Achieva 3 t whole body mr scanner

Manufactured by Philips

The Achieva 3 T whole-body MR-scanner is a magnetic resonance imaging (MRI) system manufactured by Philips. It has a static magnetic field strength of 3 Tesla, which allows for high-quality image acquisition. The system is designed to perform whole-body imaging for diagnostic and research purposes.

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Lab products found in correlation

Eight channel mr head coil, by Philips (2 mentions)

Close spelling variants of this product

Achieva (844 citations) Achieva scanner (536 citations) Achieva MR scanner (56 citations) Achieva whole-body scanner (39 citations) Achieva 3.0 T whole-body MR scanner (5 citations)

2 protocols using achieva 3 t whole body mr scanner

Functional MRI Brain Imaging Protocol

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Functional imaging was performed on a Philips Achieva 3 T whole-body MR-scanner equipped with an eight-channel MR head coil. In total, we conducted 6 experimental runs, each of which contained 206 volumes (voxel size = 3 × 3 × 3 mm³, 0.5 mm gap, matrix size = 80 × 80, TR/TE = 2200/30 msec, flip angle = 90, parallel imaging factor =1.5, 36 slices acquired in ascending order for full coverage of the brain). We also acquired T1-weighted multi-slice fast-field echo B0 scans that were used for correction of possible geometric distortions due to magnetic field inhomogeneities (voxel size = 3 × 3 × 3 mm³, 0.5 mm gap, matrix size = 80 × 80, TR/TE1/TE2 = 452/4.3/7.4 msec, flip angle = 44, no parallel imaging, 40 slices). Additionally, we acquired a high-resolution T1-weighted 3D fast-field echo structural scan used for image registration during post-processing (181 sagittal slices, matrix size = 256 × 256, voxel size = 1 mm³, TR/TE/TI = 8.3/3.9/181 msec).

Murd C., Moisa M., Grueschow M., Polania R, & Ruff C.C. (2020). Causal contributions of human frontal eye fields to distinct aspects of decision formation. Scientific Reports, 10, 7317.

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Functional MRI of Transcranial Stimulation

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MR images were obtained using a Philips Achieva 3T whole-body MR scanner equipped with an eight-channel MR head coil. Each of the four experimental runs consisted of 216 volumes (voxel size, 2.5 × 2.5 × 3 mm 3 ; 0.5 mm gap; matrix size, 96 × 96; repetition time (TR) 2610 ms; echo time (TE) 30 ms; 40 slices acquired in ascending order). T1-weighted multislice fast-field echo B0 scans were acquired for correction of possible static distortion produced by the presence of the GVS electrodes (voxel size, 3 × 3 × 3 mm 3 ; 0.75 mm gap; TR/TE1/TE2 403/4.1/7.1 ms; flip angle, 44°; no parallel imaging; 37 slices). A highresolution T1-weighted 3D fast-field echo structural scan was also acquired for image registration during post-processing (181 sagittal slices; matrix size, 256 256; voxel size, 1 mm 3 ; TR/TE/inversion time (TI) 8.0/3.7/181 ms).

Macauda G., Moisa M., Mast F.W., Ruff C.C., Michels L, & Lenggenhager B. (2019). Shared neural mechanisms between imagined and perceived egocentric motion - A combined GVS and fMRI study. Cortex; a journal devoted to the study of the nervous system and behavior, 119.

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