Physiological motion of the optic chiasm and its impact on stereotactic radiosurgery dose. The British journal of radiology Xiang, M. n., Chan, C. n., Wang, L. n., Jani, K. n., Holdsworth, S. J., Iv, M. n., Pollom, E. n., Soltys, S. n. 2019: 20190170

Abstract

Avoidance of radiation-induced optic neuropathy (RION) from stereotactic radiosurgery (SRS) requires precise anatomical localization; however, no prior studies have characterized the physiologic motion of the optic chiasm. We measured the extent of chiasm motion and its impact on SRS dose.In this cross-sectional study, serial magnetic resonance imaging was performed in multiple planes in 11 human subjects without optic pathway abnormalities to determine chiasm motion across time. Subsequently, the measured displacement was applied to the hypothetical chiasm dose received in 11 patients treated with SRS to a perichiasmatic lesion.On sagittal images, the average anteroposterior chiasm displacement was 0.51?mm (95 % confidence interval [CI] 0.27 - 0.75?mm), and the average superior-inferior displacement was 0.48?mm (95%?CI 0.22 - 0.74?mm). On coronal images, the average superior-inferior displacement was 0.42?mm (95%?CI 0.13 - 0.71?mm), and the average lateral displacement was 0.75?mm (95%?CI 0.42 - 1.08?mm). In 11 patients who underwent SRS to a perichiasmatic lesion, the average displacements increased the maximum chiasm dose (Dmax) by a mean of 14 % (range 6 - 23 %; p < 0.001).Average motion of the optic chiasm was approximately 0.50 - 0.75?mm, which increased chiasm Dmax by a mean of 14 %. In the occasional patient with higher-than-average chiasm motion in a region of steep dose gradient, the increase in chiasm Dmax and risk of RION could be even larger. Similarly, previously reported chiasm dose constraints may underestimate the true dose received during radiosurgery.To limit the risk of RION, clinicians may consider adding a 0.50 - 0.75?mm expansion to the chiasm avoidance structure.

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