Calculating Optic Nerve Planning Organ at Risk Volume Margins for Stereotactic Radiosurgery Using Optic Nerve Motion determined using MRI.

IF 1.8 4区 医学 Q3 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Sagar Sabharwal, Geoff Heyes, George S J Tudor, Robert Flintham, Swarupsinh Chavda, Paul Sanghera
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Abstract

Objectives: The combination of sharp dose gradients in stereotactic radiosurgery (SRS) and minute optic nerve motion may significantly increase dose to the optic nerves when treating perioptic lesions. The aim of this study was to calculate optic nerve planning organ at risk volume (PRV) margins for CyberKnife SRS treatment planning.

Methods: MRI scans were taken of 10 healthy volunteers looking left, right, up, down, and straight ahead to measure optic nerve motion. The measured optic nerve motion and the uncertainties in the technical accuracy of CyberKnife were used to calculate optic nerve PRV margins.

Results: Two optic nerve PRV margins were calculated: a non-isotropic margin of mL/R,PRV=3mm, mSup/Inf,PRV=2mm and mAnt/Post,PRV=1mm which considers the full range of motion measured in a worst case scenario; and an isotropic margin of mPRV=1mm which considers a scenario where patients are asked to look neutrally during imaging and treatment. Applying these PRVs to 8 historical sphenoid wing meningioma CyberKnife plans showed tolerance levels may be exceeded due to optic nerve motion.

Conclusions: Optic nerve PRV margins may be needed in CyberKnife planning to reduce risk to the optic nerves. The use of a mPRV=1mm PRV to account for organ motion, along with instructing patients to hold their gaze neutrally during imaging and treatment, may be a suitable organ sparing strategy.

Advances in knowledge: Measured optic nerve motion and the technical accuracy of the CyberKnife system have been used to calculate optic nerve PRV margins.

利用磁共振成像确定的视神经运动计算立体定向放射外科手术的视神经规划风险器官体积边缘。
目的:立体定向放射外科手术(SRS)中尖锐的剂量梯度与微小的视神经运动相结合,可能会显著增加治疗视神经周围病变时的剂量。本研究的目的是计算用于 CyberKnife SRS 治疗计划的视神经计划器官风险体积(PRV)边缘:方法:对 10 名健康志愿者进行磁共振成像扫描,测量视神经的左右、上下和直视运动。测量的视神经运动和 CyberKnife 技术精度的不确定性被用来计算视神经 PRV 边界:计算出了两种视神经 PRV 边界:mL/R,PRV=3mm、mSup/Inf,PRV=2mm 和 mAnt/Post,PRV=1mm的非各向同性边界,考虑了在最坏情况下测得的全范围运动;mPRV=1mm的各向同性边界,考虑了在成像和治疗过程中要求患者保持中立的情况。将这些PRV应用于8个历史上的蝶骨翼脑膜瘤CyberKnife计划显示,由于视神经运动,可能会超出耐受水平:视神经 PRV 边界可能需要在 CyberKnife 计划中使用,以降低视神经的风险。使用mPRV=1毫米的PRV来考虑器官运动,同时指导患者在成像和治疗过程中保持中立注视,可能是一种合适的器官保护策略:测量的视神经运动和CyberKnife系统的技术准确性已被用于计算视神经PRV边缘。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
British Journal of Radiology
British Journal of Radiology 医学-核医学
CiteScore
5.30
自引率
3.80%
发文量
330
审稿时长
2-4 weeks
期刊介绍: BJR is the international research journal of the British Institute of Radiology and is the oldest scientific journal in the field of radiology and related sciences. Dating back to 1896, BJR’s history is radiology’s history, and the journal has featured some landmark papers such as the first description of Computed Tomography "Computerized transverse axial tomography" by Godfrey Hounsfield in 1973. A valuable historical resource, the complete BJR archive has been digitized from 1896. Quick Facts: - 2015 Impact Factor – 1.840 - Receipt to first decision – average of 6 weeks - Acceptance to online publication – average of 3 weeks - ISSN: 0007-1285 - eISSN: 1748-880X Open Access option
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