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用于I-123心脏单光子发射计算机断层扫描成像的优化采集与处理方案

Optimized acquisition and processing protocols for I-123 cardiac SPECT imaging.

作者信息

Chen Ji, Garcia Ernest V, Galt James R, Folks Russell D, Carrio Ignasi

机构信息

Department of Radiology, Emory University School of Medicine, Atlanta, GA 30322, USA.

出版信息

J Nucl Cardiol. 2006 Mar-Apr;13(2):251-60. doi: 10.1007/BF02971250.

DOI:10.1007/BF02971250
PMID:16580962
Abstract

BACKGROUND

Deconvolution of septal penetration (DSP) has been developed to improve quantification so as to allow the use of low-energy high-resolution collimators for iodine 123 cardiac single photon emission computed tomography (SPECT) imaging. The purpose of this study is to optimize its acquisition and processing protocols.

METHODS AND RESULTS

Planar images of a 9-compartment phantom loaded with variable radioactive concentrations were acquired to derive optimal scatter compensation scaling factors for 20% and 15% photopeak energy window configurations, respectively. A cardiac phantom, loaded with high and low heart-to-calibration ratios (HCRs), respectively, was imaged with both configurations. Repeated acquisitions were done for medium-energy all-purpose collimators for comparison. Critical frequencies for Butterworth filtering were optimized by use of defect contrast and normal short-axis uniformity as selection indices. HCRs were calculated with planar projection and different reconstruction methods, respectively, and then compared with the true HCRs. SPECT produced more accurate HCRs than planar imaging. With the optimized parameters for scatter compensation and filtering, the 2 energy window configurations yielded similar results. Iterative reconstructions with DSP yielded more accurate HCRs than other reconstructions without DSP.

CONCLUSION

The optimized protocols based on DSP show promise that quantification of I-123 cardiac SPECT imaging can be achieved with the widely available low-energy high-resolution collimators.

摘要

背景

已开发出间隔穿透反卷积(DSP)技术以改善定量分析,从而能够在碘123心脏单光子发射计算机断层扫描(SPECT)成像中使用低能高分辨率准直器。本研究的目的是优化其采集和处理方案。

方法与结果

采集了装有不同放射性浓度的9区模型的平面图像,分别得出20%和15%光电峰能量窗配置的最佳散射补偿比例因子。分别用这两种配置对装有高和低心脏校准比(HCR)的心脏模型进行成像。对中能通用准直器进行重复采集以作比较。以缺损对比度和正常短轴均匀性作为选择指标,优化巴特沃斯滤波的临界频率。分别用平面投影和不同的重建方法计算HCR,然后与真实HCR进行比较。SPECT生成的HCR比平面成像更准确。采用优化的散射补偿和滤波参数时,两种能量窗配置产生相似的结果。与其他未使用DSP的重建方法相比,使用DSP的迭代重建产生的HCR更准确。

结论

基于DSP的优化方案显示出有望使用广泛可得的低能高分辨率准直器实现碘123心脏SPECT成像的定量分析。

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