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使用电子射野影像装置进行三维适形放疗时前列腺每日在线定位的技术要点。

Technical aspects of daily online positioning of the prostate for three-dimensional conformal radiotherapy using an electronic portal imaging device.

作者信息

Herman Michael G, Pisansky Thomas M, Kruse Jon J, Prisciandaro Joann I, Davis Brian J, King Bernard F

机构信息

Division of Radiation Oncology, Mayo Clinic, Rochester, MN 55905, USA.

出版信息

Int J Radiat Oncol Biol Phys. 2003 Nov 15;57(4):1131-40. doi: 10.1016/s0360-3016(03)00766-1.

DOI:10.1016/s0360-3016(03)00766-1
PMID:14575846
Abstract

PURPOSE

To develop a real-time electronic portal imaging device (EPID) procedure to identify intraprostatic gold markers and correct daily variations in target position during external beam radiotherapy for prostate cancer.

METHODS AND MATERIALS

Pretherapy electronic portal images (EPIs) were acquired with a small portion of the therapeutic 18-MV dose from an orthogonal pair of treatment fields. The position of the intraprostatic gold markers on the EPIs was aligned with that on the simulation digitally reconstructed radiographs. If the initial three-dimensional target displacement (3DI) exceeded 5 mm or rotations exceeded 3 degrees, the beam was realigned before the remainder of the dose was delivered. Field-only EPIs were then acquired for all fields and offline analysis was performed to determine the final 3D target placement (3DF).

RESULTS

Twenty patients completed protocol-specified treatment, and all markers were identified on 99.6% of the pretherapy EPIs. Overall, 53% of treatment fractions were realigned. The mean 3DI was 5.6 mm in all patients (range 3.7-9.3), and the mean 3DF was 2.8 mm (range 1.6-4.0), which was statistically significant (p < 0.001). Rotational corrections were made on 15% of treatments. Mean treatment duration was 1.4 min greater for protocol patients than for similar patients in whom localization was not performed.

CONCLUSIONS

Frequent field misalignment occurs when external fiducial marks are used for patient alignment. Misalignments can be readily and rapidly identified and corrected with an EPID-based online correction procedure that integrates commercially available equipment and software.

摘要

目的

开发一种实时电子射野影像装置(EPID)程序,以识别前列腺内金标记物,并在前列腺癌的外照射放疗期间校正靶区位置的每日变化。

方法和材料

通过从一对正交治疗野给予一小部分治疗性18兆伏剂量来获取治疗前电子射野影像(EPI)。将EPI上前列腺内金标记物的位置与模拟数字重建射线照片上的位置进行数字对齐。如果初始三维靶区位移(3DI)超过5毫米或旋转超过3度,则在给予其余剂量之前重新调整射束。然后获取所有射野的仅射野EPI,并进行离线分析以确定最终三维靶区放置(3DF)。

结果

20例患者完成了方案规定的治疗,并且在99.6%的治疗前EPI上识别出了所有标记物。总体而言,53%的治疗分次进行了重新调整。所有患者的平均3DI为5.6毫米(范围3.7 - 9.3),平均3DF为2.8毫米(范围1.6 - 4.0),差异具有统计学意义(p < 0.001)。15%的治疗进行了旋转校正。方案患者的平均治疗持续时间比未进行定位的类似患者长1.4分钟。

结论

当使用外部基准标记进行患者对准时,频繁出现射野未对准情况。使用基于EPID的在线校正程序,结合商用设备和软件,可以轻松快速地识别和校正未对准情况。

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