MRI data were collected on a 3T Siemens TIM Trio scanner at the UC Berkeley Brain Imaging Center using a 32-channel Siemens volume coil. Functional scans were collected using gradient echo EPI with TR = 2.0045s, TE = 31ms, flip angle = 70 degrees, voxel size = 2.24 × 2.24 × 4.1 mm (slice thickness = 3.5 mm with 18% slice gap), matrix size = 100 × 100, and field of view = 224 × 224 mm. 30 axial slices were prescribed to cover the entire cortex and were scanned in interleaved order. A custom-modified bipolar water excitation radiofrequency (RF) pulse was used to avoid signal from fat. Anatomical data were collected using a T1-weighted multi-echo MP-RAGE sequence on the same 3T scanner.
32 channel volume coil
Manufactured by Siemens
The 32-channel Siemens volume coil is a medical imaging device designed for use in magnetic resonance imaging (MRI) systems. It is a radio frequency (RF) coil that is responsible for transmitting and receiving the electromagnetic signals required for the MRI process. The coil is designed to provide a uniform and homogeneous magnetic field within the imaging volume, which is essential for obtaining high-quality MRI images.
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Lab products found in correlation
2 protocols using 32 channel volume coil
1
High-Resolution 3T MRI Acquisition
2
High-Resolution 3T MRI Acquisition
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MRI data were collected on a 3T Siemens TIM Trio scanner at the UC Berkeley Brain Imaging Center using a 32-channel Siemens volume coil. Functional scans were collected using gradient echo EPI with TR = 2.0045s, TE = 31ms, flip angle = 70 degrees, voxel size = 2.24 × 2.24 × 4.1 mm (slice thickness = 3.5 mm with 18% slice gap), matrix size = 100 × 100, and field of view = 224 × 224 mm. 30 axial slices were prescribed to cover the entire cortex and were scanned in interleaved order. A custom-modified bipolar water excitation radiofrequency (RF) pulse was used to avoid signal from fat. Anatomical data were collected using a T1-weighted multi-echo MP-RAGE sequence on the same 3T scanner.
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