Provides a comprehensive deillegalscription of current techniques and clinical applications of MR angiography
Written by internationally renowned experts in their respective fields
Addresses both the technical and clinical aspects of MR angiography
Describes the currently used clinical applications of MR angiography, emphasizing their practicality and utility in day-to-day practice
Discusses the risks of Nephrogenic Systemic Fibrosis and safer alternatives to Gadolinium contrast agents
Magnetic Resonance Angiography: Principles and Applications is a comprehensive text covering magnetic resonance angiography (MRA) in current clinical use. The first part of the book focuses on techniques, with chapters on contrast-enhanced MRA, time of flight, phase contrast, time-resolved angiography, and coronary MRA, as well as several chapters devoted to new non-contrast MRA techniques. Additionally, chapters describe in detail specific topics such as high-field MRA, susceptibility-weighted imaging, acceleration strategies such as parallel imaging, vessel wall imaging, targeted contrast agents, and low dose contrast-enhanced MRA. The second part of the book covers clinical applications of MRA, with each chapter describing the MRA techniques and protocols for a particular disease and vascular territory, as well as the pathology and imaging findings relevant to the disease state being discussed.
Magnetic Resonance Angiography: Principles and Applications is designed to bring together into a single textbook all of the MRA techniques in clinical practice today and will be a valuable resource for practicing radiologists and other physicians involved in the diagnosis and treatment of vascular diseases, as well as biomedical physicists, MRI technologists, residents, and fellows.
Editors
James C. Carr, MD, is the Director of Cardiovascular Imaging and Associate Professor of Radiology and Medicine at Northwestern University Feinberg School of Medicine, Chicago, Illinois, USA.
Timothy J. Carroll, PhD, is the Director of MRI Research and Associate Professor in the Departments of Biomedical Engineering and Radiology at Northwestern University, Evanston, Illinois, USA.
Magnetic Resonance Angiography: Principles and Applications is designed to bring together into a single textbook all of the MRA techniques in clinical practice today and will be a valuable resource for practicing radiologists and other physicians involved in the diagnosis and treatment of vascular diseases, as well as biomedical physicists, MRI technologists, residents, and fellows.
Editors
James C. Carr, MD, is Director of Cardiovascular Imaging and Associate Professor of Radiology and Medicine at Northwestern University Feinberg School of Medicine, Chicago, Illinois, USA.
Timothy J. Carroll, PhD, is Assistant Professor in the Department of Radiology at Northwestern University Feinberg School of Medicine, Chicago, Illinois, USA.
Editors
James C. Carr, MD, is Director of Cardiovascular Imaging and Associate Professor of Radiology and Medicine at Northwestern University Feinberg School of Medicine, Chicago, Illinois, USA.
Timothy J. Carroll, PhD, is the Director of MRI Research and Associate Professor in the Departments of Biomedical Engineering and Radiology at Northwestern University, Evanston, Illinois, USA.
I. MRA Techniques
Chapter 1
Basic Principles of MRI and MR Angiography
Frank R. Korosec, PhD
Chapter 2
Time-of-Flight Angiography
Seong-Eun Kim, PhD, and Dennis L. Parker, PhD
Chapter 3
Phase Contrast MRI and Flow Quantification
Bernd Jung, PhD, and Michael Markl, PhD
Chapter 4
Technical Aspect of Contrast-Enhanced MRA
Honglei Zhang, MD, Wei Zhang, MD, and Martin R. Prince, MD, PhD
Chapter 5
Time-Resolved Contrast-Enhanced MR Angiography Using Cartesian Methods
Stephen J. Riederer, PhD, Clifton R. Haider, PhD, Casey P. Johnson, and Petrice M. Mostardi
Chapter 6
Flow-Dependent Noncontrast MR Angiography
Mitsue Miyakazi, PhD, Satosha Sugiura, Yoshimori Kassai, MS, Nobuyasu Ichinose, MS, and Hitoshi Kanazawa, MS
Chapter 7
Low-Dose Contrast-Enhanced MR Angiography
Kambiz Nael, MD, Roya Saleh, MD, Gerhard Laub, PhD, and J. Paul Finn, MD
