利用康普顿成像技术实时测量 BNCT 中的硼浓度

J. Lerendegui-Marco, J. Balibrea-Correa, P. Álvarez-Rodríguez, V. Babiano-Suárez, B. Gameiro, I. Ladarescu, C. Méndez-Malagón, C. Michelagnoli, I. Porras, M. Porras-Quesada, C. Ruiz-Ruiz, P. Torres-Sánchez, C. Domingo-Pardo
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摘要

由于中子与体内元素相互作用的间接效应以及临床实践中使用的硼化合物摄取量的不确定性,BNCT 的剂量测定面临着巨大挑战。目前的治疗计划依赖于从先前的 PET 扫描中得出的非传统的硼肿瘤摄取估计值,因此,在线硼摄取监测仪将非常方便。这项工作介绍了在ILL-格勒诺布尔利用高效康普顿相机i-TED进行的首次试点实验,旨在通过引入硼浓度的实时测量和空间剂量分布的成像功能,展示其在BNCT剂量测定中的适用性。在本实验中,我们测量了经双酚 A 处理(80~ppm 的^{10}$B)的舌鳞癌、恶性黑色素瘤和胶质母细胞瘤等不同癌细胞对^{10}$B 的吸收情况。用 ILL-Grenoble 的热中子能谱对样品进行辐照,并用康普顿成像仪和高灵敏度 FIPPS HPGearray 对中子-硼反应后^{7}$Li 去激发产生的 478keV $γ$射线进行登记。通过这一系列测量,我们展示了康普顿成像装置在这类应用中的成像能力,并评估了其灵敏度,发现其灵敏度低于 1 $m\$g of$^{10}$B 。
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Real-Time Boron Concentration Measurement in BNCT Using Compton Imaging
Dosimetry in BNCT poses significant challenges due to the indirect effect of neutrons interacting with elements within the body and uncertainties associated with the uptake of boron compounds used in clinical practice. Current treatment planning relies on unconventional estimates of boron tumor uptake derived from prior PET scans and thus, an online boron-uptake monitor would be highly convenient. This work presents the first pilot experiments carried out at ILL-Grenoble with the high-efficiency Compton camera i-TED, hereby aiming at demonstrating its applicability for BNCT dosimetry by introducing real-time measurement of the boron concentration and imaging capabilities of spatial dose distribution. In this experiment, we measured the $^{10}$B uptake of different cancer cells of tongue squamous cell carcinoma, malignant melanoma and glioblastoma treated with BPA (80~ppm of $^{10}$B). The samples were irradiated with the thermal neutron spectrum of ILL-Grenoble and the 478keV $\gamma$-rays from the $^{7}$Li de-excitation after the neutron-boron reaction were registered both with the Compton imager and the high-sensitivity FIPPS HPGe array. These series of measurements allowed us to demonstrate the imaging capabilities of the Compton imaging device for this type of application, as well as to assess its sensitivity, which was found to be below 1 $\mu$g of $^{10}$B.
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