论文信息 - Assessment of the performance of SPM analysis in PET neuroactivation studies : A Monte Carlo investigation

Assessment of the performance of SPM analysis in PET neuroactivation studies : A Monte Carlo investigation

Statistical parametric mapping (SPM) is now considered the gold standard both in clinical and research neuroimaging investigations. We investigate the feasibility of Monte Carlo simulations-based assessment of the sensitivity and specificity of SPM analysis in Positron Emission Tomography (PET) neuroactivation studies with respect to design parameters such as study size, activation/lesion localisation, intensity and size. Fifteen data sets were generated for different foci activation levels, and localizations using five spheres located within the digital Hoffman 3D brain phantom with diameters corresponding to 6 and 8 mm, close to the resolution limit of the ECAT ART PET scanner (CTI/Siemens). The five foci were defined in the thalamus (T), putamen (P), cingulate gyrus (CG), right frontal cortex (RFC) and the right supramarginal gyrus (RSG) covering different structures of particular interest in cognitive neuroscience. In addition, we carried out a coordinate search of the resulting maximum cluster, which was found to be close to 10 mm around the true value on the Talairach atlas.

[1] E. Hoffman,et al. 3-D phantom to simulate cerebral blood flow and metabolic images for PET , 1990 .

[2] E. Hoffman,et al. Calculation of positron range and its effect on the fundamental limit of positron emission tomography system spatial resolution. , 1999, Physics in medicine and biology.

[3] H. Zaidi,et al. An object-oriented Monte Carlo simulator for 3D cylindrical positron tomographs. , 1999, Computer methods and programs in biomedicine.

[4] S. Vandenberghe,et al. Assessing the Performance of SPM Analyses of Spect Neuroactivation Studies , 2000, NeuroImage.

[5] Christos Davatzikos,et al. Accuracy and Sensitivity of Detection of Activation Foci in the Brain via Statistical Parametric Mapping: A Study Using a PET Simulator , 2001, NeuroImage.

[6] Ignace Lemahieu,et al. Experimental Performance Assessment of SPM for SPECT Neuroactivation Studies Using a Subresolution Sandwich Phantom Design , 2002, NeuroImage.

[7] Habib Zaidi,et al. Assessment of the impact of model-based scatter correction on [18F]-FDG 3D brain PET in healthy subjects using statistical parametric mapping , 2003, NeuroImage.

[8] Charles C. Watson,et al. ECAT ART — a continuously rotating PET camera: Performance characteristics, initial clinical studies, and installation considerations in a nuclear medicine department , 2005, European Journal of Nuclear Medicine.