The contaminated volumes were detected by the criteria FD > 0.5 mm or RMSD > 0.3%. Identified contaminated volumes were replaced with new volumes generated by linear interpolation of adjacent volumes. Volume replacement was done before band-pass filtering (Carp 2013). Figure 3 Flowchart of the fMRI data analysis in subject’s native space. The thick triple line shows the flow of the fMRI data. The motion-corrected signals were passed through a #Dasatinib Src inhibitor keyword# band-pass technical support filter with the cut-off

frequencies of 0.01 and 0.08 Hz. This band-pass filter has three functions: First, it is an antialiasing filter to remove aliasing due to 0.5 Hz sampling of the BOLD signal; second, it eliminates the higher frequency (>0.1 Hz) fluctuations of the BOLD signal that are mainly a reflection of respiration signal modulated by heartbeat signal; third, it removes the high-power low-frequency noise (the Inhibitors,research,lifescience,medical power spectrum of the noise is related to the frequency by 1/f factor). We used flsmaths–bptf to do the filtering in this study (Jenkinson et al. 2012). After filtering, the first few volumes were discarded due to the lag of the digital filter. Anecdotal observations in our division showed that digital filter lags (almost the same as the order of the filter) often induce minor correlations Inhibitors,research,lifescience,medical between the signals. Finally, we residualized

the motion-corrected, scrubbed, and temporally filtered volumes by regressing out the FD, RMSD, left and right hemisphere white matter, and lateral ventricular signals (Birn et al. 2006). We expected that volume scrubbing would effectively remove Inhibitors,research,lifescience,medical sudden but large movements of the head and that subsequent residualization would further remove the effect of steady but small motion of the head often found in older subjects due to respiration or tremor. FMRI analysis Inhibitors,research,lifescience,medical in native space Figure 3

presents the flowchart of the processes in our native space method. T1 image segmentation and parcellation were done by FreeSurfer. The FreeSurfer segmentation and parcellation results were then transferred to the subject’s native space. A separate mask was generated for every segmented subcortical and parcellated cortical region for each subject. Intermodal, intrasubject, rigid-body registration of Drug_discovery fMRI reference image and T1 scan is a challenging task. We examined three intermodal registration methods, FMRIB’s linear image registration tool (FLIRT) (Jenkinson et al. 2012), boundary-based registration (BBR) (Greve and Fischl 2009), and advanced normalization tools (ANTS) (Avants et al. 2011), for 10 randomly selected subjects in our data set. Visual inspection showed that the results of FLIRT and BBR algorithms are very similar and outperform ANTS. Even though BBR algorithm claims to be robust to B0 field inhomogeneity (Greve and Fischl 2009), FLIRT performance was slightly better than BBR in registering the two modalities.