3.0 tesla ge mri scanner

Manufactured by GE Healthcare

The 3.0 Tesla GE MRI scanner is a magnetic resonance imaging (MRI) system designed for medical imaging applications. It utilizes a 3.0 Tesla static magnetic field strength to generate high-quality images of the body's internal structures. The scanner is capable of producing detailed anatomical and functional information to assist healthcare professionals in diagnostic and treatment decisions.

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2 protocols using 3.0 tesla ge mri scanner

Resting-State fMRI Acquisition Protocol

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All participants were scanned by a 3.0 Tesla GE MRI scanner (General Electric, Milwaukee, Wisconsin) and instructed to keep still and keep their eyes closed without falling asleep. After scanning, the subjects were asked to ensure that they were awake during the experiment. The structural MRI data were acquired by using the T1‐weighted brain volume (BRAVO) MRI sequence, and the parameters were as follows: repetition time (TR) = 8.16 ms, echo time (TE) = 3.18 ms, field of view (FOV) = 256 × 256 mm, flip angle = 7°, number of slices = 188, and voxel size = 1 × 1 × 1 mm. The gradient‐echo echo‐planar‐imaging (GRE‐EPI) sequence was used to obtain the resting‐state fMRI data with the following parameters: TR = 2,000 ms, TE = 30 ms, FOV = 240 × 240 mm, flip angle = 90°, matrix = 64 × 64, 255 volumes, 39 slices, and voxel size = 3.75 × 3.75 × 4 mm.

Long H., Fan M., Li Q., Yang X., Huang Y., Xu X., Ma J., Xiao J, & Jiang T. (2022). Structural and functional biomarkers of the insula subregions predict sex differences in aggression subscales. Human Brain Mapping, 43(9), 2923-2935.

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Investigating Hippotherapy's Neural Impact

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To confirm the effect of hippotherapy on the brain, 8 participants from 2 groups were randomly selected. Subsequently, an fMRI scan of the interior insular and cerebellar area was conducted to compare the results before and after hippotherapy. A fMRI was used by the 3.0 Tesla GE MRI scanner (General Electric Medical Systems, Milwaukee, WI) and a T-1 image was scanned to collect 240 sagittal images of the brain using a 3D spoiled gradient echo pulse sequence (SPGR). When the IR-prepared 3D SPGR sequence was performed, Zerofill Interpolation Processing (ZIP) was used to reconstitute images. To identify abnormalities in the brain structure, a T-2 image was also used and all fMRI scans used Quadrature type head coils.

Lee N., Park S, & Kim J. (2015). Effects of hippotherapy on brain function, BDNF level, and physical fitness in children with ADHD. Journal of Exercise Nutrition & Biochemistry, 19(2), 115-121.

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