心肌灌注 SPECT/CT 中使用衰减校正、散射校正和分辨率恢复优化迭代重建参数。

Optimization of iterative reconstruction parameters with attenuation correction, scatter correction and resolution recovery in myocardial perfusion SPECT/CT.

机构信息

Department of Physics, Kanazawa Medical University, 1-1 Daigaku, Uchinada, Kahoku, Ishikawa, 920-0293, Japan,

出版信息

Ann Nucl Med. 2014 Jan;28(1):60-8. doi: 10.1007/s12149-013-0785-6. Epub 2013 Nov 9.

DOI:10.1007/s12149-013-0785-6

PMID:24214735

Abstract

OBJECTIVE

The aim of this study was to characterize the optimal reconstruction parameters for ordered-subset expectation maximization (OSEM) with attenuation correction, scatter correction, and depth-dependent resolution recovery (OSEMACSCRR). We assessed the optimal parameters for OSEMACSCRR in an anthropomorphic torso phantom study, and evaluated the validity of the reconstruction parameters in the groups of normal volunteers and patients with abnormal perfusion.

METHODS

Images of the anthropomorphic torso phantom, 9 normal volunteers and 7 patients undergoing myocardial perfusion SPECT were acquired with a SPECT/CT scanner. SPECT data comprised a 64×64 matrix with an acquisition pixel size of 6.6 mm. A normalized mean square error (NMSE) of the phantom image was calculated to determine both optimal OSEM update and a full width at half maximum (FWHM) of Gaussian filter. We validated the myocardial count, contrast and noise characteristic for clinical subjects derived from OSEMACSCRR processing. OSEM with depth-dependent resolution recovery (OSEMRR) and filtered back projection (FBP) were simultaneously performed to compare OSEMACSCRR.

RESULTS

The combination of OSEMACSCRR with 90-120 OSEM updates and Gaussian filter with 13.2-14.85 mm FWHM yielded low NMSE value in the phantom study. When we used OSEMACSCRR with 120 updates and Gaussian filter with 13.2 mm FWHM in the normal volunteers, myocardial contrast showed significantly higher value than that derived from 120 updates and 14.85 mm FWHM. OSEMACSCRR with the combination of 90-120 OSEM updates and 14.85 mm FWHM produced lowest % root mean square (RMS) noise. Regarding the defect contrast of patients with abnormal perfusion, OSEMACSCRR with the combination of 90-120 OSEM updates and 13.2 mm FWHM produced significantly higher value than that derived from 90-120 OSEM updates and 14.85 mm FWHM. OSEMACSCRR was superior to FBP for the % RMS noise (8.52±1.08 vs. 9.55±1.71, p=0.02) and defect contrast (0.368±0.061 vs. 0.327±0.052, p=0.01), respectively.

CONCLUSIONS

Clinically optimized the number of OSEM updates and FWHM of Gaussian filter were (1) 120 updates and 13.2 mm, and (2) 90-120 updates and 14.85 mm on the OSEMACSCRR processing, respectively. Further assessment may be required to determine the optimal iterative reconstruction parameters in a larger patient population.

摘要

目的

本研究旨在对有序子集期望最大化（OSEM）与衰减校正、散射校正和深度相关分辨率恢复（OSEMACSCRR）的最佳重建参数进行特征描述。我们评估了人体胸部模型研究中 OSEMACSCRR 的最佳参数，并在正常志愿者组和灌注异常患者组中评估了重建参数的有效性。

方法

采用 SPECT/CT 扫描仪对人体胸部模型、9 名正常志愿者和 7 名接受心肌灌注 SPECT 的患者进行图像采集。SPECT 数据采用 64×64 矩阵，采集像素大小为 6.6mm。通过计算体模图像的归一化均方误差（NMSE），确定 OSEM 更新的最佳数量和高斯滤波器的半峰全宽（FWHM）。我们验证了源自 OSEMACSCRR 处理的临床受试者的心肌计数、对比度和噪声特征。同时进行 OSEMRR 和滤波反投影（FBP）以比较 OSEMACSCRR。

结果

在体模研究中，OSEMACSCRR 与 90-120 次 OSEM 更新以及高斯滤波器 13.2-14.85mm FWHM 相结合，产生的 NMSE 值较低。当我们在正常志愿者中使用 OSEMACSCRR 进行 120 次更新和高斯滤波器 13.2mm FWHM 时，心肌对比度明显高于 120 次更新和 14.85mm FWHM 所得值。OSEMACSCRR 与 90-120 次 OSEM 更新和 14.85mm FWHM 相结合，可产生最低的 RMS 噪声%。对于灌注异常患者的缺陷对比度，OSEMACSCRR 与 90-120 次 OSEM 更新和 13.2mm FWHM 相结合，所得值明显高于 90-120 次 OSEM 更新和 14.85mm FWHM 所得值。与 FBP 相比，OSEMACSCRR 可分别降低 RMS 噪声（8.52±1.08 对 9.55±1.71，p=0.02）和缺陷对比度（0.368±0.061 对 0.327±0.052，p=0.01）。

结论

在 OSEMACSCRR 处理中，临床优化的 OSEM 更新次数和高斯滤波器的 FWHM 分别为（1）120 次和 13.2mm，（2）90-120 次和 14.85mm。可能需要进一步评估，以确定更大患者群体中的最佳迭代重建参数。

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心肌灌注 SPECT/CT 中使用衰减校正、散射校正和分辨率恢复优化迭代重建参数。

Optimization of iterative reconstruction parameters with attenuation correction, scatter correction and resolution recovery in myocardial perfusion SPECT/CT.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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