F. Breithuth, J. Schiefer, M. Arn, S. Peters, W. Seelentag
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引用次数: 3
摘要
其目的是开发和测试一种使用电子二维探测器阵列(2D阵列)测量后载系统源位置的技术。使用了“GammaMed plus IX”高剂量率后装装置(Varian Medical Systems, Palo Alto, USA)和Seven29 2D探测器阵列(PTW Freiburg GmbH, Freiburg, Germany)。一空心针已连接到后装装置。外径3.0 mm,长约220mm。将14毫米厚的有机玻璃板固定在二维阵列上的可重复位置。在所述第14排探测器上方,在所述平板上切割一凹槽,该凹槽将所述空心针置于相对于所述二维阵列的固定位置。为了确定源的位置,对第14排探测器的信号进行了评估。一个理论曲线取决于源的位置和强度,已拟合到采集的探测器信号。研究表明,测量技术的再现性——包括源位置的再现性——在0.15mm以内。该方法不仅可以代替胶片测量,而且精度更高,耗时更短。
Determination of the source dwell position of an afterloading device with a detector array
It was the aim to develop and test a measurement technique for the source position of an afterloading system using an electronic two-dimensional detector array (2D array). A "GammaMed plus IX" high dose rate afterloading device (Varian Medical Systems, Palo Alto, USA), and a Seven29 2D detector array (PTW Freiburg GmbH, Freiburg, Germany) have been used. A hollow needle has been connected to the afterloading device. Its outer diameter is 3.0 mm and its length about 220mm. A 14 mm thick Perspex slab was fixed in a reproducible position on the 2D array. Above the 14th detector row, a groove was cut in the slab which accommodates the hollow needle in a fixed position relative to the 2D array. In order to define the position of the source, the signals of the detectors in the 14th detector row have been evaluated. A theoretical curve depending on the source position and strength, has been fitted to the acquired detector signals. It has been shown that the reproducibility of the measurement technique - including the reproducibility of the source placement - was within 0.15mm. This method can not only replace film measurements, it is also more exact and less time consuming.
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