前庭神经鞘瘤的立体定向放射外科治疗计划：3特斯拉磁共振成像在几何精度方面是否准确？

Stereotactic radiosurgery planning of vestibular schwannomas: Is MRI at 3 Tesla geometrically accurate?

作者信息

Schmidt M A, Wells E J, Davison K, Riddell A M, Welsh L, Saran F

机构信息

The Institute of Cancer Research, CR-UK & EPSRC Cancer Imaging Centre, The Royal Marsden NHS Foundation Trust, Sutton, UK.

Medical Physics, Royal Marsden NHS Foundation Trust, London, UK.

出版信息

Med Phys. 2017 Feb;44(2):375-381. doi: 10.1002/mp.12068.

DOI:10.1002/mp.12068

PMID:28019663

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5965671/

Abstract

PURPOSE

MRI is a mandatory requirement to accurately plan Stereotactic Radiosurgery (SRS) for Vestibular Schwannomas. However, MRI may be distorted due not only to inhomogeneity of the static magnetic field and gradients but also due to susceptibility-induced effects, which are more prominent at higher magnetic fields. We assess geometrical distortions around air spaces and consider MRI protocol requirements for SRS planning at 3 T.

METHODS

Hardware-related distortion and the effect of incorrect shimming were investigated with structured test objects. The magnetic field was mapped over the head on five volunteers to assess susceptibility-related distortion in the naso-oro-pharyngeal cavities (NOPC) and around the internal ear canal (IAC).

RESULTS

Hardware-related geometric displacements were found to be less than 0.45 mm within the head volume, after distortion correction. Shimming errors can lead to displacements of up to 4 mm, but errors of this magnitude are unlikely to arise in practice. Susceptibility-related field inhomogeneity was under 3.4 ppm, 2.8 ppm, and 2.7 ppm for the head, NOPC region and IAC region, respectively. For the SRS planning protocol (890 Hz/pixel, approximately 1 mm isotropic), susceptibility-related displacements were less than 0.5 mm (head), and 0.4 mm (IAC and NOPC). Large displacements are possible in MRI examinations undertaken with lower receiver bandwidth values, commonly used in clinical MRI. Higher receiver bandwidth makes the protocol less vulnerable to sub-optimal shimming. The shimming volume and the CT-MR co-registration must be considered jointly.

CONCLUSION

Geometric displacements can be kept under 1 mm in the vicinity of air spaces within the head at 3 T with appropriate setting of the receiver bandwidth, correct shimming and employing distortion correction.

摘要

目的

磁共振成像（MRI）是准确规划前庭神经鞘瘤立体定向放射外科治疗（SRS）的必要条件。然而，MRI可能会因静磁场和梯度的不均匀性以及磁化率诱导效应而发生畸变，在更高磁场下这种效应更为显著。我们评估气腔周围的几何畸变，并考虑3T场强下SRS规划的MRI协议要求。

方法

使用结构化测试对象研究硬件相关畸变和不正确匀场的影响。在五名志愿者头部绘制磁场，以评估鼻咽腔（NOPC）和内耳管（IAC）周围的磁化率相关畸变。

结果

畸变校正后，发现头部体积内与硬件相关的几何位移小于0.45mm。匀场误差可能导致高达4mm的位移，但在实际操作中不太可能出现这种程度的误差。头部、NOPC区域和IAC区域的磁化率相关场不均匀性分别低于3.4ppm、2.8ppm和2.7ppm。对于SRS规划协议（890Hz/像素，各向同性约1mm），磁化率相关位移小于0.5mm（头部）和0.4mm（IAC和NOPC）。在临床MRI常用的较低接收带宽值的MRI检查中可能会出现较大位移。较高的接收带宽使协议对次优匀场的敏感性降低。必须综合考虑匀场体积和CT-MR配准。

结论

通过适当设置接收带宽、正确匀场和采用畸变校正，在3T场强下头部气腔附近的几何位移可保持在1mm以内。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5cdc/5965671/d5bed53f4c48/MP-44-375-g001.jpg

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前庭神经鞘瘤的立体定向放射外科治疗计划：3特斯拉磁共振成像在几何精度方面是否准确？

Stereotactic radiosurgery planning of vestibular schwannomas: Is MRI at 3 Tesla geometrically accurate?

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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