经会阴间质性前列腺近距离放射治疗的MRI与ct植入后剂量分析比较。

J J Prete, B R Prestidge, W S Bice, D F Dubois, L A Hotchkiss
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引用次数: 50

摘要

这项工作的目的是研究最近开发的基于mri的植入后剂量分析技术用于超声引导经会阴间质永久性前列腺近距离放射治疗(TIPPB)与目前接受的基于ct的技术的比较。该研究基于15名接受125I或103Pd植入的患者的3毫米MRI和CT扫描。所有图像均于术后第1天及间隔1小时内获取。前列腺体积由同一位医生测定。将数据源数字化,并使用内部处理计划系统进行计算,该系统具有最近邻种子分类程序和AAPM TG43形式。对两组图像进行前列腺体积、几何源分布扩散(rcom)、剂量体积直方图(DVH)和肿瘤控制概率(TCP)计算。通过比较源扩散和处方等剂量体积来评估源定位的差异。通过前列腺特异性DVH和TCP比较来评估剂量学分析的差异。MRI摄护腺体积比CT平均大9.1% (R = 0.70)。计算rcom平均小-0.9 mm (R = 0.81)。处方剂量的80,90,100,150%等剂量体积平均差异分别为+2.5,+2.9,-2.9和+4.8% (R = 0.97, 0.98, 0.98和0.91)。处方剂量的80%、100%和150%所包围的前列腺体积百分比平均差异分别为-0.9、-0.9和-0.1% (R = 0.34、0.35和0.35)。TCP平均差异为-0.8% (R = 0.37)。本研究的结果进一步支持了我们最初的发现,即MRI可用于可靠地定位TIPPB的植入源。该研究还表明,基于mri的植入后剂量分析是可能的。然而,很明显,MRI和CT在前列腺定位上的差异会导致前列腺体积覆盖评估的显著差异。显然有必要进一步量化这两种成像方式在该应用中的差异,并解决基于MRI前列腺可视化的改进而更准确地描述剂量-体积关系是否会转化为与治疗结果的改善相关性。
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Comparison of MRI- and CT-based post-implant dosimetric analysis of transperineal interstitial permanent prostate brachytherapy.

The purpose of this work was to investigate how a recently developed MRI-based post-implant dosimetric analysis technique for ultrasound guided transperineal interstitial permanent prostate brachytherapy (TIPPB) compared with the currently accepted CT-based technique. The study was based upon 3-mm MRI and CT scans of 15 patients who had received either 125I or 103Pd implantation. All images were acquired on post-operative day 1 and within 1 hr of each other. Prostate volumes were determined by the same physician. Sources were digitized and calculations performed using an in-house treatment planning system with a nearest neighbor seed sorting routine and AAPM TG43 formalism. Prostate volume, geometric source distribution spread (rcom), dose volume histogram (DVH), and tumor control probability (TCP) calculations were performed from both image sets. Differences in source localization were evaluated by comparing source spread and prescription isodose volumes. Differences in dosimetric analysis were evaluated through prostate-specific DVH and TCP comparisons. Prostate volume as determined from MRI was larger than that of CT by an average of +9.1% (R = 0.70). Calculated rcom was smaller by an average of -0.9 mm (R = 0.81). Isodose volumes at 80, 90, 100, and 150% of the prescription dose differed by an average of +2.5, +2.9, -2.9, and +4.8%, respectively (R = 0.97, 0.98, 0.98, and 0.91). Percentage volume of the prostate encompassed by 80, 100, and 150% of the prescription dose differed by an average of -0.9, -0.9, and -0.1%, respectively (R = 0.34, 0.35, and 0.35). TCP differed by an average of -0.8% (R = 0.37). The results of this study further support our initial findings that MRI may be used to reliably localize the implanted sources for TIPPB. This study also demonstrated that MRI-based post-implant dosimetric analysis is possible. However, it is evident that differences in prostate localization from MRI to CT can result in significantly different assessments of prostate volume coverage. There is clearly a need to further quantify the differences between these two imaging modalities in this application and address whether greater accuracy in describing the dose-volume relationship based on improvements in visualization of the prostate gland from MRI will translate into improved correlation with treatment outcome.

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