Signa 1.5 tesla mri scanner

Manufactured by GE Healthcare

Sourced in United States, France

The Signa 1.5 Tesla MRI scanner is a magnetic resonance imaging system manufactured by GE Healthcare. It utilizes a 1.5 Tesla superconducting magnet to generate a strong magnetic field, which, combined with radio frequency (RF) pulses, allows for the acquisition of high-quality images of the body's internal structures and organs.

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Lab products found in correlation

Mr750 scanner, by GE Healthcare (1 mentions) Avanto 1.5 tesla mri scanner, by Siemens (1 mentions)

Close spelling variants of this product

Signa 1.5 Tesla scanner Signa 1.5 Tesla 1.5 Tesla MRI 1.5 Tesla scanner Signa MRI scanner 1.5 Tesla Signa scanner MRI scanner Scanners

3 protocols using signa 1.5 tesla mri scanner

TSPO PET and MRI Biomarkers in Alzheimer's Disease

Cited 1 time

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[¹⁸F]-FEPPA was synthesized as previously described.^{15 (link)} All subjects underwent one [¹⁸F]-FEPPA PET scan and one MRI scan. The MRI scans of 14 healthy control subjects were acquired with a General Electric (Milwaukee, WI, USA) Signa 1.5 Tesla MRI scanner. The other 7 control subjects and all participants with AD had the T₁ weighted images acquired on a 3-Tesla General Electric MR750 scanner. MRI acquisition parameters for both scanners have been described in detail elsewhere.^{45 (link)} The PD-weighted and T₂ FLAIR scans were visually inspected for evidence of focal and vascular lesions including the presence of white matter hyperintensities, which was determined by following established criteria.^{46 (link)}The PET images were obtained for 125 min following the injection of [¹⁸F]-FEPPA using a 3D high-resolution research tomograph brain tomograph (CS/Siemens, Knoxville, TN, USA) as previously described.^{16 (link)} A dose of 181±15 mBq of intravenous [¹⁸F]-FEPPA was administered as a bolus for the PET scan. Blood samples were collected for genotyping of TSPO rs6971 polymorphism and for obtaining the arterial input function used for the kinetic analysis of [¹⁸F]FEPPA, as previously described.^{16 (link)}

Suridjan I., Pollock B., Verhoeff N., Voineskos A., Chow T., Rusjan P., Lobaugh N., Houle S., Mulsant B, & Mizrahi R. (2015). In-vivo imaging of grey and white matter neuroinflammation in Alzheimer’s disease: a positron emission tomography study with a novel radioligand, [18F]-FEPPA. Molecular psychiatry, 20(12), 1579-1587.

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Blocked fMRI Design for Brain Imaging

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A blocked functional MRI design was used. Lying in the scanner, participants viewed the display via a mirror to an active matrix video projector. Stimulus onset was synchronized with the acquisition of the first slice. Anatomical and functional MRIs were acquired on a General Electrics Signa 1.5 tesla MRI scanner (GE, BUC, France). First, a high-resolution T1-weighted MRI scan (T1-MRI) was acquired with a three-dimensional inversion recovery spoiled gradient echo sequence (matrix size = 256×256×128; slice thickness = 1.5 mm). Second, a proton density/T2-weighted MRI scan (PD-MRI, T2-MRI) was acquired with 32 axial slices covering the entire brain and the superior part of the cerebellum (slice thickness = 3.8 mm). Finally, functional images were acquired with echo planar imaging blood oxygen level dependent (BOLD) sequence (repetition time = 6 s, echo time = 60 ms, flip angle = 90°, matrix size = 64×64×32, 50 volumes, 3.8-mm-thick slices) covering the same field of view as the T2-MRI acquisition.

Viard A., Piolino P., Belliard S., de La Sayette V., Desgranges B, & Eustache F. (2014). Episodic Future Thinking in Semantic Dementia: A Cognitive and fMRI Study. PLoS ONE, 9(10), e111046.

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Cardiac MRI Imaging with Gating and Breath Hold

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Cardiac MRI studies were performed with breath holding and electrocardiogram gating using either a Signa 1.5 Tesla MRI scanner (General Electric, Milwaukee, WI) or a Siemens Avanto 1.5 Tesla MRI scanner (Siemens, Erlangen, Germany) with an eight‐channel phased array. Short‐axis cine images were acquired using a steady‐state free precession pulse sequence with the following typical parameters: TR 3.6 ms, TE 11.5 ms, flip angle of 45°, 24 views per segment, field of view 35 cm, acquisition matrix 192 × 160, slice thickness 8 mm with no gap, and receiver bandwidth 125 kHz.

Lewis M.J., Van Dissel A., Kochav J., DiLorenzo M.P., Ginns J., Zemer‐Wassercug N., Groenink M., Mulder B, & Rosenbaum M. (2022). Cardiac MRI predictors of adverse outcomes in adults with a systemic right ventricle. ESC Heart Failure, 9(2), 834-841.

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