基于平方波检测器模块的静止自适应多针孔脑SPECT设计研究

Kesava S. Kalluri, Benjamin Auer, N. Zeraatkar, R. Richards, Micaehla May, Kimberly J. Doty, Maria Ruiz-Gonzalez, Neil C. Momsen, P. Kuo, L. Furenlid, Matt A. King
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摘要

AdaptiSPECT-C是一种自适应静态模块化多针孔(MPH)脑SPECT,由亚利桑那大学和马萨诸塞大学医学院开发,以满足静态和动态脑SPECT成像需求。ASC的显著特点包括使用可调针孔孔径来动态适应成像任务需求,改进闪烁体晶体边缘周围的光测量,以及使用深度传感(DS)相机实现的运动跟踪和衰减校正。为了与当前的双头商用(2HC) SPECT成像进行比较,目标系统在焦点处的空间分辨率为8 mm,我们报告了具有3环18.4 cm平面方形探测器模块的系统的孔径布局设计的研究。我们研究了与2HC相比,在每个模块使用1和5个孔径时,焦点处的灵敏度,以及通过调整探测器和焦点之间的孔径位置,辐照场的截断和复用程度的变化。对于每个模块有一个孔径且截断较小的系统,我们确定灵敏度为2HC的2.7倍;然而,使用4个倾斜孔径,轻微截断和适度复用,我们确定灵敏度为4.6倍,所有5个孔径导致显著复用,灵敏度为5.7倍。我们还通过模拟确定了Derenzo脑虚幻体棒的更好可视化,以及XCAT脑虚幻体在5针孔设计下的灌注分布,仅使用4个斜针孔。因此,我们认为这种每个检测器模块有5个针孔的设计是用于构建AdaptiSPECT-C系统的绝佳选择。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation of Designs for a Stationary Adaptive Multi-Pinhole Brain SPECT Employing Flat-Square Detector Modules
An adaptive-stationary-modular multi-pinhole (MPH) brain SPECT, AdaptiSPECT-C is being developed by the University of Arizona and University of Massachusetts Medical School to meet static and dynamic brain SPECT imaging needs. Salient features of the ASC include the use of adjustable pinhole apertures to dynamically adapt to imaging task needs, improved light measuring around the edge of the scintillator crystal, plus motion tracking and correction with attenuation correction enabled by usage of depth-sensing (DS)-cameras. For a target system spatial resolution of 8 mm at the focal point of the apertures, selected to enable comparison to current 2-headed commercial (2HC) SPECT imaging, we report investigation of aperture layout designs for a system with 3 rings of 18.4 cm flat square detector modules. We investigated sensitivity at the focal point in comparison to 2HC for usage of 1 versus 5 apertures per module, and variation in the extent of truncation and multiplexing of the irradiation fields by adjustment of the aperture location between the detector and focal point. For a system with one aperture per module and minor truncation we determined a sensitivity of 2.7x that of 2HC; whereas, with use of 4 oblique apertures with minor truncation and moderate multiplexing we determined the sensitivity was 4.6x, and with all 5 apertures resulting in significant multiplexing the sensitivity was 5.7x. We also determined through simulation better visualization of the rods of a Derenzo phantom, and perfusion distribution of XCAT brain phantom with the 5 pinhole design, using solely the 4 oblique pinholes. We thus believe that this design with 5 pinholes per detector module is an excellent candidate for use in construction of the AdaptiSPECT-C system.
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