Fundamentals of MRI

Fundamentals of MRI : An Interactive Learning Approach

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Fundamentals of MRI: An Interactive Learning Approach explores the physical principles that underpin the technique of magnetic resonance imaging (MRI). After covering background mathematics, physics, and digital imaging, the book presents fundamental physical principles, including magnetization and rotating reference frame. It describes how relaxation mechanisms help predict tissue contrast and how an MR signal is localized to a selected slice through the body. The text then focuses on frequency and phase encoding. It also explores the spin-echo sequence, its scan parameters, and additional imaging sequences, such as inversion recovery and gradient echo. The authors enhance the learning experience with practical materials. Along with questions, exercises, and solutions, they include ten interactive programs on the accompanying CD-ROM. These programs not only allow concepts to be clearly demonstrated and further developed, but also provide an opportunity to engage in the learning process through guided exercises. By providing a solid, hands-on foundation in the physics of MRI, this textbook helps students gain confidence with core concepts before they move on to further study or practical more

Product details

  • Hardback | 320 pages
  • 150 x 226 x 20mm | 580.6g
  • Taylor & Francis Inc
  • Washington, United States
  • English
  • New.
  • 304 black & white illustrations, 25 black & white tables
  • 1584889012
  • 9781584889014
  • 1,389,720

Table of contents

Introduction The Fundamentals of MRI An Interactive Learning Approach Using the Programs from Windows(R) Operating Systems Non-Windows Operating Systems Structure of the Book Mathematics, Physics, and Imaging for MRI Learning Outcomes Mathematics for MRI Physics for MRI Imaging for MRI Clinical Imaging Terms for MRI Basic Physical Principles Learning Outcomes Spins and the Net Magnetization Vector The Larmor Equation Nuclear Magnetic Resonance Longitudinal and Transverse Magnetization Rotating Frame of Reference Relaxation Mechanisms Learning Outcomes T1 and T2 Relaxation Effect of Magnetic Field Strength on Relaxation Mechanisms Saturation Recovery Graphs and Tissue Contrast Contrast Agents Slice Selection Learning Outcomes Gradient Fields Gradient Fields for Slice Selection RF Pulse for Slice Selection: Center Frequency and Transmitted Bandwidth The Slice Selection Program Acquiring Several Slices Additional Self-Assessment Questions Frequency Encoding Learning Outcomes Principles of Frequency Encoding Gradient Fields for Frequency Encoding The Frequency Encoding Demonstrator Effect of Gradient Strength and Receiver Bandwidth on Field of View (FOV) Additional Self-Assessment Questions Phase Encoding Learning Outcomes Principles of Phase Encoding Gradient Fields for Phase Encoding The Phase Encoding Demonstrator The Effect of Gradient Strength and Duration on Phase Shift Repeated Phase Encoding Steps The Data Matrix Additional Self-Assessment Questions The Spin-Echo Imaging Sequence Learning Outcomes The Concept of the Spin-Echo Sequence Demonstration of the Principles of the Spin-Echo Sequence TR and TE Timing Diagram Additional Self-Assessment Questions Scan Parameters for the Spin-Echo Imaging Sequence Learning Outcomes Image Gray-Scale Characteristics Image Spatial Characteristics Image Noise Characteristics Scan Time The Spin-Echo Image Simulator System Performance Assessment Further Imaging Sequences Learning Outcomes Inversion Recovery Sequence The Inversion Recovery Image Simulator The Gradient-Echo Sequence Flow Phenomena Flow Phenomena Demonstrator: Spin-Echo Imaging Sequence Magnetic Resonance Angiography (MRA) Multiple-Choice Questions Multiple-Choice Questions Answers to Multiple-Choice Questions Indexshow more

Review quote

Learning by feedback is essential, especially for a subject such as MRI. This interactive book with CD by Berry and Bulpitt provides an easy-to-follow, step-by-step process to efficiently assimilate and develop understanding of the fundamentals of MRI. It is suitable for students, postgraduates new to the field, and even those with a passing interest in MRI. The online teaching methods and exercises are both intuitive and informative. This will be an invaluable learning tool and resource for those interested in grappling with the complexities of MRI. I would highly recommend this interactive book to those wanting an understanding of MRI. -Vincent Khoo, Royal Marsden Hospital, London, UK An easy read for those interested in how MRI works but afraid of the heavy mathematics. The basic physics of MRI is clearly explained in layman's language. Many worked examples help the reader to walk through the fundamental concepts. My favorite part is the exercise questions with answers provided. The multiple-choice questions at the end of the book with answers best prepare the reader to pass an exam on this subject. The best text I have seen for students who are preparing for an exam on MRI physics and for self-study. -Larry Zeng, University of Utah, Salt Lake City, USAshow more

About Elizabeth Berry

Elizabeth Berry Ltd, Leeds, UK University of Leeds, School of Computing, Leeds, UKshow more