葡萄膜黑色素瘤的质子治疗：基于MRI的治疗计划与传统治疗计划的对比

Proton therapy of uveal melanomas: intercomparison of MRI-based and conventional treatment planning.

作者信息

Marnitz Simone, Cordini Dino, Bendl Rolf, Lemke Arne-Jörn, Heufelder Jens, Simiantonakis Ioannis, Kluge Heinz, Bechrakis Nikolaos E, Foerster Michael H, Hinkelbein Wolfgang

机构信息

Department of Radiooncology, Charité University Medicine, Berlin, Germany.

出版信息

Strahlenther Onkol. 2006 Jul;182(7):395-9. doi: 10.1007/s00066-006-1512-1.

DOI:10.1007/s00066-006-1512-1

PMID:16826358

Abstract

BACKGROUND AND PURPOSE

Proton therapy for uveal melanoma provides high-conformal dose application to the target volume and, thus, an optimal saving of the organs at risk nearby. Treatment planning is done with the model-based treatment-planning system EYEPLAN. Tumor reconstruction is based only on a fundus composite, which often leads to an overestimation of the clinical target volume (CTV). The purpose was to exploit MRI on trial in a proton therapy-planning system by using the novel image-based treatment-planning system OCTOPUS.

PATIENTS AND METHODS

Ten patients with uveal melanomas received both a high-resolution planning CT and MRI of the eye. MR examinations were made with an eye coil. EYEPLAN requires eye geometry data for modeling, and tantalum marker clips for submillimeter positioning and additional information from ultrasound and 3-D imaging. By contrast, OCTOPUS provides the full integration of 3-D imaging (e. g., CT, MRI). CTVs were delineated in each slice. For all patients, CTVs (EYEPLAN vs. OCTOPUS) were compared intraindividually.

RESULTS

OCTOPUS planning led to a mean reduction of the target volume by a factor of 1.7 (T1-weighted [T1w]) and 2.2 (T2w) without compromising safety. The corresponding field size could be scaled down on average by a factor of 1.2 (T1w) and 1.4 (T2w), respectively.

CONCLUSION

Compared with the conventional EYEPLAN, MRI-based treatment planning of ocular tumors with OCTOPUS could be a powerful tool for reducing the CTV and, consequently, the treatment volume and the field size. This might be translated into a better patient compliance during treatment and a decreased late toxicity.

摘要

背景与目的

质子治疗葡萄膜黑色素瘤可向靶区提供高适形剂量，从而最佳地保护附近的危及器官。治疗计划通过基于模型的治疗计划系统EYEPLAN完成。肿瘤重建仅基于眼底合成图像，这常常导致临床靶区（CTV）的高估。目的是通过使用新型的基于图像的治疗计划系统OCTOPUS，在质子治疗计划系统中试用磁共振成像（MRI）。

患者与方法

10例葡萄膜黑色素瘤患者接受了眼部的高分辨率计划CT和MRI检查。使用眼部线圈进行MR检查。EYEPLAN需要眼部几何数据进行建模，以及钽标记夹用于亚毫米定位，并需要超声和三维成像的额外信息。相比之下，OCTOPUS提供了三维成像（如CT、MRI）的完全整合。在每个层面勾画出CTV。对所有患者，对CTV（EYEPLAN与OCTOPUS）进行个体内比较。

结果

OCTOPUS计划导致靶区体积平均缩小1.7倍（T1加权[T1w]）和2.2倍（T2加权[T2w]），而不影响安全性。相应的射野大小平均可分别缩小1.2倍（T1w）和1.4倍（T2w）。

结论

与传统的EYEPLAN相比，使用OCTOPUS进行基于MRI的眼部肿瘤治疗计划可能是减少CTV的有力工具，从而减少治疗体积和射野大小。这可能转化为治疗期间更好的患者依从性和降低的晚期毒性。

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葡萄膜黑色素瘤的质子治疗：基于MRI的治疗计划与传统治疗计划的对比

Proton therapy of uveal melanomas: intercomparison of MRI-based and conventional treatment planning.

作者信息

机构信息

出版信息

BACKGROUND AND PURPOSE

PATIENTS AND METHODS

RESULTS

CONCLUSION

背景与目的

患者与方法

结果

结论

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