Abstract
Extraocular muscle movement during strabismus surgery causes changes in eyeball shape. Because extraocular muscle insertion is in front of the equator, it is thought that changes due to strabismus surgery mainly occur in the anterior segment. However, changes in the posterior segment of eye may also occur, which may also result in changes in refractive error after strabismus surgery. Using a 3-dimensional reconstruction technique (en face imaging) of the swept source optical coherence tomography, we determined and quantitatively measured the posterior polar change. The deepest interface between Bruch’s membrane and the choroid could be identified as the deepest point of the eyeball (DPE), and the location of the DPE relative to the optic disc and the fovea was measured. After lateral rectus muscle recession, the DPE moved away from the fovea, but after medial rectus muscle recession, the DPE moved toward the fovea. The amount of DPE movement differed by age and preoperative refractive error. Our findings suggest that the positional shift of the rectus muscle in horizontal strabismus surgery causes a structural change in the posterior segment of the eye, and the postoperative refractive changes may be related to this shift.
Highlights
Extraocular muscle movement during strabismus surgery causes changes in eyeball shape
Eyes were classified into three groups according to the surgical management: a lateral rectus muscle (LR) recession group that had preoperative exotropia (71 eyes); a medial rectus muscle (MR) recession group with preoperative esotropia (19 eyes); and a control group of unoperated fellow eyes, which were the other eyes when unilateral surgery was performed (20 eyes)
Unilateral LR or MR recession was performed on the chief-deviated eye (CDE)
Summary
Extraocular muscle movement during strabismus surgery causes changes in eyeball shape. Our findings suggest that the positional shift of the rectus muscle in horizontal strabismus surgery causes a structural change in the posterior segment of the eye, and the postoperative refractive changes may be related to this shift. Altering the locations of extraocular muscle insertions with strabismus surgery could change the tension or power vector of extraocular muscles and the shape of the eyeball[10] It results in the morphological changes in the anterior part of the eyeball and the posterior part (Fig. 1). The purpose of this study was to investigate 3D morphological changes in the posterior part of the eyeball after horizontal rectus muscle recession by analyzing alterations in the relative positional relationships of the DPE, fovea, and optic disc using the SS-OCT en face analysis
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