Eberl S, Kanno I, Fulton R R, Ryan A, Hutton B F, Fulham M J
PET Department, Royal Prince Alfred Hospital, Sydney, Australia.
J Nucl Med. 1996 Jan;37(1):137-45.
We report the extended application of an automated computer technique for three-dimensional spatial registration of SPECT and PET studies.
The technique iteratively reslices a misaligned data set until the sum of the absolute differences (SAD) from a reference data set is minimized. The registration accuracy was assessed in Hoffman brain phantom studies collected with known misalignments and transmission studies of a thorax phantom with fiducial markers. The SAD was compared with three other cost functions: stochastic sign change criterion, sum of products and standard deviation (s.d.) of ratios. In clinical neurological and myocardial perfusion studies, registration accuracy was estimated from the relative locations of landmarks in the reference and registered data sets.
Registration accuracy in the Hoffman brain phantom studies was -0.07 +/- 0.46 mm (mean +/- s.d.) for translations and -0.01 +/- 0.20 degrees for rotations, with maximum translation and rotation errors of 1.2 mm and 0.8 degree, respectively. The SAD was the most accurate and reliable cost function. Registration errors in the thorax phantom were 3.1 +/- 1.7 mm. Mean accuracy in the neurological studies, estimated from landmark pairs, was 2.0 +/- 1.1 mm for SPECT to SPECT and 1.8 +/- 1.1 mm for PET to SPECT registrations. Average registration accuracy in 201Tl myocardial perfusion studies was 2.1 +/- 1.2 mm.
Our registration method (a) provided accurate registrations for phantom and clinical SPECT and PET studies, (b) is fully automated, (c) simplifies comparison of data sets obtained at different times and with different modalities, and (d) can be applied retrospectively.
我们报告了一种用于单光子发射计算机断层扫描(SPECT)和正电子发射断层扫描(PET)研究的三维空间配准的自动化计算机技术的扩展应用。
该技术对未对齐的数据集进行迭代重切片,直到与参考数据集的绝对差之和(SAD)最小化。在使用已知错位收集的霍夫曼脑模型研究以及带有基准标记的胸部模型的透射研究中评估配准精度。将SAD与其他三个代价函数进行比较:随机符号变化准则、乘积之和以及比率的标准差(s.d.)。在临床神经学和心肌灌注研究中,根据参考数据集和配准数据集中标志物的相对位置估计配准精度。
霍夫曼脑模型研究中的配准精度,平移为-0.07±0.46毫米(平均值±标准差),旋转为-0.01±0.20度,最大平移和旋转误差分别为1.2毫米和0.8度。SAD是最准确和可靠的代价函数。胸部模型中的配准误差为3.1±1.7毫米。根据标志物对估计的神经学研究中的平均精度,SPECT到SPECT配准为2.0±1.1毫米,PET到SPECT配准为1.8±1.1毫米。在铊-201心肌灌注研究中的平均配准精度为2.1±1.2毫米。
我们的配准方法(a)为模型和临床SPECT及PET研究提供了准确的配准,(b)是完全自动化的,(c)简化了在不同时间和使用不同模式获得的数据集的比较,并且(d)可以进行回顾性应用。
