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1.5t mri scanners

Manufactured by Philips
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The 1.5T MRI scanners from Philips are magnetic resonance imaging devices that generate high-quality diagnostic images of the body. These scanners utilize a strong 1.5 tesla magnetic field to align and detect the magnetic properties of hydrogen atoms within the body, allowing for the creation of detailed cross-sectional images of internal structures and organs.

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Lab products found in correlation

3.0t mri scanner, by Philips (1 mentions)

Close spelling variants of this product

Achieva 1.5T MRI scanner Achieva 1.5T high field MRI scanner 1.5T scanner 1.5T MRI MRI scanner

2 protocols using 1.5t mri scanners

1

Prone Position Breast MRI Protocol

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MR imaging examinations were performed with the patients in the prone position by using a GE 1.5T MRI scanners or two Philips 3.0T MRI scanners with breast surface coils. Axial T2-weighted images, T1-weighted images, DWI, dynamic enhanced images were performed. Each MR had a slice thickness of 2–5 mm, matrix of 80×80–256×256, field of view (FOV) of 35cm, depending on different scanners and scan sequences.
Li Q., Dormer J., Daryani P., Chen D., Zhang Z, & Fei B. (2019). Radiomics Analysis of MRI for Predicting Molecular Subtypes of Breast Cancer in Young Women. Proceedings of SPIE--the International Society for Optical Engineering, 10950, 1095044.
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2

T1-Weighted MRI Acquisition Protocol

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Scans were acquired using two identical 1.5-T MRI-scanners (Philips, Best, The Netherlands). Scanning sessions were randomly assigned to one of the scanners, post hoc tests showed no effects of scanners for any of the ROIs. A T1-weighted three-dimensional fast field echo scan of the whole head was acquired with 130 to 150 1.2-mm contiguous coronal slices (echo time 4.6 ms; repetition time 30 ms; flip angle 30°; field of view 256 mm; in-plane voxel size 1 mm × 1 mm). Independent neuroradiologists evaluated all MRI scans and no gross morphological abnormalities were reported for any of the participants.
Mensen V.T., Wierenga L.M., van Dijk S., Rijks Y., Oranje B., Mandl R.C, & Durston S. (2016). Development of cortical thickness and surface area in autism spectrum disorder. NeuroImage : Clinical, 13, 215-222.
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