模拟上斜肌麻痹的直肌滑车移位。

Displacement of the rectus muscle pulleys simulating superior oblique palsy.

作者信息

Kono Reika, Okanobu Hirotaka, Ohtsuki Hiroshi, Demer Joseph L

机构信息

Department of Ophthalmology, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences, Okayama, 700-8558, Japan.

出版信息

Jpn J Ophthalmol. 2008 Jan-Feb;52(1):36-43. doi: 10.1007/s10384-007-0492-8. Epub 2008 Mar 28.

DOI:10.1007/s10384-007-0492-8

PMID:18369698

Abstract

PURPOSE

To investigate the structural basis of three cases of apparent superior oblique (SO) palsy caused by extraocular muscle (EOM) pulley heterotopy.

METHODS

Three subjects were diagnosed as having decompensated idiopathic left SO palsy on the basis of misalignment in diagnostic gaze positions, response to the head tilt test, and results of the Hess screen test. Magnetic resonance imaging of the orbits in coronal planes was used to determine SO muscle size and contractility and to define the rectus EOM pulley locations. Orbit 1.8 computer simulation was performed for each subject by using measured rectus pulley locations. Simulated binocular alignment was compared with the measurements.

RESULTS

The maximal SO cross sections of both eyes of each subject were similar, and exhibited similar contractile thickening from supraduction to infraduction. The superior rectus muscle pulleys in three eyes exhibited significant temporal displacement, while the lateral rectus muscle pulleys in five eyes and the medial rectus muscle pulleys in two eyes were displaced significantly inferiorly compared with published norms. Simulations based on observed pulley position abnormalities alone predicted measured Hess screen data better than did simulations incorporating SO weakness, either alone or combined with other structural abnormalities.

CONCLUSIONS

Heterotopy of the rectus EOM pulleys may be associated with cyclovertical strabismus that simulates SO palsy.

摘要

目的

研究3例因眼外肌（EOM）滑车异位导致的明显上斜肌（SO）麻痹的结构基础。

方法

根据诊断性注视位的斜视情况、对歪头试验的反应以及Hess屏试验结果，3名受试者被诊断为失代偿性特发性左SO麻痹。采用眼眶冠状面磁共振成像来确定SO肌的大小和收缩性，并确定直肌EOM滑车的位置。利用测量得到的直肌滑车位置，对每名受试者进行眼眶1.8计算机模拟。将模拟的双眼视轴矫正与测量结果进行比较。

结果

每名受试者双眼的SO最大横截面积相似，从上转至下转时均表现出相似的收缩性增厚。3只眼的上直肌滑车出现明显的颞侧移位，5只眼的外直肌滑车和2只眼的内直肌滑车与已发表的标准相比明显向下移位。仅基于观察到的滑车位置异常进行的模拟，比单独或结合其他结构异常纳入SO麻痹的模拟能更好地预测测量的Hess屏数据。

结论

直肌EOM滑车异位可能与模拟SO麻痹的旋转性垂直斜视有关。

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模拟上斜肌麻痹的直肌滑车移位。

Displacement of the rectus muscle pulleys simulating superior oblique palsy.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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