Verfügbarkeit: The physics of clinical MR taught through images /

The physics of clinical MR taught through images /:

"To make optimal use of MRI technology, radiologists need an understanding of MRI physics. This can be a difficult area to master for radiologists, and it becomes increasingly challenging as new MRI techniques and new software programs are introduced. While most MRI physics books and chapters a...

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Bibliographische Detailangaben
Hauptverfasser:	Runge, Val M. (VerfasserIn), Nitz, Wolfgang R., 1953- (VerfasserIn), Heverhagen, Johannes T. (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	New York, NY : Thieme Publishers New York, [2018]
Ausgabe:	Fourth edition
Schlagworte:	Magnetic resonance imaging. Physics. Magnetic Resonance Imaging Physics Imagerie par résonance magnétique. Physique. physics. HEALTH & FITNESS > Diseases > General. MEDICAL > Clinical Medicine. MEDICAL > Diseases. MEDICAL > Evidence-Based Medicine. MEDICAL > Internal Medicine. Magnetic resonance imaging Internet Resources.
Online-Zugang:	Volltext
Zusammenfassung:	"To make optimal use of MRI technology, radiologists need an understanding of MRI physics. This can be a difficult area to master for radiologists, and it becomes increasingly challenging as new MRI techniques and new software programs are introduced. While most MRI physics books and chapters are filled with dense text and equations, Runge's book takes a very reader-friendly and practice-oriented approach, leading with images and presenting clear, concise text on understanding MRI physics and on using these principles to acquire optimal MRI Images and interpret results. The new edition text and images are extensively revised to reflect developments in the field, and there are 12 new chapters"--Provided by publisher
Beschreibung:	Includes index
Beschreibung:	1 online resource (xi, 318 pages) : illustrations
ISBN:	9781626234284 1626234280

Internformat

MARC


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520			\|a "To make optimal use of MRI technology, radiologists need an understanding of MRI physics. This can be a difficult area to master for radiologists, and it becomes increasingly challenging as new MRI techniques and new software programs are introduced. While most MRI physics books and chapters are filled with dense text and equations, Runge's book takes a very reader-friendly and practice-oriented approach, leading with images and presenting clear, concise text on understanding MRI physics and on using these principles to acquire optimal MRI Images and interpret results. The new edition text and images are extensively revised to reflect developments in the field, and there are 12 new chapters"--Provided by publisher
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650		0	\|a Magnetic resonance imaging. \|0 http://id.loc.gov/authorities/subjects/sh85079741
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650	2	2	\|a Physics
650		6	\|a Imagerie par résonance magnétique.
650		6	\|a Physique.
650		7	\|a physics. \|2 aat
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Datensatz im Suchindex

