使用阳性对比剂磁共振成像标记物进行永久性前列腺近距离放射治疗植入后磁共振成像剂量测定
Permanent prostate brachytherapy postimplant magnetic resonance imaging dosimetry using positive contrast magnetic resonance imaging markers.
作者信息
Martin Geoffrey V, Pugh Thomas J, Mahmood Usama, Kudchadker Rajat J, Wang Jihong, Bruno Teresa L, Bathala Tharakeswara, Blanchard Pierre, Frank Steven J
机构信息
Department of Radiation Oncology, The University of Texas MD Anderson Cancer Center, Houston, TX.
Department of Radiation Oncology, University of Colorado, Aurora, CO.
出版信息
Brachytherapy. 2017 Jul-Aug;16(4):761-769. doi: 10.1016/j.brachy.2017.04.004. Epub 2017 May 10.
PURPOSE
Permanent prostate brachytherapy dosimetry using computed tomography-magnetic resonance imaging (CT-MRI) fusion combines the anatomic detail of MRI with seed localization on CT but requires multimodality imaging acquisition and fusion. The purpose of this study was to compare the utility of MRI only postimplant dosimetry to standard CT-MRI fusion-based dosimetry.
METHODS AND MATERIALS
Twenty-three patients undergoing permanent prostate brachytherapy with use of positive contrast MRI markers were included in this study. Dose calculation to the whole prostate, apex, mid-gland, and base was performed via standard CT-MRI fusion and MRI only dosimetry with prostate delineated on the same T2 MRI sequence. The 3-dimensional (3D) distances between seed positions of these two methods were also evaluated. Wilcoxon-matched-pair signed-rank test compared the D90 and V100 of the prostate and its sectors between methods.
RESULTS
The day 0 D90 and V100 for the prostate were 98% versus 94% and 88% versus 86% for CT-MRI fusion and MRI only dosimetry. There were no differences in the D90 or V100 of the whole prostate, mid-gland, or base between dosimetric methods (p > 0.19), but prostate apex D90 was high by 13% with MRI dosimetry (p = 0.034). The average distance between seeds on CT-MRI fusion and MRI alone was 5.5 mm. After additional automated rigid registration of 3D seed positions, the average distance between seeds was 0.3 mm, and the previously observed differences in apex dose between methods was eliminated (p > 0.11).
CONCLUSIONS
Permanent prostate brachytherapy dosimetry based only on MRI using positive contrast MRI markers is feasible, accurate, and reduces the uncertainties arising from CT-MRI fusion abating the need for postimplant multimodality imaging.
目的
使用计算机断层扫描 - 磁共振成像(CT - MRI)融合技术进行永久性前列腺近距离治疗剂量测定,将MRI的解剖细节与CT上的种子定位相结合,但需要多模态成像采集和融合。本研究的目的是比较仅使用MRI进行植入后剂量测定与基于标准CT - MRI融合的剂量测定的效用。
方法和材料
本研究纳入了23例使用阳性对比MRI标记物进行永久性前列腺近距离治疗的患者。通过标准CT - MRI融合和仅使用MRI剂量测定法对整个前列腺、尖部、腺体中部和底部进行剂量计算,前列腺在相同的T2 MRI序列上进行勾画。还评估了这两种方法种子位置之间的三维(3D)距离。Wilcoxon配对符号秩检验比较了两种方法之间前列腺及其各部分的D90和V100。
结果
前列腺的第0天D90和V100,CT - MRI融合法分别为98%和88%,仅使用MRI剂量测定法分别为94%和86%。剂量测定方法之间,整个前列腺、腺体中部或底部的D90或V100没有差异(p>0.19),但仅使用MRI剂量测定法时前列腺尖部D90高13%(p = 0.034)。CT - MRI融合和仅MRI上种子之间的平均距离为5.5毫米。在对3D种子位置进行额外的自动刚性配准后,种子之间的平均距离为0.3毫米,并且消除了之前观察到的两种方法在尖部剂量上的差异(p>0.11)。
结论
仅基于使用阳性对比MRI标记物的MRI进行永久性前列腺近距离治疗剂量测定是可行、准确的,并且减少了CT - MRI融合产生的不确定性,从而无需植入后多模态成像。
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