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无框架伽玛刀Icon™治疗期间的分次内运动门控:锥形束CT评估的颅内解剖结构位移与红外跟踪鼻标记位移之间的关系。

Intra-fraction motion gating during frameless Gamma Knife Icon™ therapy: The relationship between cone beam CT assessed intracranial anatomy displacement and infrared-tracked nose marker displacement.

作者信息

Wright Gavin, Schasfoort Jannie, Harrold Natalie, Hatfield Paul, Bownes Peter

机构信息

Leeds Cancer Centre, St. James's University Hospital, Leeds, LS9 7TF, UK.

Gamma Knife Center Tilburg, ETZ Hospital, Tilburg, the Netherlands.

出版信息

J Radiosurg SBRT. 2019;6(1):67-76.

PMID:30775076
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6355448/
Abstract

METHODS

Gamma Knife Icon™'s high-definition motion management (HDMM) system gates treatment delivery should intra-fraction displacement of a nose marker exceed some user-defined threshold. A method, previously-validated with a phantom, is used to relate intra-fractional displacements of the nose marker to displacements of patient targets. Additionally, novel analysis is performed to ascertain the relationship between nose marker displacement and displacement of a 3D grid of coordinates throughout stereotactic space. This spatial information is used to retrospectively review HDMM threshold levels based upon real target locations.

RESULTS

For 41 targets from 22 patients, the mean(standard deviation) and maximum target-to-nose displacement ratio was 0.54(0.32) and 1.65, respectively. On average, displacements typically exceed those of the nose only for coordinates at the most extreme peripheral corner of the investigated 3D grid of points. Allowing target displacement of up to a maximum of 0.8mm, retrospective review indicated that at the locations of the 41 targets a median(range) HDMM threshold of 1.4(1.0-1.9) mm could have been adopted, compared to our standard threshold of 1.0mm.

CONCLUSIONS

Intracranial targets typically displace by a magnitude around half that of the nose. Novel analysis to determine the spatial variation of target-to-nose displacement ratio suggests, for our 41 targets, HDMM threshold could have been increased from our standard. Cases for which HDMM threshold could be safely increased would minimise treatment gating events and expedite treatment delivery to offer patient comfort benefits.

摘要

方法

伽玛刀Icon™的高清运动管理(HDMM)系统在鼻标志物的分次内位移超过用户定义的阈值时会控制治疗的实施。一种先前在体模上验证过的方法用于将鼻标志物的分次内位移与患者靶区的位移相关联。此外,还进行了新的分析,以确定鼻标志物位移与整个立体定向空间中三维坐标网格位移之间的关系。该空间信息用于根据实际靶区位置回顾性地评估HDMM阈值水平。

结果

对于22例患者的41个靶区,平均(标准差)和最大靶区至鼻位移比分别为0.54(0.32)和1.65。平均而言,仅在研究的三维点网格最外围角落的坐标处,位移通常超过鼻的位移。允许最大0.8mm的靶区位移,回顾性评估表明,在41个靶区位置,与我们1.0mm的标准阈值相比,HDMM阈值中位数(范围)本可采用1.4(1.0 - 1.9)mm。

结论

颅内靶区的位移幅度通常约为鼻位移的一半。确定靶区至鼻位移比空间变化的新分析表明,对于我们的41个靶区,HDMM阈值本可高于我们的标准值。可以安全提高HDMM阈值的情况将减少治疗控制事件,并加快治疗实施,从而为患者带来舒适益处。

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