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author	Runge, Val M. Nitz, Wolfgang R., 1953- Heverhagen, Johannes T.
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author_facet	Runge, Val M. Nitz, Wolfgang R., 1953- Heverhagen, Johannes T.
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callnumber-first	R - Medicine
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callnumber-search	RC78.7.N83 R864 2018eb
callnumber-sort	RC 278.7 N83 R864 42018EB
callnumber-subject	RC - Internal Medicine
collection	ZDB-4-EBA
contents	Section I. Hardware. Components of an MR Scanner -- MR Safety: Static Magnetic Field -- MR Safety: Gradient Magnetic and Radiofrequency Fields -- Radiofrequency Coils -- Multichannel Coil Technology: Part 1 -- Multichannel Coil Technology: Part 2 -- Open MR Systems -- Magnetic Field Effects At 3 T and Beyond -- Mid-Field, High-Field, and Ultra-High-Field (1.5, 3, 7 T) -- Advanced Receiver Coil Design -- Advanced Multidimensional RF Transmission Design -- Section II. Basic Imaging Physics. Imaging Basics: k-space, Raw Data, Image Data -- Image Resolution: Pixel and Voxel Size -- Imaging Basics: Signal-to-Noise Ratio -- Imaging Basics: Contrast-to-Noise Ratio -- Signal-to-Noise Ratio versus Contrast-to-Noise Ratio -- Signal-to-Noise Ratio in Clinical 3 T -- Slice Orientation -- Multislice Imaging and Concatenations -- Number of Averages -- Slice Thickness -- Slice Profile -- Slice Excitation Order (in Fast Spin Echo Imaging) -- Field of View (Overview) -- Field of View (Phase Encoding Direction) -- Matrix Size: Readout -- Matrix Size: Phase Encoding -- Partial Fourier -- Image Interpolation (Zero Filling) -- Specific Absorption Rate -- Section III. Basic Image Acquisition; 31 T1, T2, and Proton Density -- Calculating T1 and T2 Relaxation Times (Calculated Images) -- Spin Echo Imaging -- Fast Spin Echo Imaging -- Fast Spin Echo: Reduced Refocusing Angle -- Driven-Equilibrium Fourier Transformation (DEFT) -- Reordering: Phase Encoding -- Magnetization Transfer -- Half Acquisition Single-Shot Turbo Spin Echo (HASTE) -- Spoiled Gradient Echo -- Refocused (Steady State) Gradient Echo -- Echo Planar Imaging -- Inversion Recovery: Part 1 -- Inversion Recovery: Part 2 -- Fluid-Attenuated IR with Fat Saturation (FLAIR FS) -- Fat Suppression: Spectral Saturation -- Water Excitation, Fat Excitation -- Fat Suppression: Short Tau Inversion Recovery (STIR) -- Fat Suppression: Phase Cycling -- Fat Suppression: Dixon -- 3D Imaging: Basic Principles -- Contrast Media: Gadolinium Chelates with Extracellular Distribution -- Contrast Media: Gd Chelates with Improved Relaxivity -- Contrast Media: Other Agents (Non-Gadolinium) -- Section IV. Advanced Image Acquisition -- Dual-Echo Steady State (DESS) -- Balanced Gradient Echo: Part 1 -- Balanced Gradient Echo: Part 2 -- PSIF: The Backward-Running FISP -- Constructive Interference in a Steady State (CISS -- TurboFLASH; 61 PETRA (UTE) -- 3D Imaging: MP-RAGE -- 3D Imaging: SPACE -- Susceptibility-Weighted Imaging -- Volume Interpolated Breath-Hold Examination (VIBE) -- Diffusion-Weighted Imaging -- Multi-Shot EPI -- Diffusion Tensor Imaging -- Blood Oxygen Level-Dependent (BOLD) Imaging: Theory -- Blood Oxygen Level-Dependent (BOLD) Imaging: Applications -- Proton Spectroscopy (Theory)
ctrlnum	(OCoLC)1021055122
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dewey-sort	3616.07 3548
dewey-tens	610 - Medicine and health
discipline	Medizin
edition	Fourth edition
format	Electronic eBook
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illustrated	Illustrated
indexdate	2024-11-27T13:28:12Z
institution	BVB
isbn	9781626234284 1626234280
language	English
lccn	2018004163
oclc_num	1021055122
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physical	1 online resource (xi, 318 pages) : illustrations
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publishDate	2018
publishDateSearch	2018
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publisher	Thieme Publishers New York,