Chapter 8
Vessel Wall Imaging Techniques
Rui Li, PhD, Niranjan Balu, PhD, and Chun Yuan PhD
Chapter 9
Noncontrast Coronary Artery Imaging
Allison G. Hays, MD, Robert G. Weiss, MD, and Matthias Stuber, PhD
Chapter 10
Contrast-Enhanced MR Angiography of the Coronary Arteries
Qi Yang, MD, PhD, and Debaio Li, PhD
Chapter 11
MR Angiography and High Field Strength: 3.0 Tesla and Higher
Harald H. Quick, PhD, and Mark E. Ladd, PhD
Chapter 12
Susceptibility Weighted Imaging and MR Angiography
Samuel Barnes, MS, and E. Mark Haacke, PhD
Chapter 13
Non-Cartesian MR Angiography
Walter F. Block, PhD, and Oliver Wieben, PhD
Chapter 14
Parallel Imaging in Angiography
Nicole Seiberlich, PhD, and Mark Griswold, PhD
Chapter 15
Targeted Agents for Wall Imaging
Emily A. Waters, PhD, and Thomas J. Meade, PhD
Chapter 16
Intracranial Arterial and Venous Disease
Dariusch Reza Hadizadeh, MD, Horst Urbach, MD, and Winfried A. Willinek, MD
II. Clinical Applications
Chapter 17
Carotid and Vertebral Circulation: Clinical Applications
Max Winterman, MD, MAS, and Sugoto Mukherjee, MD
Chapter 18
Thoracic Aorta
Emily Ward, MB, BCh, BAO, and James C. Carr, MD
Chapter 19
Pulmonary MR Angiography
James F.M. Meaney, MD, and Peter Beddy, MD
Chapter 20
Abdominal Aorta and Mesenteric Vessels
Klaus D. Hagspiel, MD, and Patrick T. Norton, MD
Chapter 21
Renal Vascular Diseases
Tim Leiner, MD, PhD, Henrik Michaely, MD, PhD
Chapter 22
Upper Extremity and Hand Vessels
Ruth P. Lim, MBBS, MMed, FRANZCR, and Vivian L. Lee, MD, PhD, MBA
Chapter 23
Lower Extremity Peripheral Arterial Disease
Jeremy D. Collins, MD, and Timothy Scanlon, MD
Chapter 24
Noninvasive Imaging for Coronary Artery Disease
Reza Nezafat, PhD, Susie N. Hong, MD, Peng Hu, PhD, Mehdi H. Moghari, PhD, and Warren J. Manning MD
Chapter 25
Venous Imaging: Techniques, Protocols and Clinical Applications
Amir H. Davarpanah, MD, Philip Hodnett, MD, Jeremy D. Collins, MD, James C. Carr, MD, and Timothy Scanlon, MD
Chapter 26
Pediatric MR Angiography: Principles and Applications
Bharathi D. Jagadeesan, MD, and David N. Loy, MD, PhD
Chapter 27
Contrast Agents for MR Angiography
Christoph U. Herborn, MD, MBA
Chapter 28
CE-MRA in the Age of Nephrogenic Systemic Fibrosis
Aditya Bharatha MD, FRCPC, Sean P. Symons MPH, MD, FRCPC, and Walter Kucharczyk MD, FRCPC
Chapter 29
Emerging Interventional MR Applications
Clifford R. Weiss, MD, Aravindan Kolandaivelu, MD, Jeff Bulte, PhD, and Aravind Arepally, MD
Magnetic Resonance Angiography: Principles and Applications is a comprehensive text covering magnetic resonance angiography (MRA) in current clinical use. The first part of the book focuses on techniques, with chapters on contrast-enhanced MRA, time of flight, phase contrast, time-resolved angiography, and coronary MRA, as well as several chapters devoted to new non-contrast MRA techniques. Additionally, chapters describe in detail specific topics such as high-field MRA, susceptibility-weighted imaging, acceleration strategies such as parallel imaging, vessel wall imaging, targeted contrast agents, and low dose contrast-enhanced MRA. The second part of the book covers clinical applications of MRA, with each chapter describing the MRA techniques and protocols for a particular disease and vascular territory, as well as the pathology and imaging findings relevant to the disease state being discussed.
Magnetic Resonance Angiography: Principles and Applications is designed to bring together into a single textbook all of the MRA techniques in clinical practice today and will be a valuable resource for practicing radiologists and other physicians involved in the diagnosis and treatment of vascular diseases, as well as biomedical physicists, MRI technologists, residents, and fellows.
Editors
James C. Carr, MD, is Director of Cardiovascular Imaging and Associate Professor of Radiology and Medicine at Northwestern University Feinberg School of Medicine, Chicago, Illinois, USA.
Timothy J. Carroll, PhD, is Assistant Professor in the Department of Radiology at Northwestern University Feinberg School of Medicine, Chicago, Illinois, USA.
