05612nam 22006974a 450 991045868320332120191030193358.01-281-03813-X97866110381370-08-053312-4(CKB)1000000000364635(EBL)312727(OCoLC)476100535(SSID)ssj0000167893(PQKBManifestationID)12036630(PQKBTitleCode)TC0000167893(PQKBWorkID)10177802(PQKB)10941987(MiAaPQ)EBC312727(PPN)152909478(Au-PeEL)EBL312727(CaPaEBR)ebr10190310(CaONFJC)MIL103813(OCoLC)469633289(EXLCZ)99100000000036463520030806d2004 uy 0engur|n|---|||||txtccrHandbook of MRI pulse sequences[electronic resource] /Matt A. Bernstein, Kevin F. King, Ziaohong Joe ZhouAmsterdam ;Boston Academic Pressc20041 online resource (1041 p.)Description based upon print version of record.0-12-800520-3 0-12-092861-2 Includes bibliographical references and index.Front Cover; Handbook of MRI Pulse Sequences; Copyright Page; Contents; Forewords; Preface; PART I: Background; Introduction; Chapter 1. Tools; 1.1 Fourier Transforms; 1.2 Rotating Reference Frame; PART II: Radiofrequency Pulses; Introduction; Chapter 2. Radiofrequency Pulse Shapes; 2.1 Rectangular Pulses; 2.2 SINC Pulses; 2.3 SLR Pulses; 2.4 Variable-Rate Pulses; Chapter 3. Basic Radiofrequency Pulse Functions; 3.1 Excitation Pulses; 3.2 Inversion Pulses; 3.3 Refocusing Pulses; Chapter 4. Spectral Radiofrequency Pulses; 4.1 Composite Radiofrequency Pulses; 4.2 Magnetization Transfer Pulses4.3 Spectrally Selective PulsesChapter 5. Spatical Radiofrequency Pulses; 5.1 Multidimensional Pulses; 5.2 Ramp (TONE) Pulses; 5.3 Spatial Saturation Pulses; 5.4 Spatial-Spectral Pulses; 5.5 Tagging Pulses; Chapter 6. Adiabatic Radiofrequency Pulses; 6.1 Adiabatic Excitation Pulses; 6.2 Adiabatic Inversion Pulses; 6.3 Adiabatic Refocusing Pulses; PART III: Gradients; Introduction; Chapter 7. Gradient Lobe Shapes; 7.1 Simple Gradient Lobes; 7.2 Bridged Gradient Lobes; 7.3 Gradients for Oblique Acquisitions; Chapter 8. Imaging Gradients; 8.1 Frequency-Encoding Gradients8.2 Phase-Encoding Gradients8.3 Slice Selection Gradients; Chapter 9. Motion-Sensitizing Gradients; 9.1 Diffusion-Weighting Gradients; 9.2 Flow-Encoding Gradients; Chapter 10. Correction Gradients; 10.1 Concomitant-Field Correction Gradients; 10.2 Crusher Gradients; 10.3 Eddy-Current Compensation; 10.4 Gradient Moment Nulling; 10.5 Spoiler Gradients; 10.6 Twister (Projection Dephaser) Gradients; PART IV: Data Acquisition k-space Sampling,and Image Reconstruction; Introduction; Chapter ll. Signal Acquisition and k-Space Sampling; 11.1 Bandwidth and Sampling; 11.2 k-Space11.3 Keyhole, BRISK, and TRICKS11.4 Real-Time Imaging; 11.5 Two-Dimensional Acquisition; 11.6 Three-Dimensional Acquisition; Chapter 12. Basic of Physiologic Gating Triggering,and Monitoring; 12.1 Cardiac Triggering; 12.2 Navigators; 12.3 Respiratory Gating and Compensation; Chapter 13. Common Image Reconstruction Techniques; 13.1 Fourier Reconstruction; 13.2 Gridding Reconstruction; 13.3 Parallel-Imaging Reconstruction; 13.4 Partial Fourier Reconstruction; 13.5 Phase Difference Reconstruction; 13.6 View Sharing; PART V: Pulse Sequences; Introduction; Chapter 14. Basic Pulse Sequences14.1 Gradient Echo14.2 Inversion Recovery; 14.3 Radiofrequency Spin Echo; Chapter 15. Angiographic Pulse Sequences; 15.1 Black Blood Angiography; 15.2 Phase Contrast; 15.3 TOF and CEMRA; Chapter 16. Echo Train Pulse Sequences; 16.1 Echo Planar Imaging; 16.2 GRASE; 16.3 PRESTO; 16.4 RARE; Chapter 17. Advanced Pulse Sequence Techniques; 17.1 Arterial Spin Tagging; 17.2 Diffusion Imaging; 17.3 Dixon's Method; 17.4 Driven Equilibrium; 17.5 Projection Acquisition; 17.6 Spiral; Appendix I: Table of Symbols; Appendix II: Table of Constants and Conversion Factors; Appendix III: Common AbbreviationsIndexMagnetic Resonance Imaging (MRI) is among the most important medical imaging techniques available today. There is an installed base of approximately 15,000 MRI scanners worldwide. Each of these scanners is capable of running many different ""pulse sequences"", which are governed by physics and engineering principles, and implemented by software programs that control the MRI hardware. To utilize an MRI scanner to the fullest extent, a conceptual understanding of its pulse sequences is crucial. This book offers a complete guide that can help the scientists, engineers, clinicians, and technologisMagnetic resonance imagingHandbooks, manuals, etcMagnetic resonance imagingMathematical modelsHandbooks, manuals, etcElectronic books.Magnetic resonance imagingMagnetic resonance imagingMathematical models616.07/548Bernstein Matt A854343King Kevin Franklin971885Zhou Xiaohong Joe971886MiAaPQMiAaPQMiAaPQBOOK9910458683203321Handbook of MRI pulse sequences2209639UNINA