眼外直肌相对方向的研究：一种先进的尸体方法。

IF 0.8 Q4 OPHTHALMOLOGY Strabismus Pub Date : 2024-08-19 DOI:10.1080/09273972.2024.2388076

Andrew T Barton, Viren K Rana, Eric J Kim, Surya Khatri, James Y Lee, Jamie Schaefer

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引用次数: 0

摘要

目的：眼外直肌插入点的解剖与眼科临床相关。这项描述性尸体研究确定了上直肌肌、外侧直肌和下直肌相对于内侧直肌的相对位置，并调查了直肌插入点之间的距离。研究方法纳入 30 具尸体（50% 为女性，平均年龄 = 81.86 岁，标准差 12.16），共计 60 只眼睛。对每只眼睛进行外侧角切开术和角膜松解术，然后进行眼周切开术。然后使用肌肉钩进入并分离直肌。在插入处标记肌肉中点，以角膜中心为顶点，用角度计 360 应用程序（© Alexey Kozlov）测量角度，从而确定度数方向（图 1）。直肌之间的距离用卡尺从相同的肌肉中点测量。结果：图 2 显示了相对于内侧直肌的度数方向，具体如下：上直肌（平均值 = 93.14，标度 = 3.04，最小值 82.3，最大值 100.3）、外侧直肌（平均值 = 180.21，标度 = 5.65，最小值 170.5，最大值 190.6）和下直肌（平均值 = 90.57，标度 = 4.47，最小值 84.0，最大值 98.9）。直肌中点插入处之间的距离（以毫米为单位）包括内侧直肌到下直肌（平均值=13.64，SD=0.54），下直肌到外侧直肌（平均值=13.79，SD=0.75），外侧直肌到上直肌（平均值=13.54，SD=0.63），以及上直肌到内侧直肌（平均值=13.83，SD=0.75）。观察到的男性与女性眼外肌中点之间的相对距离在统计学上有显著差异，分别为内侧直肌到下侧直肌（13.8 vs. 13.5，p = .01）、下侧直肌到外侧直肌（14.1 vs. 13.5，p = .03）和上侧直肌到内侧直肌（14.0 vs. 13.5，p = .04）（表 1）。结论：这是一项采用创新测量方法进行的眼外肌度数方位的重要研究。插入肌相对于内侧直肌的度数方向可能在眼科领域有手术应用。

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A study of the relative orientation of the extraocular rectus muscles: an advanced cadaveric approach.

Purpose: The anatomy of the extraocular rectus muscle insertions is clinically relevant in the field of ophthalmology. This descriptive cadaveric study determines the relative degree orientation of the superior, lateral, and inferior rectus muscles with respect to the medial rectus and investigates the distances between the rectus muscle insertions. Method: Thirty cadavers (50% female, mean age = 81.86 years, SD 12.16) were included for a total of 60 eyes. For each eye, a lateral canthotomy and cantholysis were performed followed by a peritomy. Muscle hooks were then used to access and isolate the rectus muscles. The degree orientation was determined by marking the muscle midpoints at insertion, using the center of the cornea as the vertex, and measuring the angle with the Angle Meter 360 application (© Alexey Kozlov) (Figure 1). The distances between rectus muscles were measured from the same muscle midpoints using calipers. Results: The degree orientations with respect to the medial rectus are displayed in Figure 2 and were as follows: superior rectus (mean = 93.14, SD = 3.04, min. 82.3, max. 100.3), lateral rectus (mean = 180.21, SD = 5.65, min. 170.5, max. 190.6), and inferior rectus (mean = 90.57, SD = 4.47, min. 84.0, max. 98.9). The distances (measured in mm) between rectus muscle midpoints at insertion included medial rectus to inferior rectus (mean = 13.64, SD = 0.54), inferior rectus to lateral rectus (mean = 13.79, SD = 0.75), lateral rectus to superior rectus (mean = 13.54, SD = 0.63), and superior rectus to medial rectus (mean = 13.83, SD = 0.75). The relative distances between the midpoints of the extraocular muscles observed in males versus females showed statistically significant differences in medial rectus to inferior rectus (13.8 vs. 13.5, p = .01), inferior rectus to lateral rectus (14.1 vs. 13.5, p = .03), and superior rectus to medial rectus (14.0 vs. 13.5, p = .04), respectively (Table 1). Conclusion: This is an important study of the extraocular muscle degree orientation performed with an innovative measuring approach. The degree orientation of the insertions relative to the medial rectus may have surgical application in the field of ophthalmology.

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来源期刊

Strabismus OPHTHALMOLOGY-

CiteScore

1.60

自引率

11.10%

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