From the reviews:
"This book outlines the history and evolution of magnetic resonance angiography (MRA), as well as clinical applications. ... I would recommend it for both medical physicists and radiology residents and physicians. ... Literature references at the end of each chapter enable readers to obtain more information. This book will be a good resource for those currently in the field as well as those who are just starting out. I would recommend it for readers who need to learn more about MRA.” (Lara Dyke, Doody's Book Reviews, April, 2013)
"This book consists of two sections, each containing a number of independent chapters by different authors. The first section covers MRI and magnetic resonance angiography (MRA) techniques and the second section focuses more on application of MRA to imaging specific parts of the body. ... the book seems to thoroughly cover the field of MRA and would be a useful reference to any person who is interested or working in MRA.” (Daniel Badger, Australasian Physical & Engineering Sciences in Medicine, Vol. 36, 2013)
Magnetic Resonance Angiography provides comprehensive coverage of magnetic resonance angiography (MRA) in current clinical use. The text focuses on techniques, with chapters on contrast-enhanced MRA, time of flight, phase contrast, time-resolved angiography, coronary MRA, and more.
Magnetic Resonance Angiography: Principles and Applications is a comprehensive text covering magnetic resonance angiography (MRA) in current clinical use. The first part of the book focuses on techniques, with chapters on contrast-enhanced MRA, time of flight, phase contrast, time-resolved angiography, and coronary MRA, as well as several chapters devoted to new non-contrast MRA techniques. Additionally, chapters describe in detail specific topics such as high-field MRA, susceptibility-weighted imaging, acceleration strategies such as parallel imaging, vessel wall imaging, targeted contrast agents, and low dose contrast-enhanced MRA. The second part of the book covers clinical applications of MRA, with each chapter describing the MRA techniques and protocols for a particular disease and vascular territory, as well as the pathology and imaging findings relevant to the disease state being discussed.
Magnetic Resonance Angiography: Principles and Applications is designed to bring together into a single textbook all of the MRA techniques in clinical practice today and will be a valuable resource for practicing radiologists and other physicians involved in the diagnosis and treatment of vascular diseases, as well as biomedical physicists, MRI technologists, residents, and fellows.
Editors
James C. Carr, MD, is the Director of Cardiovascular Imaging and Associate Professor of Radiology and Medicine at Northwestern University Feinberg School of Medicine, Chicago, Illinois, USA.
Timothy J. Carroll, PhD, is the Director of MRI Research and Associate Professor in the Departments of Biomedical Engineering and Radiology at Northwestern University, Evanston, Illinois, USA.
Magnetic Resonance Angiography: Principles and Applications is designedto bring together into a single textbook all of the MRA techniques in clinical practice today and will be a valuable resource for practicing radiologists and other physicians involved in the diagnosis and treatment of vascular diseases, as well as biomedical physicists, MRI technologists, residents, and fellows.
Editors
James C. Carr, MD, is Director of Cardiovascular Imaging and Associate Professor of Radiology and Medicine at Northwestern University Feinberg School of Medicine, Chicago, Illinois, USA.
Timothy J. Carroll, PhD, is Assistant Professor in the Department of Radiology at Northwestern University Feinberg School of Medicine, Chicago, Illinois, USA.
Editors
James C. Carr, MD, is Director of Cardiovascular Imaging and Associate Professor of Radiology and Medicine at Northwestern University Feinberg School of Medicine, Chicago, Illinois, USA.
Timothy J. Carroll, PhD, is the Director of MRI Research and Associate Professor in the Departments of Biomedical Engineering and Radiology at Northwestern University, Evanston, Illinois, USA.
