The experimental protocol consisted of an event-related interleaved design. A Siemens Magnetom Trio 3T whole body MRI scanner and a 12-channel head coil were used at the Centre for Integrative Neuroscience and Neurodynamics at the University of Reading. 3T-weighted echo planar imaging slices were acquired every 2 s (repetition time 2 s). Thirty-six axial slices with in-plane resolution of 3×3 mm and between-plane spacing of 3 mm were obtained. The matrix size was 64×64, and the field of view was 192×192 mm. Acquisition was carried out during the task performance yielding, on average, 1130 volumes in total. A whole-brain 3T-weighted echo planar imaging volume of the above dimensions and an anatomic T1 volume with axial plane slice thickness of 1 mm and in-plane resolution of 1×1 mm were also acquired.
Magnetom trio 3t whole body mri scanner
Manufactured by Siemens
The Magnetom Trio 3T whole body MRI scanner is a magnetic resonance imaging (MRI) system designed for whole-body imaging. It operates at a field strength of 3 Tesla, providing high-resolution imaging capabilities. The core function of the Magnetom Trio 3T is to acquire detailed images of the human body for diagnostic and research purposes.
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4 protocols using magnetom trio 3t whole body mri scanner
1
Functional MRI Brain Imaging Protocol
2
High-Resolution Functional MRI Acquisition
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An event-related interleaved design and Siemens Magnetom Trio 3T whole-body MRI scanner and a 32-channel head coil were used. Multiband accelerated pulse sequencing (version no. RO12, Center for Magnetic Resonance Research, University of Minnesota, USA, EPI 2D BOLD/SE/DIFF Sequence) was used with an acceleration factor of six. T2*-weighted echo planner imaging slices were obtained every 0.7 s (repetition time). Fifty-four axial slices with in-plane resolution of 2.4 × 2.4 mm and between-plane spacing of 2.4 mm were attained. The matrix size was 96 × 96 and the field of view was 230 × 230 mm. Acquisition therefore was ~3500 volumes. An anatomical T1 volume with sagittal plane slice thickness of 1 mm and in-plane resolution of 1.0 × 1.0 mm was also acquired.
3
Functional MRI Acquisition Protocol for Neuroimaging
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The experimental protocol consisted of an event-related interleaved design. A Siemens Magnetom Trio 3T whole body MRI scanner and a thirty-two-channel head coil were used. Multi-band accelerated pulse sequencing (Version number RO12 Center for Magnetic Resonance Research, University of Minnesota, EPI 2D BOLD/SE/DIFF Sequence) was used with an acceleration factor of 6. T2*-weighted echo planner imaging slices were obtained every 0.7 seconds (TR). Imaging parameters were chosen to reduce distortion artefact in the orbitofrontal cortex (Wilson et al., 2002) . 54 Axial slices with in-plane resolution of 2.4 x 2.4mm and between plane spacing of 2.4mm were attained. The matrix size was 96 x 96 and the field of view were 230 x 230mm. Acquisition was performed during task performance, yielding approximately 3500 volumes. An anatomical T1 volume with sagittal plane slice thickness 1mm and in-plane resolution of 1.0 × 1.0 mm was also acquired.
4
Multiband fMRI Acquisition Protocol
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The experimental protocol consisted of an event-related interleaved design. A Siemens Magnetom Trio 3T whole-body MRI scanner and a 32-channel head coil were used. Multi-band accelerated pulse sequencing (version no. RO12, Center for Magnetic Resonance Research, University of Minnesota, USA, EPI 2D BOLD/SE/DIFF Sequence) was used with an acceleration factor of 6. T2*-weighted echo planner imaging slices were obtained every 0.7 s (TR). Fifty-four axial slices with in-plane resolution of 2.4 × 2.4 mm and between-plane spacing of 2.4 mm were attained. The matrix size was 96 × 96 and the field of view was 230 × 230 mm.
Acquisition was performed during task performance, yielding ~3500 volumes. An anatomical T1 volume with sagittal plane slice thickness 1 mm and in-plane resolution of 1.0 × 1.0 mm was also acquired.
Acquisition was performed during task performance, yielding ~3500 volumes. An anatomical T1 volume with sagittal plane slice thickness 1 mm and in-plane resolution of 1.0 × 1.0 mm was also acquired.
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