53°; P = 0.003). The fovea vertical distance (mean, 0.65 ± 0.33 mm; range, -0.20 to 1.67 mm) was longer (P = 0.001; i.e., fovea located more inferiorly) in eyes with the widest gamma zone inferiorly (0.73 ± 0.33 mm) than in eyes with the widest gamma zone temporally (0.58 ± 0.30 mm) and in eyes with a temporal, superior, or nasal gamma zone combined (0.58 ± 0.31 mm; P = 0.001). The fovea vertical distance increased (multivariate analysis) with the widest gamma zone location inferiorly (β = 0.25; P = 0.001) and wider width of the gamma zone (β = 0.19; P = 0.01).
CONCLUSIONS
An inferior fovea location is associated with a wider inferior gamma zone and vice versa, supporting the notion of an inferior shifting of Bruch's membrane as the cause for an inferior gamma zone.
目的
评估视盘-黄斑线与水平方向之间视盘旁伽马区位置的空间关系。
方法
在基于人群的北京眼研究的非青光眼亚组中,我们测量了视盘-黄斑线与水平方向之间的平均角度(视盘-黄斑角)、黄斑中心通过视盘中心的垂直距离(黄斑垂直距离)以及视盘旁伽马区最宽部分的位置和宽度。
结果
研究共纳入 203 名个体(203 只眼;平均眼轴长 24.4 ± 1.5mm;范围 22.03-28.87mm)。最宽的伽马区部分最常位于颞侧(51.7%),其次是下侧(43.8%)、上侧(2.5%)和鼻侧(2.0%)。视盘-黄斑角(平均 7.50°±4.00°;范围-6.30°至-23.25°)在最宽的伽马区在下侧(8.46°±4.37°)的眼中显著更高(P=0.003;即黄斑更靠下),而在最宽的伽马区在颞侧(6.71°±3.46°)和颞侧、上侧或鼻侧的伽马区同时存在(6.75°±3.53°;P=0.003)的眼中较低。黄斑垂直距离(平均 0.65 ± 0.33mm;范围-0.20 至 1.67mm)在最宽的伽马区在下侧(0.73 ± 0.33mm)的眼中较长(P=0.001;即黄斑更靠下),而在最宽的伽马区在颞侧(0.58 ± 0.30mm)和颞侧、上侧或鼻侧的伽马区同时存在(0.58 ± 0.31mm;P=0.001)的眼中较短。黄斑垂直距离随着最宽伽马区位置的下侧(β=0.25;P=0.001)和伽马区宽度的增加(β=0.19;P=0.01)而增加。
结论
下部黄斑位置与较宽的下部伽马区相关,反之亦然,这支持了布鲁赫膜向下移位是下部伽马区形成的原因的观点。
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