I. MRA Techniques -1) Basic Principles of MRI and MR Angiography -2) Time-of-Flight Angiography-3) Phase Contrast MRI and Flow Quantification-4) Technical Aspect of Contrast-Enhanced MRA-5) Time-Resolved Contrast-Enhanced MR Angiography Using Cartesian Methods-6) Flow-Dependent Noncontrast MR Angiography-7) Low-Dose Contrast-Enhanced MR Angiography-8 )Vessel Wall Imaging Techniques-9) Noncontrast Coronary Artery Imaging-10) Contrast-Enhanced MR Angiography of the Coronary Arteries-11) MR Angiography and High Field Strength: 3.0 Tesla and Higher-12) Susceptibility Weighted Imaging and MR Angiography-13) Non-Cartesian MR Angiography-14) Parallel Imaging in Angiography-15) Targeted Agents for Wall Imaging-16) Intracranial Arterial and Venous Disease II. Clinical Applications-17) Carotid and Vertebral Circulation: Clinical Applications-18) Thoracic Aorta-19) Pulmonary MR Angiography-20) Abdominal Aorta and Mesenteric Vessels-21) Renal Vascular Diseases-22) Upper Extremity and Hand Vessels-23) Lower Extremity Peripheral Arterial Disease-24) Noninvasive Imaging for Coronary Artery Disease-25)Venous Imaging: Techniques, Protocols and Clinical Applications-26) Pediatric MR Angiography: Principles and Applications-27) Contrast Agents for MR Angiography-28)CE-MRA in the Age of Nephrogenic Systemic Fibrosis-29) Emerging Interventional MR Applications
From the reviews:
"This book outlines the history and evolution of magnetic resonance angiography (MRA), as well as clinical applications. ... I would recommend it for both medical physicists and radiology residents and physicians. ... Literature references at the end of each chapter enable readers to obtain more information. This book will be a good resource for those currently in the field as well as those who are just starting out. I would recommend it for readers who need to learn more about MRA." (Lara Dyke, Doody's Book Reviews, April, 2013)
"This book consists of two sections, each containing a number of independent chapters by different authors. The first section covers MRI and magnetic resonance angiography (MRA) techniques and the second section focuses more on application of MRA to imaging specific parts of the body. ... the book seems to thoroughly cover the field of MRA and would be a useful reference to any person who is interested or working in MRA." (Daniel Badger, Australasian Physical & Engineering Sciences in Medicine, Vol. 36, 2013)
Inhaltsverzeichnis
I. MRA Techniques Chapter 1 Basic Principles of MRI and MR AngiographyFrank R. Korosec, PhD Chapter 2Time-of-Flight AngiographySeong-Eun Kim, PhD, and Dennis L. Parker, PhD Chapter 3Phase Contrast MRI and Flow QuantificationBernd Jung, PhD, and Michael Markl, PhD Chapter 4Technical Aspect of Contrast-Enhanced MRAHonglei Zhang, MD, Wei Zhang, MD, and Martin R. Prince, MD, PhD Chapter 5Time-Resolved Contrast-Enhanced MR Angiography Using Cartesian MethodsStephen J. Riederer, PhD, Clifton R. Haider, PhD, Casey P. Johnson, and Petrice M. Mostardi Chapter 6Flow-Dependent Noncontrast MR Angiography Mitsue Miyakazi, PhD, Satosha Sugiura, Yoshimori Kassai, MS, Nobuyasu Ichinose, MS, and Hitoshi Kanazawa, MS Chapter 7Low-Dose Contrast-Enhanced MR AngiographyKambiz Nael, MD, Roya Saleh, MD, Gerhard Laub, PhD, and J. Paul Finn, MD Chapter 8 Vessel Wall Imaging TechniquesRui Li, PhD, Niranjan Balu, PhD, and Chun Yuan PhD Chapter 9 Noncontrast Coronary Artery ImagingAllison G. Hays, MD, Robert G. Weiss, MD, and Matthias Stuber, PhD Chapter 10 Contrast-Enhanced MR Angiography of the Coronary Arteries Qi Yang, MD, PhD, and Debaio Li, PhD Chapter 11 MR Angiography and High Field Strength: 3.0 Tesla and HigherHarald H. Quick, PhD, and Mark E. Ladd, PhD Chapter 12 Susceptibility Weighted Imaging and MR AngiographySamuel Barnes, MS, and E. Mark Haacke, PhD Chapter 13 Non-Cartesian MR AngiographyWalter F. Block, PhD, and Oliver Wieben, PhD Chapter 14 Parallel Imaging in AngiographyNicole Seiberlich, PhD, and Mark Griswold, PhD Chapter 15 Targeted Agents for Wall ImagingEmily A. Waters, PhD, and Thomas J. Meade, PhD Chapter 16 Intracranial Arterial and Venous DiseaseDariusch Reza Hadizadeh, MD, Horst Urbach, MD, and Winfried A. Willinek, MD II. Clinical Applications Chapter 17 Carotid and Vertebral Circulation: Clinical ApplicationsMax Winterman, MD, MAS, and Sugoto Mukherjee, MD Chapter 18 Thoracic AortaEmily Ward, MB, BCh, BAO, and James C. Carr, MD Chapter 19 Pulmonary MR AngiographyJames F.M. Meaney, MD, and Peter Beddy, MD Chapter 20 Abdominal Aorta and