MRI Physics Tech to Tech Explanation
"There are 3 types of magnets used in MRI: Permanent: These are rare to almost nonexistent today. They are made up of Brick sized magnets that, when placed in the right pattern, they combine to make a magnetic field strength large enough to image with. These magnets are large, heavy and have a...
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| Format: | Book |
| Language: | English |
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Hoboken, NJ
Wiley-Blackwell
2021
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| Online Access: | Click Here to View Status and Holdings. |
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| 090 | 0 | 0 | |a WN185 |b P8887m 2021 |
| 100 | 1 | # | |a Powers, Stephen J. |c (Senior MRI technologist) |e author |
| 245 | 1 | 0 | |a MRI Physics |b Tech to Tech Explanation |c Stephen J. Powers, B. S.R.T (R), (CT), (MR) South Coast Hospital Group Fall River, MA, USA |
| 264 | # | 1 | |a Hoboken, NJ |b Wiley-Blackwell |c 2021 |
| 264 | # | 4 | |c ©2021 |
| 300 | # | # | |a xvi, 396 pages |b illustrations |c 22 cm |
| 336 | # | # | |a text |2 rdacontent |
| 337 | # | # | |a unmediated |2 rdamedia |
| 338 | # | # | |a volume |2 rdacarrier |
| 500 | # | # | |a Includes index |
| 505 | 0 | # | |a Hardware : Magnet Types and Coils -- The Basics : Hydrogen, Protons, NMV, FID, Relaxation Contrast, SNR, Free and Bound Protons -- Image Weighting : TR, TE, and the "Contrast (Weighting) Triangle" -- Introduction to Basic Pulse Sequences : Spin Echo, Gradient Echo and Ernst Angle -- Image Weighting : Multi Echo SE Seq., Intro to k-Space M.A.R.S., DRIVE, 3D FSE, and Single Shot FSE -- Tissue suppression techniques : IR, ASPIR, SPAIR, SPIR, Fat Sat, Dixon Tech., Water Excitation, Sat. Pulses, Subs -- The Gradient Echo Sequence : Image Weighting -- Gradient Echo MRA -- k-Space Review : Filling schemes, Contrast MRA -- EPI : DWI, DTI, SWAN/SWI, Perfusion, ASL, Spectroscopy -- Geometric Parameters : Tradeoffs and Effects on I.Q. -- Artifacts -- Gradients : Physical, Logical, Cartesian Coordinate and Spatial Encoding -- MR Math : Equations, Pixel/Voxel Scan time formula -- Parallel Imaging -- IV Gadolinium. |
| 520 | # | # | |a "There are 3 types of magnets used in MRI: Permanent: These are rare to almost nonexistent today. They are made up of Brick sized magnets that, when placed in the right pattern, they combine to make a magnetic field strength large enough to image with. These magnets are large, heavy and have a weak B₀ fields so SNR is at a premium. They can't be turned off. Resistive: Are a large coil of wire with a lot of electricity passing through it. The amount of electricity circulating is sufficient to make a magnetic field strong enough to image. These are usually .5, .7. They also generate a lot of heat from electrical resistance in the wire. Superconducting: These are Resistive magnets with one major difference. The magnet is cooled with liquid Helium (Cryogen) that decreases electrical resistance in the wires that make up the actual magnet. The cooling and loss of resistance enables more current to be applied so stronger magnetic fields are possible. Typical field strengths are 1 to 4T. Research magnets get as strong as 7 - 9 Tesla. Stronger magnetic fields also come with a larger Fringe field compared to low fields. Think of the Fringe field like "Scatter Radiation" in X-ray. The magnetic field is not solely confined to the scanner. Magnetism picks up rapidly as you get closer to the bore. And I do mean quickly..."-- |c Provided by publisher |
| 526 | 0 | # | |a MRD538 |b HS242 |5 HS |
| 526 | 0 | # | |a Magnetic Resonance Imaging Physics and Instrumentation |b Bachelor of Medical Imaging (Hons) |5 Faculty of Health Science |
| 650 | # | 2 | |a Magnetic Resonance Imaging |
| 650 | # | 2 | |a Physics |
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MRI in practice