Sarah Wilby , Antonio De Stefano , Antony L. Palmer , Wojciech Polak , Petko Petkov , Andrea Bucchi
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引用次数: 0
摘要
低剂量率前列腺近距离放射治疗在MRI图像上准确识别针尖和种子位置是具有挑战性的。定位针尖位置的不确定性可能导致与计划坐标相比种子的错位。此外,在图像上建立真实种子位置的不确定性导致剂量分布的不确定性。在本研究中,我们设计了一种用于I-125种子和针尖检测和针尖图像畸变分析的新型幻像。这种假体利用一种凝胶来模拟核磁共振成像中的前列腺组织,以评估确定种子和针尖位置的不确定性。结果报告了IsoSeed (Bebig)来源,临床相关的种子安排,以及一种新型镍钛诺针。MRI序列的选择影响针尖和种子检测的准确性。当种子呈簇状时,在前列腺边界和与扫描仪长轴90˚时,这是最常见的。使用MRI金属伪影校正算法时,检测到的针尖位置始终低于实际位置(针尖平均为-2.3±1.5 mm (k = 2),p = 0.03)。我们已经展示了一个幻影的设计,可以同时定量评估种子和针尖的位置,以建立检测的准确性,或在MRI上存在伪影。
Detection accuracy of I-125 seeds and needle tips, in MRI prostate tissue mimicking material: Phantom design, fabrication, and testing
Accurately identifying needle tip and seed positions for low dose rate prostate brachytherapy on MRI images is challenging. Uncertainties in locating needle tip positions can lead to misplacement of seeds compared to planned coordinates. Furthermore uncertainty in establishing true seed positions on the images, leads to uncertainty in the dose distributions.
In this study, a novel phantom has been designed for the analysis of I-125 seed and needle tip detection and tip image distortion. The phantom utilises a gel that mimics prostate tissue in MRI, to evaluate the uncertainty in establishing seed and needle tip positions. Reults are reported for the IsoSeed (Bebig) source, in clinically relevant seed arrangements, and for a novel nitinol needle.
The choice of MRI sequence impacts the accuracy of detecting the needle tips and seeds. This is most prevelant when the seeds are in clusters, at the boundary of the prostate and at 90˚ to the long axis of the scanner. Detected needle tip position, when the MRI metal artefact correction algorithm was used, was measured consistently inferior to the actual position (mean tip at -2.3 ± 1.5 mm (k = 2), p = 0.03).
We have demonstrated the design of a phantom that can be used to quantitatively assess seed and needle tip positions simultaneously, to establish the accuracy of detection, or presence of artefacts on MRI.
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