放射治疗计划中磁共振图像畸变的相关方面。

Aspects of MR image distortions in radiotherapy treatment planning.

作者信息

Fransson A, Andreo P, Pötter R

机构信息

Department of Radiotherapy and Radiation Biology, University Hospital-AKH, Vienna, Austria.

出版信息

Strahlenther Onkol. 2001 Feb;177(2):59-73. doi: 10.1007/pl00002385.

DOI:10.1007/pl00002385

PMID:11233837

Abstract

BACKGROUND

Registration of computed tomography (CT) and magnetic resonance (MR) images are commonly performed to define the different target regions used in radiotherapy treatment planning (RTTP). The accuracy of target definition will then depend on the spatial accuracy of the CT and MR data, and on the technique used to register the images. CT images are usually regarded as geometrically correct, while MR images are known to suffer from geometric distortion. The aim of this paper is to discuss the possible impact of MR image distortions in the radiotherapy treatment planning process.

METHODS

The origin, magnitude, and relative impact of the different sources of geometric distortions that affect the MR image data at different magnetic fields and for different acquisition settings are described. Techniques for distortion correction are reviewed, and their limitations are outlined. The sensitivity of image registration techniques to the presence of geometric distortions in the MR data is discussed. Finally, an overview of image registration techniques used and results obtained in clinical radiotherapy treatment planning applications is given.

RESULTS

Spatial distortions in MR images vary with field strength and with the image acquisition protocol. The spatial accuracy generally decreases with distance from the magnet isocenter. Distortion correction techniques based on phantom evaluations cannot adequately model patient-induced distortions.

CONCLUSION

Image protocols with high gradient bandwidths should be used to reduce the spatial distortions in MR images. Correction techniques based only on phantom measurements could be sufficient at low magnetic fields, while at higher fields additional corrections of patient-related distortions might be needed. Registration techniques based on matching of Landmark points located far from the magnet isocenter are especially prone to MR distortions.

摘要

背景

计算机断层扫描（CT）与磁共振（MR）图像配准常用于确定放射治疗计划（RTTP）中使用的不同靶区。靶区定义的准确性将取决于CT和MR数据的空间准确性以及用于图像配准的技术。CT图像通常被认为在几何上是正确的，而MR图像则存在几何失真。本文旨在探讨MR图像失真在放射治疗计划过程中可能产生的影响。

方法

描述了在不同磁场和不同采集设置下影响MR图像数据的不同几何失真源的起源、大小和相对影响。回顾了失真校正技术，并概述了其局限性。讨论了图像配准技术对MR数据中几何失真的敏感性。最后，给出了临床放射治疗计划应用中使用的图像配准技术和获得的结果的概述。

结果

MR图像中的空间失真随场强和图像采集协议而变化。空间准确性通常随着与磁体等中心距离的增加而降低。基于体模评估的失真校正技术无法充分模拟患者引起的失真。

结论

应使用具有高梯度带宽的图像协议来减少MR图像中的空间失真。仅基于体模测量的校正技术在低磁场下可能就足够了，但在高磁场下可能需要对与患者相关的失真进行额外校正。基于远离磁体等中心的地标点匹配的配准技术特别容易受到MR失真的影响。

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放射治疗计划中磁共振图像畸变的相关方面。

Aspects of MR image distortions in radiotherapy treatment planning.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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