Synopses & Reviews
Here is the first textbook to present a practical overview of the basic principles and clinical applications for 3 tesla (3 T) MR imaging. Organized into sections according to anatomical location, each case study is presented in a concise, two-page unit that enables the reader to digest and review the material in small sections. The author describes the situations that dictate the use of 3 T and explains the numerous clinical advantages of this field strength by drawing comparisons to corresponding studies at 1.5 T.
Highlights:
- Case studies from leading international experts covering the breadth of clinical MR
- Recommendations for how to optimize image quality and how to interpret the clinical findings
- Easy-to-follow descriptions of the strengths and limitations of 3 T
- 400 high-quality clinical images and illustrations depicting key concepts
- Discussion of the various pulse sequence approaches
Clinical 3T Magnetic Resonance is essential reading for all radiologists, radiology residents, MR physicists, and MR technologists seeking to master this emerging diagnostic tool.
Review
As well as being a how-to manual for 3T MR, this well-written book also provides specific tools for overcoming common challenges with 3T. ..Stand-alone chapters are short, concise, and packed with relevant information, making it easy to look up exactly what you need. As 3T MR imaging moves forward, we need well-explained guidance to begin to use this new technology in our own departments. Clinicial 3T Magnetic Resonance is that resource and will be a welcome addition to any MR imaging department library.--Radiologic TechnologyEasy to read...excellent examples of 3T MRI images...An excellent reference...covering...[the] advantages [of MRI] as well as providing recommendations on how to overcome its problems and shortcomings.--Doody's Book Reviews
Synopsis
This is the first textbook to present a practical overview of the basic principles and clinical applications for 3 tesla (3 T) MR imaging. Organized into sections according to anatomical location, each case study is presented in a concise, two-page unit that enables the reader to digest and review the material in small sections. The author describes the situations that dictate the use of 3 T and explains the numerous clinical advantages of this field strength by drawing comparisons to corresponding studies at 1.5 T.
Synopsis
An introduction to the premier clinical imaging field strength for MR
Here is the first textbook to present a practical overview of the basic principles and clinical applications for 3 tesla (3 T) MR imaging. Organized into sections according to anatomical location, each case study is presented in a concise, two-page unit that enables the reader to digest and review the material in small sections. The author describes the situations that dictate the use of 3 T and explains the numerous clinical advantages of this field strength by drawing comparisons to corresponding studies at 1.5 T.
Highlights:
- Case studies from leading international experts covering the breadth of clinical MR
- Recommendations for how to optimize image quality and how to interpret the clinical findings
- Easy-to-follow descriptions of the strengths and limitations of 3 T
- 400 high-quality clinical images and illustrations depicting key concepts
- Discussion of the various pulse sequence approaches
Clinical 3T Magnetic Resonance is essential reading for all radiologists, radiology residents, MR physicists, and MR technologists seeking to master this emerging diagnostic tool.
Synopsis
Clinical 3T Magnetic Resonance reviews the fundamentals of high field strength MR imaging with in-depth discussion of how to achieve the highest quality images. Differences from diagnostic studies at lower fields are emphasized. The discussions focus on clinical images from actual patient studies. Topics are covered in convenient two-page sections for easy reference in the clinical practice.
About the Author
John Sealy Distinguished Chair in Radiology; Professor and Chair; Department of Radiology; The University of Texas Medical Branch (UTMB); Galveston, TX, USA