Magnetom trio tim 3t mr scanner

Manufactured by Siemens

Sourced in Germany

The MAGNETOM Trio Tim 3T MR scanner is a magnetic resonance imaging (MRI) system that utilizes a 3 Tesla (3T) superconducting magnet to generate high-quality images of the human body. The core function of this equipment is to capture detailed anatomical and functional information by measuring the response of protons within the body to radiofrequency (RF) pulses in the presence of a strong magnetic field.

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Lab products found in correlation

32 channel head coil, by Siemens (2 mentions)

Close spelling variants of this product

Magnetom Trio Tim MR scanner Tim Trio 3T MR scanner Magnetom Trio 3T MR scanner 3T MAGNETOM Trio Tim Tim Trio 3T MR Magnetom Trio Tim scanner 3T Tim Trio scanner Tim Trio MR scanner Magnetom Trio MR scanner 3T Trio MR scanner

4 protocols using magnetom trio tim 3t mr scanner

Structural and Functional MRI Acquisition

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Data were collected on a Siemens Magnetom TrioTim 3T MR scanner (Siemens, Erlangen, Germany) with a 32-channel head coil. A 3D, T1-weighted, multi-planar rapid gradient-echo (MPRAGE) sequence was used to acquire high-resolution (1mm³ voxel) structural images. Next, a 6-min, eyes-closed rsFC scan was acquired using an echo-planar gradient-echo pulse sequence (TR=2000 ms, TE = 30ms, flip angle = 90°; 36 transverse slices, 3.0 mm thickness, 0.58ms gap; voxel size was 3.3mm × 3.3mm × 3.0mm).

Froeliger B., McConnell P.A., Stankeviciute N., McClure E.A., Kalivas P.W, & Gray K.M. (2015). The effects of N-Acetylcysteine on frontostriatal resting-state functional connectivity, withdrawal symptoms and smoking abstinence: A double-blind, placebo-controlled fMRI pilot study. Drug and alcohol dependence, 156, 234-242.

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Brain Imaging with MRI and PET-CT

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Some patients underwent a regular MRI scan of the brain using a MAGNETOM Trio Tim 3T MR scanner (Siemens Healthcare, Erlangen, Germany) and received [¹⁸F] FDG PET-CT scans to extract the PET signal from the PET-CT images for imaging registration. Structural images were acquired with a three-dimensional T1-weighted sequence (TR = 1,600 ms, TE = 2.15 ms, flip angle = 9°, thickness = 1.0 mm, and FOV = 256 mm × 256 mm). The registration was conducted using SPM12 software¹.

Li X., Yu T., Ren Z., Wang X., Yan J., Chen X., Yan X., Wang W., Xing Y., Zhang X., Zhang H., Loh H.H., Zhang G, & Yang X. (2021). Localization of the Epileptogenic Zone by Multimodal Neuroimaging and High-Frequency Oscillation. Frontiers in Human Neuroscience, 15, 677840.

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High-Resolution Structural and Functional MRI

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Data were collected on a Magnetom TrioTim 3TMR scanner (Siemens, Erlangen, Germany) with a 32-channel head coil. T1-weighted structural: A high-resolution anatomical scan (magnetization prepared rapid gradient echo) was acquired, to allow subsequent registration to functional images and region-of-interest (ROI) definition [parameters: repetition/echo time (TR/TE) = 1,900/2.26 ms; flip angle (FA) = 9°; field of view (FOV) = 256 mm²; voxel size = 1 mm²; 192 contiguous 1-mm-thick slices. Functional BOLD imaging: An EP2D-BOLD sequence was performed to acquire functional activity during the IC task with the following parameters: TR/TE = 2,000/30 ms; FA = 90°; 36 sections; and voxel size, 3.3 × 3.3 × 3.0 mm.

Bell S, & Froeliger B. (2021). Associations Between Smoking Abstinence, Inhibitory Control, and Smoking Behavior: An fMRI Study. Frontiers in Psychiatry, 12, 592443.

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Comprehensive MRI Brain Imaging Protocol

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MRI exam included routine protocols for screening obvious lesions and a resting-state fMRI (rs-fMRI) session. The rs-fMRI data acquisition used an echo-planar imaging (EPI) sequence with the parameters as follows: TR=2000 ms, TE=30 ms, flip angle=90°, 33 slices, slice thickness=3.5 mm, distance factor=20%, FOV=210 ×210 mm 2 , matrix= 64×64, measurements=200. A high-resolution T1-weighted magnetization prepared rapid gradient echo (MPRAGE) dataset (TR =2300ms, TE=2.27ms, 176 slices, 1mm isotropic, FOV= 256 × 256 mm 2 , matrix= 256×256) was acquired as anatomical reference. All data were collected on a MAGNETOM Trio Tim 3T MR scanner (Siemens Healthcare, Erlangen, Germany) using a 32-channel head-coil.

Qian T., Zanchi D., Rodriguez C., Ackermann M., Giannakopoulos P, & Haller S. (2017). Detecting Perfusion Pattern Based on the Background Low-Frequency Fluctuation in Resting-State Functional Magnetic Resonance Imaging Data and Its Influence on Resting-State Networks: An Iterative Postprocessing Approach. Brain connectivity, 7(10).

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