基于磁共振成像的宫颈癌近距离后装治疗中剂量优化的潜力。

Potential of dose optimisation in MRI-based PDR brachytherapy of cervix carcinoma.

作者信息

De Brabandere Marisol, Mousa Amr Gaber, Nulens An, Swinnen Ans, Van Limbergen Erik

机构信息

Department of Radiation Oncology, University Hospital Leuven, Belgium.

出版信息

Radiother Oncol. 2008 Aug;88(2):217-26. doi: 10.1016/j.radonc.2007.10.026. Epub 2007 Nov 26.

DOI:10.1016/j.radonc.2007.10.026

PMID:18037524

Abstract

BACKGROUND AND PURPOSE

In this study on PDR treatment planning of utero-vaginal carcinoma, we analysed the dosimetry of traditional X-ray based plans as it presents on MR images. The potential gain of MRI-based dose optimisation was assessed.

PATIENTS AND METHODS

Sixteen patients boosted with PDR brachytherapy after external beam therapy were included. The clinical X-ray based plans were projected on MR images. The GTV, HR-CTV and IR-CTV were retrospectively contoured, as well as the bladder, rectum and sigmoid colon. The dose in the critical organs and target coverage was investigated. In a second phase, the plans were manually optimised using the MR information. The objectives were to lower the dose in the critical organs (<or= 85 Gy(alphabeta3) for bladder, <or= 75 Gy(alphabeta3) for rectum and sigmoid colon) and to increase the HR-CTV dose to D90 >or= 85 Gy(alphabeta10).

RESULTS

In the X-ray based plans, D(2cc) in bladder and sigmoid colon exceeded the tolerance doses in 10/16 and 7/16 patients, respectively. Coverage of the IR-CTV with the 60 Gy(alphabeta10) was acceptable. D90 of the HR-CTV was below 85 Gy(alphabeta10) in 13 out of 16 patients. After optimisation, the dose constraints in the OAR were not exceeded anymore in any patient. The average D(2cc) dose reduction was 7+/-6 Gy(alphabeta3) in the bladder and 7+/-4 Gy(alphabeta3) in the sigmoid colon for those patients in which the dose constraint was initially exceeded. In addition, an average dose increase of 3 Gy(alphabeta10) was accomplished in the HR-CTV.

CONCLUSIONS

MRI-based dose optimisation can play an important role to reduce the dose delivered to the critical organs and to improve target coverage.

摘要

背景与目的

在这项关于子宫阴道癌近距离后装治疗计划的研究中，我们分析了基于传统X线的计划在磁共振成像（MRI）上的剂量学表现，并评估了基于MRI的剂量优化的潜在获益。

患者与方法

纳入16例接受外照射放疗后行近距离后装治疗的患者。将基于临床X线的计划投影到MRI图像上。回顾性勾画大体肿瘤体积（GTV）、高危临床靶体积（HR-CTV）和低危临床靶体积（IR-CTV），以及膀胱、直肠和乙状结肠。研究关键器官的剂量和靶区覆盖情况。在第二阶段，利用MRI信息手动优化计划。目标是降低关键器官的剂量（膀胱≤85 Gy（α/β = 3），直肠和乙状结肠≤75 Gy（α/β = 3）），并将HR-CTV的剂量提高至D90≥85 Gy（α/β = 10）。

结果

在基于X线的计划中，膀胱和乙状结肠的D（2cc）分别在10/16和7/16的患者中超过耐受剂量。IR-CTV接受60 Gy（α/β = 10）的覆盖情况尚可。16例患者中有13例HR-CTV的D90低于85 Gy（α/β = 10）。优化后，所有患者均未再超过危及器官的剂量限制。对于最初剂量限制被超过的患者，膀胱的平均D（2cc）剂量降低了7±6 Gy（α/β = 3），乙状结肠降低了7±4 Gy（α/β = 3）。此外，HR-CTV的平均剂量增加了3 Gy（α/β = 10）。

结论

基于MRI的剂量优化在降低关键器官所接受的剂量以及改善靶区覆盖方面可发挥重要作用。

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基于磁共振成像的宫颈癌近距离后装治疗中剂量优化的潜力。

Potential of dose optimisation in MRI-based PDR brachytherapy of cervix carcinoma.

作者信息

机构信息

出版信息

BACKGROUND AND PURPOSE

PATIENTS AND METHODS

RESULTS

CONCLUSIONS

背景与目的

患者与方法

结果

结论

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