基于ct模拟器的近距离治疗计划:种子定位和生物学考虑的结合。

R Mayer, W Fong, T Frankel, S Simons, L Kleinberg, D J Lee
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引用次数: 2

摘要

辐射剂量的处方、解释和规划在近距离治疗中可能存在问题,因为空间异质性高,剂量率变化多样,受影响组织缺乏叠加计算的等剂量分布,以及缺乏剂量体积直方图。一种新的治疗计划已经开发出来,以减少这些限制在近距离治疗计划。基于pc的规划系统使用ct模拟器对患者进行顺序扫描,生成正交图像(定位种子位置),然后对患者进行轴向扫描。这种顺序扫描程序避免使用多个独立的患者扫描、模板、外部框架或基准标记来将重建的种子位置与患者轮廓注册。将活性分配给(低剂量率)Ir192、线性Cs137或I125种子或将停留时间(高剂量率)分配给Ir192源后,计算剂量。平面等剂量分布叠加在图像重建后的组织轴状、冠状或矢状视图上。治疗计划计算(1)单个组织的直接和累积体积剂量直方图,(2)单个组织内剂量分布的平均值、标准差和偏度系数,(3)给定放射治疗的平均(在所有组织像素上)生存概率(S)和平均生存剂量DASD,(4)传递到给定组织的正常组织并发症概率(NTCP)。所有四个计算量都说明了剂量不均匀性。这些基于实验室研究的辐射生物学反应的估计可能有助于指导在许多治疗地点进行的回顾性和前瞻性临床研究中对规定的低剂量率或高剂量率治疗的评估。
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CT-simulator based brachytherapy planner: seed localization and incorporation of biological considerations.

Radiation dose prescription, interpretation, and planning can be problematic for brachytherapy due to high spatial heterogeneity, varying and various dose rates, absence of superimposed calculated isodose distributions onto affected tissues, and lack of dose volume histograms. A new treatment planner has been developed to reduce these limitations in brachytherapy planning. The PC-based planning system uses a CT-simulator to sequentially scan the patient to generate orthogonal images (to localize seed positions) and subsequently axially scan the patient. This sequential scanning procedure avoids using multiple independent patient scans, templates, external frames, or fiducial markers to register the reconstructed seed positions with patient contours. Dose is computed after assigning activity to (low dose rate) Ir192, linear Cs137, or I125 seeds or dwell times (high dose rate) to the Ir192 source. The planar isodose distribution is superimposed onto axial, coronal, or sagittal views of the tissues following image reconstruction. The treatment plan computes (1) direct and cumulative volume dose histograms for individual tissues, (2) the average, standard deviation, and coefficient of skewness of the dose distribution within individual tissues, (3) an average (over all tissue pixels) survival probability (S) and average survival dose DASD for a given radiation treatment, (4) normal tissue complication probability (NTCP) delivered to a given tissue. All four computed quantities account for dose heterogeneity. These estimates of the biological response to radiation from laboratory-based studies may help guide the evaluation of the prescribed low- or high-dose rate therapy in retrospective and prospective clinical studies at a number of treatment sites.

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