During
MI, a black screen was presented instead of animated videos. Auditory cues indicated the start of a new trial (every 2 sec). In addition, participants were asked to close their eyes during MI. They were instructed to focus their attention on their body and to imagine moving specific body parts as required by the task. In other words participants were instructed to use first-person ‘kinesthetic imagery’. In the AO + MI (b) and AO (c) conditions participants watched a video Everolimus in vitro displaying a person performing either the dynamic balance (i) or the static balance (ii) task (Fig. 1). In the AO + MI condition (b), participants were instructed to imagine themselves as the person in the video displayed in a mirror whereas in AO (c) they were instructed simply to watch the video. The person in the video was displayed as a mirror image because it has been proposed that imitation (Koski, Iacoboni, Dubeau, Woods, & Mazziotta, 2003) and observational learning (Higuchi, Holle, Roberts, Eickhoff, & Vogt, 2012) are facilitated by this kind of setup. Participants Pictilisib clinical trial assumed a supine position on the scanner bed and cushions were used to reduce head motion. Visual stimuli were presented on an LCD screen (32″ NNL
LCD Monitor, NordicNeuoLab, Bergen, Norway) with E-Prime 2.0 software (Psychology Software Tools, Inc., www.pstnet.com, PA, USA) at 60 Hz. Participants looked at the screen through a mirror system. The videos were presented with at a visual angle of 17° (vertical plane) and 9° (horizontal plane). The experiments were conducted using a 3T MRI scanner (Discovery MR750; GE Healthcare, Waukesha, Wisconsin USA) at the Fribourg hospital in Switzerland (www.h-fr.ch/). A 32-channel standard head coil was used for acquisition. High resolution T1-weighted anatomical scans were recorded in the coronal plane in an anterior direction (FSPGR BRAVO sequence;
voxel size = .86 × .86 × 1 mm, Abiraterone order number of slices = 220, repetition time (TR) = 7200 msec, echo time (TE) = 2.4 msec, flip angle = 9°). Functional T2*-weighted images were acquired using a Gradient Echo–Echo Planar Imaging (GE-EPI) sequence. The blood oxygenation level-dependent contrast (BOLD) (Kwong et al., 1992) was used as an index of local increases in brain activity. 140 dynamic volumes with axial acquisitions were recorded over the whole brain (voxel size = 1.875 × 1.875 × 3 mm, matrix size = 128 × 128, number of slices = 40; interleaved acquisition from the bottom to the top of the head, interslice spacing = .3, TR = 2500 msec, TE = 30 msec, flip angle = 85°; parallel imaging with an acceleration factor of 2) for each experimental session. In each run functional scanning was preceded by 7.5 sec of dummy scans to ensure steady-state tissue magnetization.