The book is an outgrowth of a course taught by the author to a broad audience, including radiologists, residents, and undergraduates, and is written without any requirement for prerequisite mathematic knowledge. Part II discusses image formation, spatial encoding, and elements of pulse sequences. This approach does have some fundamental limitations: The mathematics of MR is both elegant and profound, and it is sometimes necessary to convey the full meaning of certain concepts. The math-free approach to MR physics has been tried by authors of several similar books and, for the most part, succeeds in this volume. It will probably be most useful to residents beginning their MR rotations, particularly those with an interest in neuroradiology. The final section of advanced topics gives the reader a good introduction to and overview of several topics, without the depth of coverage provided in earlier chapters. Other readers will always be interested in your opinion of the books you've read. It will probably be most useful to residents beginning their MR rotations, particularly those with an interest in neuroradiology. MRI: Basic Principles and Applications, 5th Edition, Magnetic Resonance Imaging: Physical and Biological Principles. Overall, Totally Accessible MRI provides a good explanation of the fundamentals of MR imaging physics and engineering and how these concepts relate to clinical radiology. The author has a profound understanding of his subject and manages to explain the principles underlying MR imaging in an intuitive and conversational manner, while also making the connection between the basic physics and more practical concerns (eg, image contrast, signal strength, and acquisition time). This is a welcome addition to the standard fare of MR imaging physics for radiologists and provides a good overview of the complex engineering necessary to generate state-of-the-art images. Part I describes the physical basis of MR and the hardware necessary to acquire images. If the address matches an existing account you will receive an email with instructions to reset your password. The book is divided into three parts. MRI in Resource Limited Settings: Challenges and Solutions to Low-field Permanent Magnet Imaging 2014 Neuroimaging Problem Solving on MRI with Dynamic Susceptibility Contrast Perfusion Weighted Imaging, Proton Magnetic Resonance Spectroscopy, and Diffusion Weighted Imaging: Basic Physics and Clinical Applications for Residents and Fellows It may take up to 1-5 minutes before you receive it. The discussion of image formation, including spatial localization and image contrast, is excellent. The author, recognized in the imaging community for his exceptional teaching methods and lectures, has written an easy to understand text. © 2020 Radiological Society of North America, MRI Techniques to Decrease Imaging Times in Children, Whole-Body High-Field-Strength (3.0-T) MR Imaging in Clinical Practice Part I. It may takes up to 1-5 minutes before you received it. This is a welcome addition to the standard fare of MR imaging physics for radiologists and provides a good overview of the complex engineering necessary to generate state-of-the-art images. The book is divided into three parts. Totally Accessible MRI: A User’s Guide to Principles, Technology, and Applications Michael L. Lipton MD, PhD (auth.) The book is an outgrowth of a course taught by the author to a broad audience, including radiologists, residents, and undergraduates, and is written without any requirement for prerequisite mathematic knowledge. Totally Accessible MRI provides an introduction to the principles of magnetic resonance (MR) imaging physics and practical use of MR imaging technology. © 2020 Radiological Society of North America, MRI Techniques to Decrease Imaging Times in Children, Whole-Body High-Field-Strength (3.0-T) MR Imaging in Clinical Practice Part I. A wealth of high quality illustrations, complemented by concise text, enables readers to gain a thorough understanding of the subject without requiring prior in-depth knowledge. Practical topics, selected for their value to clinical practice, include progressive changes in key MRI parameters, imaging time, and signal to noise ratio. Enter your email address below and we will send you your username, If the address matches an existing account you will receive an email with instructions to retrieve your username. Technical Considerations and Clinical Applications, Clinical Proton MR Spectroscopy in Central Nervous System Disorders, The History of MR Imaging as Seen through the Pages of, Whole-Body High-Field-Strength (3.0-T) MR Imaging in Clinical Practice
 Part II. Technical Considerations and Clinical Applications, MRI in Resource Limited Settings: Challenges and Solutions to Low-field Permanent Magnet Imaging, Neuroimaging Problem Solving on MRI with Dynamic Susceptibility Contrast Perfusion Weighted Imaging, Proton Magnetic Resonance Spectroscopy, and Diffusion Weighted Imaging: Basic Physics and Clinical Applications for Residents and Fellows, Advanced Visualization and Performance of a Cinematic 3D Rendering Prototype.

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