Mesenteric Vessels Klaus D. Hagspiel, MD, and Patrick T. Norton, MD Chapter 21Renal Vascular DiseasesTim Leiner, MD, PhD, Henrik Michaely, MD, PhD Chapter 22Upper Extremity and Hand VesselsRuth P. Lim, MBBS, MMed, FRANZCR, and Vivian L. Lee, MD, PhD, MBA Chapter 23 Lower Extremity Peripheral Arterial DiseaseJeremy D. Collins, MD, and Timothy Scanlon, MD Chapter 24 Noninvasive Imaging for Coronary Artery Disease Reza Nezafat, PhD, Susie N. Hong, MD, Peng Hu, PhD, Mehdi H. Moghari, PhD, and Warren J. Manning MD Chapter 25Venous Imaging: Techniques, Protocols and Clinical Applications Amir H. Davarpanah, MD, Philip Hodnett, MD, Jeremy D. Collins, MD, James C. Carr, MD, and Timothy Scanlon, MD Chapter 26Pediatric MR Angiography: Principles and Applications Bharathi D. Jagadeesan, MD, and David N. Loy, MD, PhD Chapter 27 Contrast Agents for MR Angiography Christoph U. Herborn, MD, MBA Chapter 28CE-MRA in the Age of Nephrogenic Systemic Fibrosis Aditya Bharatha MD, FRCPC, Sean P. Symons MPH, MD, FRCPC, and Walter Kucharczyk MD, FRCPC Chapter 29 Emerging Interventional MR Applications Clifford R. Weiss, MD, Aravindan Kolandaivelu, MD, Jeff Bulte, PhD, and Aravind Arepally, MD
Klappentext
Magnetic Resonance Angiography: Principles and Applications is a comprehensive text covering magnetic resonance angiography (MRA) in current clinical use. The first part of the book focuses on techniques, with chapters on contrast-enhanced MRA, time of flight, phase contrast, time-resolved angiography, and coronary MRA, as well as several chapters devoted to new non-contrast MRA techniques. Additionally, chapters describe in detail specific topics such as high-field MRA, susceptibility-weighted imaging, acceleration strategies such as parallel imaging, vessel wall imaging, targeted contrast agents, and low dose contrast-enhanced MRA. The second part of the book covers clinical applications of MRA, with each chapter describing the MRA techniques and protocols for a particular disease and vascular territory, as well as the pathology and imaging findings relevant to the disease state being discussed.
Magnetic Resonance Angiography: Principles and Applications is designed to bring together into a single textbook all of the MRA techniques in clinical practice today and will be a valuable resource for practicing radiologists and other physicians involved in the diagnosis and treatment of vascular diseases, as well as biomedical physicists, MRI technologists, residents, and fellows.
Editors
James C. Carr, MD, is the Director of Cardiovascular Imaging and Associate Professor of Radiology and Medicine at Northwestern University Feinberg School of Medicine, Chicago, Illinois, USA.
Timothy J. Carroll, PhD, is the Director of MRI Research and Associate Professor in the Departments of Biomedical Engineering and Radiology at Northwestern University, Evanston, Illinois, USA.
Magnetic Resonance Angiography: Principles and Applications is designedto bring together into a single textbook all of the MRA techniques in clinical practice today and will be a valuable resource for practicing radiologists and other physicians involved in the diagnosis and treatment of vascular diseases, as well as biomedical physicists, MRI technologists, residents, and fellows.
Editors
James C. Carr, MD, is Director of Cardiovascular Imaging and Associate Professor of Radiology and Medicine at Northwestern University Feinberg School of Medicine, Chicago, Illinois, USA.
Timothy J. Carroll, PhD, is Assistant Professor in the Department of Radiology at Northwestern University Feinberg School of Medicine, Chicago, Illinois, USA.
Editors
James C. Carr, MD, is Director of Cardiovascular Imaging and Associate Professor of Radiology and Medicine at Northwestern University Feinberg School of Medicine, Chicago, Illinois, USA.
Timothy J. Carroll, PhD, is the Director of MRI Research and Associate Professor in the Departments of Biomedical Engineering and Radiology at Northwestern University, Evanston, Illinois, USA.
Provides a comprehensive deillegalscription of current techniques and clinical applications of MR angiography
rn
Written by internationally renowned experts in their respective fields
rn
Addresses both the technical and clinical aspects of MR angiography
rn
Describes the currently used clinical applications of MR angiography, emphasizing their practicality and utility in day-to-day practice
rn
Discusses the risks of Nephrogenic Systemic Fibrosis and safer alternatives to Gadolinium contrast agents
rn