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spelling	Runge, Val M., author. The physics of clinical MR taught through images / Val M. Runge, Wolfgang R. Nitz, Johannes T. Heverhagen Fourth edition New York, NY : Thieme Publishers New York, [2018] 1 online resource (xi, 318 pages) : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier Description based on print version record Includes index "To make optimal use of MRI technology, radiologists need an understanding of MRI physics. This can be a difficult area to master for radiologists, and it becomes increasingly challenging as new MRI techniques and new software programs are introduced. While most MRI physics books and chapters are filled with dense text and equations, Runge's book takes a very reader-friendly and practice-oriented approach, leading with images and presenting clear, concise text on understanding MRI physics and on using these principles to acquire optimal MRI Images and interpret results. The new edition text and images are extensively revised to reflect developments in the field, and there are 12 new chapters"--Provided by publisher Section I. Hardware. Components of an MR Scanner -- MR Safety: Static Magnetic Field -- MR Safety: Gradient Magnetic and Radiofrequency Fields -- Radiofrequency Coils -- Multichannel Coil Technology: Part 1 -- Multichannel Coil Technology: Part 2 -- Open MR Systems -- Magnetic Field Effects At 3 T and Beyond -- Mid-Field, High-Field, and Ultra-High-Field (1.5, 3, 7 T) -- Advanced Receiver Coil Design -- Advanced Multidimensional RF Transmission Design -- Section II. Basic Imaging Physics. Imaging Basics: k-space, Raw Data, Image Data -- Image Resolution: Pixel and Voxel Size -- Imaging Basics: Signal-to-Noise Ratio -- Imaging Basics: Contrast-to-Noise Ratio -- Signal-to-Noise Ratio versus Contrast-to-Noise Ratio -- Signal-to-Noise Ratio in Clinical 3 T -- Slice Orientation -- Multislice Imaging and Concatenations -- Number of Averages -- Slice Thickness -- Slice Profile -- Slice Excitation Order (in Fast Spin Echo Imaging) -- Field of View (Overview) -- Field of View (Phase Encoding Direction) -- Matrix Size: Readout -- Matrix Size: Phase Encoding -- Partial Fourier -- Image Interpolation (Zero Filling) -- Specific Absorption Rate -- Section III. Basic Image Acquisition; 31 T1, T2, and Proton Density -- Calculating T1 and T2 Relaxation Times (Calculated Images) -- Spin Echo Imaging -- Fast Spin Echo Imaging -- Fast Spin Echo: Reduced Refocusing Angle -- Driven-Equilibrium Fourier Transformation (DEFT) -- Reordering: Phase Encoding -- Magnetization Transfer -- Half Acquisition Single-Shot Turbo Spin Echo (HASTE) -- Spoiled Gradient Echo -- Refocused (Steady State) Gradient Echo -- Echo Planar Imaging -- Inversion Recovery: Part 1 -- Inversion Recovery: Part 2 -- Fluid-Attenuated IR with Fat Saturation (FLAIR FS) -- Fat Suppression: Spectral Saturation -- Water Excitation, Fat Excitation -- Fat Suppression: Short Tau Inversion Recovery (STIR) -- Fat Suppression: Phase Cycling -- Fat Suppression: Dixon -- 3D Imaging: Basic Principles -- Contrast Media: Gadolinium Chelates with Extracellular Distribution -- Contrast Media: Gd Chelates with Improved Relaxivity -- Contrast Media: Other Agents (Non-Gadolinium) -- Section IV. Advanced Image Acquisition -- Dual-Echo Steady State (DESS) -- Balanced Gradient Echo: Part 1 -- Balanced Gradient Echo: Part 2 -- PSIF: The Backward-Running FISP -- Constructive Interference in a Steady State (CISS -- TurboFLASH; 61 PETRA (UTE) -- 3D Imaging: MP-RAGE -- 3D Imaging: SPACE -- Susceptibility-Weighted Imaging -- Volume Interpolated Breath-Hold Examination (VIBE) -- Diffusion-Weighted Imaging -- Multi-Shot EPI -- Diffusion Tensor Imaging -- Blood Oxygen Level-Dependent (BOLD) Imaging: Theory -- Blood Oxygen Level-Dependent (BOLD) Imaging: Applications -- Proton Spectroscopy (Theory) Magnetic resonance imaging. http://id.loc.gov/authorities/subjects/sh85079741 Physics. http://id.loc.gov/authorities/subjects/sh85101653 Magnetic Resonance Imaging Physics Imagerie par résonance magnétique. Physique. physics. aat HEALTH & FITNESS Diseases General. bisacsh MEDICAL Clinical Medicine. bisacsh MEDICAL Diseases. bisacsh MEDICAL Evidence-Based Medicine. bisacsh MEDICAL Internal Medicine. bisacsh Physics fast Magnetic resonance imaging fast Internet Resources. Nitz, Wolfgang R., 1953- author. http://id.loc.gov/authorities/names/n2008183584 Heverhagen, Johannes T., author. has work: The physics of clinical MR taught through images (Text) https://id.oclc.org/worldcat/entity/E39PCGdjyXFh7vdT9GXkx3MPFC https://id.oclc.org/worldcat/ontology/hasWork Print version: Runge, Val M. Physics of clinical MR taught through images. Fourth edition. New York : Thieme, [2018] 9781626234277 (DLC) 2018003424 (OCoLC)1021062290 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1804450 Volltext
