T1-weighted post-contrast images were used as anatomical guides for the segmentation of the regions of interest (ROIs). MRI was performed on a Siemens MAGNETOM Trio TIM 3.0 Tesla scanner (Siemens Medical Solutions, Malvern, Pennsylvania), a GE Signa HDxt 3.0 Tesla scanner (GE Medical Systems, Milwaukee, Wisconsin), or a Philips Achieva TX 3.0 Tesla scanner (Philips Medical Systems, Da Best, The Netherlands), using similar parameters on all scanners.
Magnetom trio tim 3.0 tesla scanner
Manufactured by Siemens
Sourced in Germany
The MAGNETOM Trio TIM 3.0 Tesla scanner is a magnetic resonance imaging (MRI) system manufactured by Siemens. It operates at a magnetic field strength of 3.0 Tesla and utilizes the Total imaging matrix (TIM) technology. The core function of this scanner is to generate high-resolution images of the human body for diagnostic and research purposes.
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Lab products found in correlation
4 protocols using magnetom trio tim 3.0 tesla scanner
1
Anatomical MRI Segmentation Protocol
2
Diagnostic MRI Protocols for AMT-PET Studies
3
Resting-state fMRI Acquisition and Preprocessing
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Data acquisition was performed on a Siemens MAGNETOM Tim Trio 3.0 Tesla scanner with a Siemens 12 channel head matrix coil (Erlangen, Germany) at Swinburne University of Technology, Australia. Padded foam cushions were used to minimize head movement throughout the scan. All participants were instructed to try to think about nothing in particular (i.e., a resting-state), remain awake, and fixate their gaze on a white crosshair displayed centrally on a black background.
A multiband echo-planar imaging sequence with an acceleration factor of 5 was used to acquire functional MRI data for 8 minutes 38 seconds, along the anterior commissure-posterior commissure (AC-PC) plane with A > P phase encode direction (voxel size = 2 × 2 x 2 mm; 65 slices; repetition time (TR) = 1020 ms; total volumes = 500, echo time (TE) = 30 ms; flip angle (FA) = 65°). A T1-weighted sagittal MPRAGE structural image (TR = 1900 ms, TE = 2.52 ms, FA = 9°, 176 slices; voxel size = 1 × 1 x 1 mm voxels) and T2-weighted image (TR = 3200 ms, TE = 402 ms, 176 slices; voxel size = 1 × 1 x 1 mm voxels) were also obtained for anatomical co-registration.
A multiband echo-planar imaging sequence with an acceleration factor of 5 was used to acquire functional MRI data for 8 minutes 38 seconds, along the anterior commissure-posterior commissure (AC-PC) plane with A > P phase encode direction (voxel size = 2 × 2 x 2 mm; 65 slices; repetition time (TR) = 1020 ms; total volumes = 500, echo time (TE) = 30 ms; flip angle (FA) = 65°). A T1-weighted sagittal MPRAGE structural image (TR = 1900 ms, TE = 2.52 ms, FA = 9°, 176 slices; voxel size = 1 × 1 x 1 mm voxels) and T2-weighted image (TR = 3200 ms, TE = 402 ms, 176 slices; voxel size = 1 × 1 x 1 mm voxels) were also obtained for anatomical co-registration.
4
Resting-State fMRI Acquisition at 3T
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Data acquisition was performed on a Siemens MAGNETOM Tim Trio 3.0 Tesla scanner with a Siemens 12 channel head matrix coil (Erlangen, Germany) at Swinburne University of Technology, Australia. Padded foam cushions were used to minimize head movement throughout the scan. All participants were instructed to try to think about nothing in particular (i.e., a resting-state), remain awake, and fixate their gaze on a white crosshair displayed centrally on a black background.
A multiband echo-planar imaging sequence with an acceleration factor of 5 was used to acquire functional MRI data for 8 minutes 38 seconds, along the anterior commissureposterior commissure (AC-PC) plane with A > P phase encode direction (voxel size = 2 x 2 x 2 mm; 65 slices; repetition time (TR) = 1020 ms; total volumes = 500, echo time (TE) = 30 ms; flip angle (FA) = 65°). A T1-weighted sagittal MPRAGE structural image (TR = 1900 ms, TE = 2.52 ms, FA = 9°, 176 slices; voxel size = 1 x 1 x 1mm voxels) and T2-weighted image (TR = 3200 ms, TE = 402 ms, 176 slices; voxel size = 1 x 1 x 1 mm voxels) were also obtained for anatomical co-registration.
A multiband echo-planar imaging sequence with an acceleration factor of 5 was used to acquire functional MRI data for 8 minutes 38 seconds, along the anterior commissureposterior commissure (AC-PC) plane with A > P phase encode direction (voxel size = 2 x 2 x 2 mm; 65 slices; repetition time (TR) = 1020 ms; total volumes = 500, echo time (TE) = 30 ms; flip angle (FA) = 65°). A T1-weighted sagittal MPRAGE structural image (TR = 1900 ms, TE = 2.52 ms, FA = 9°, 176 slices; voxel size = 1 x 1 x 1mm voxels) and T2-weighted image (TR = 3200 ms, TE = 402 ms, 176 slices; voxel size = 1 x 1 x 1 mm voxels) were also obtained for anatomical co-registration.
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