使用多个基准标记进行体模测量，以量化市售锥形束CT灰度值匹配算法的准确性。

Phantom measurements to quantify the accuracy of a commercially available cone-beam CT gray-value matching algorithm using multiple Fiducials.

作者信息

Köhler Frederick Marc, Boda-Heggemann Judit, Küpper Beate, Wolff Dirk, Wertz Hansjörg, Lohr Frank, Wenz Frederik

出版信息

Strahlenther Onkol. 2009 Jan;185(1):49-55. doi: 10.1007/s00066-009-1887-x. Epub 2009 Feb 18.

DOI:10.1007/s00066-009-1887-x

PMID:19224147

Abstract

PURPOSE

: To assess the accuracy of the gray-value matching algorithm (XVI, Elekta) when multiple iodine-125 ((125)I) seeds are used as fiducials.

MATERIAL AND METHODS

: A phantom, consisting of a plastic box filled with water-dense material containing about 50 dummy seeds, developed primarily as a manual-skill trainer for (125)I seed implantation was used (Figure 1). The phantom was scanned first with a planning CT (PCT) at a slice thickness of 1 mm, 3 mm and 5 mm and with cone-beam CT (CBCT) to be associated with each reference PCT. Matching was performed with the XVI gray-value algorithm. The isocenter was marked with external markers at PCT. After matching, residual error was determined as the difference between planned isocenter and the isocenter that would have been treated based on the matching process. The procedure was performed twice, once without any manipulation (Figure 2) and once with deformation of the seed-bearing dummy prostate by inserting a plug into the phantom aperture that mimics the rectum (Figure 3).

RESULTS

: For the undeformed phantom the maximal residual error regarding the isocenter after gray-value matching around the seed-bearing region was 0.0 mm in x, y and z directions in case of the PCT with 1 mm thickness. The range of residual error was 0-0.4 mm in case of the PCT with 3 mm and 0-0.8 mm in x, y and z directions in case of 5 mm slice thickness, respectively (Figure 4). For the deformed phantom similar results were obtained (maximum error: 1.1 mm).

CONCLUSION

: The residual error after seed-based matching regarding the phantom isocenter was < 1.1 mm in all cases and for the clinical situation (3 mm slice thickness) always < 0.4 mm. The algorithm is therefore appropriate for precision radiotherapy.

摘要

目的

评估当使用多个碘-125（¹²⁵I）种子作为基准标记时，灰度值匹配算法（XVI，医科达公司）的准确性。

材料与方法

使用一个模型，该模型由一个装满水致密材料的塑料盒组成，其中包含约50个模拟种子，主要作为¹²⁵I种子植入的手动技能训练器（图1）。首先用层厚为1mm、3mm和5mm的计划CT（PCT）以及锥束CT（CBCT）对模型进行扫描，以与每个参考PCT相关联。使用XVI灰度算法进行匹配。在PCT上用外部标记标记等中心。匹配后，将残余误差确定为计划等中心与基于匹配过程将被治疗的等中心之间的差值。该过程进行了两次，一次不进行任何操作（图2），一次通过在模拟直肠的模型孔中插入一个塞子使含种子的模拟前列腺变形（图3）。

结果

对于未变形的模型，在层厚为1mm的PCT情况下，在含种子区域周围进行灰度值匹配后，等中心在x、y和z方向上的最大残余误差为0.0mm。在层厚为3mm的PCT情况下，残余误差范围为0-0.4mm，在层厚为5mm的情况下，x、y和z方向上的残余误差范围分别为0-0.8mm（图4）。对于变形模型，也获得了类似的结果（最大误差：1.1mm）。

结论

在所有情况下，基于种子匹配后模型等中心的残余误差均<1.1mm，对于临床情况（层厚3mm），残余误差始终<0.4mm。因此，该算法适用于精确放疗。

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使用多个基准标记进行体模测量，以量化市售锥形束CT灰度值匹配算法的准确性。

Phantom measurements to quantify the accuracy of a commercially available cone-beam CT gray-value matching algorithm using multiple Fiducials.

作者信息

出版信息

PURPOSE

MATERIAL AND METHODS

RESULTS

CONCLUSION

目的

材料与方法

结果

结论

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