spellingShingle	Runge, Val M. Nitz, Wolfgang R., 1953- Heverhagen, Johannes T. The physics of clinical MR taught through images / Section I. Hardware. Components of an MR Scanner -- MR Safety: Static Magnetic Field -- MR Safety: Gradient Magnetic and Radiofrequency Fields -- Radiofrequency Coils -- Multichannel Coil Technology: Part 1 -- Multichannel Coil Technology: Part 2 -- Open MR Systems -- Magnetic Field Effects At 3 T and Beyond -- Mid-Field, High-Field, and Ultra-High-Field (1.5, 3, 7 T) -- Advanced Receiver Coil Design -- Advanced Multidimensional RF Transmission Design -- Section II. Basic Imaging Physics. Imaging Basics: k-space, Raw Data, Image Data -- Image Resolution: Pixel and Voxel Size -- Imaging Basics: Signal-to-Noise Ratio -- Imaging Basics: Contrast-to-Noise Ratio -- Signal-to-Noise Ratio versus Contrast-to-Noise Ratio -- Signal-to-Noise Ratio in Clinical 3 T -- Slice Orientation -- Multislice Imaging and Concatenations -- Number of Averages -- Slice Thickness -- Slice Profile -- Slice Excitation Order (in Fast Spin Echo Imaging) -- Field of View (Overview) -- Field of View (Phase Encoding Direction) -- Matrix Size: Readout -- Matrix Size: Phase Encoding -- Partial Fourier -- Image Interpolation (Zero Filling) -- Specific Absorption Rate -- Section III. Basic Image Acquisition; 31 T1, T2, and Proton Density -- Calculating T1 and T2 Relaxation Times (Calculated Images) -- Spin Echo Imaging -- Fast Spin Echo Imaging -- Fast Spin Echo: Reduced Refocusing Angle -- Driven-Equilibrium Fourier Transformation (DEFT) -- Reordering: Phase Encoding -- Magnetization Transfer -- Half Acquisition Single-Shot Turbo Spin Echo (HASTE) -- Spoiled Gradient Echo -- Refocused (Steady State) Gradient Echo -- Echo Planar Imaging -- Inversion Recovery: Part 1 -- Inversion Recovery: Part 2 -- Fluid-Attenuated IR with Fat Saturation (FLAIR FS) -- Fat Suppression: Spectral Saturation -- Water Excitation, Fat Excitation -- Fat Suppression: Short Tau Inversion Recovery (STIR) -- Fat Suppression: Phase Cycling -- Fat Suppression: Dixon -- 3D Imaging: Basic Principles -- Contrast Media: Gadolinium Chelates with Extracellular Distribution -- Contrast Media: Gd Chelates with Improved Relaxivity -- Contrast Media: Other Agents (Non-Gadolinium) -- Section IV. Advanced Image Acquisition -- Dual-Echo Steady State (DESS) -- Balanced Gradient Echo: Part 1 -- Balanced Gradient Echo: Part 2 -- PSIF: The Backward-Running FISP -- Constructive Interference in a Steady State (CISS -- TurboFLASH; 61 PETRA (UTE) -- 3D Imaging: MP-RAGE -- 3D Imaging: SPACE -- Susceptibility-Weighted Imaging -- Volume Interpolated Breath-Hold Examination (VIBE) -- Diffusion-Weighted Imaging -- Multi-Shot EPI -- Diffusion Tensor Imaging -- Blood Oxygen Level-Dependent (BOLD) Imaging: Theory -- Blood Oxygen Level-Dependent (BOLD) Imaging: Applications -- Proton Spectroscopy (Theory) Magnetic resonance imaging. http://id.loc.gov/authorities/subjects/sh85079741 Physics. http://id.loc.gov/authorities/subjects/sh85101653 Magnetic Resonance Imaging Physics Imagerie par résonance magnétique. Physique. physics. aat HEALTH & FITNESS Diseases General. bisacsh MEDICAL Clinical Medicine. bisacsh MEDICAL Diseases. bisacsh MEDICAL Evidence-Based Medicine. bisacsh MEDICAL Internal Medicine. bisacsh Physics fast Magnetic resonance imaging fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85079741 http://id.loc.gov/authorities/subjects/sh85101653
title	The physics of clinical MR taught through images /
title_auth	The physics of clinical MR taught through images /
title_exact_search	The physics of clinical MR taught through images /
title_full	The physics of clinical MR taught through images / Val M. Runge, Wolfgang R. Nitz, Johannes T. Heverhagen
title_fullStr	The physics of clinical MR taught through images / Val M. Runge, Wolfgang R. Nitz, Johannes T. Heverhagen
title_full_unstemmed	The physics of clinical MR taught through images / Val M. Runge, Wolfgang R. Nitz, Johannes T. Heverhagen
title_short	The physics of clinical MR taught through images /
title_sort	physics of clinical mr taught through images
topic	Magnetic resonance imaging. http://id.loc.gov/authorities/subjects/sh85079741 Physics. http://id.loc.gov/authorities/subjects/sh85101653 Magnetic Resonance Imaging Physics Imagerie par résonance magnétique. Physique. physics. aat HEALTH & FITNESS Diseases General. bisacsh MEDICAL Clinical Medicine. bisacsh MEDICAL Diseases. bisacsh MEDICAL Evidence-Based Medicine. bisacsh MEDICAL Internal Medicine. bisacsh Physics fast Magnetic resonance imaging fast
topic_facet	Magnetic resonance imaging. Physics. Magnetic Resonance Imaging Physics Imagerie par résonance magnétique. Physique. physics. HEALTH & FITNESS Diseases General. MEDICAL Clinical Medicine. MEDICAL Diseases. MEDICAL Evidence-Based Medicine. MEDICAL Internal Medicine. Magnetic resonance imaging Internet Resources.
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