دانلود کتاب Susceptibility Weighted Imaging in MRI: Basic Concepts and Clinical Applications

MRI Susceptibility Weighted Imaging discusses the promising new MRI technique called Susceptibility Weighted Imaging (SWI), a powerful tool for the diagnosis and treatment of acute stroke, allowing earlier detection of acute stroke hemorrhage and easier detection of microbleeds in acute ischemia. The book is edited by the originators of SWI and features contributions from the top leaders in the science. Presenting an even balance between technical/scientific aspects of the modality and clinical application, this book includes over 100 super high-quality radiographic images and 100 additional graphics and tables.Content: Chapter 1 Introduction to Susceptibility Weighted Imaging (pages 1–16): Jurgen R. Reichenbach and E. Mark HaackeChapter 2 Magnetic Susceptibility (pages 17–31): Jaladhar Neelavalli and Yu?Chung Norman ChengChapter 3 Gradient Echo Imaging (pages 33–46): Jurgen R. Reichenbach and E. Mark HaackeChapter 4 Phase and its Relationship to Imaging Parameters and Susceptibility (pages 47–71): Alexander Rauscher, E. Mark Haacke, Jaladhar Neelavalli and Jurgen R. ReichenbachChapter 5 Understanding T2*?Related Signal Loss (pages 73–87): Jan Sedlacik, Alexander Rauscher, Jurgen R. Reichenbach and E. Mark HaackeChapter 6 Processing Concepts and SWI Filtered Phase Images (pages 89–101): Alexander Rauscher and Stephan WitoszynskyjChapter 7 MR Angiography and Venography of the Brain (pages 103–119): Samuel Barnes, Zhaoyang Jin, Yiping P. Du, Andreas Deistung and Jurgen R. ReichenbachChapter 8 Brain Anatomy with Phase (pages 121–136): Jeff Duyn and Oliver SpeckChapter 9 SWI Venographic Anatomy of the Cerebrum (pages 137–150): Daniel K. Kido, Jessica Tan, Steven Munson, Udochukwu E. Oyoyo and J. Paul JacobsonChapter 10 Novel Approaches to Imaging Brain Tumors (pages 151–170): Sandeep Mittal, Bejoy Thomas, Zhen Wu and E. Mark HaackeChapter 11 Traumatic Brain Injury (pages 171–190): Karen Tong, Barbara Holshouser and Zhen WuChapter 12 Imaging Cerebral Microbleeds with SWI (pages 191–214): Muhammad Ayaz, Alexander Boikov, Grant McAuley, Mathew Schrag, Daniel K. Kido, E. Mark Haacke and Wolff KirschChapter 13 Imaging Ischemic Stroke and Hemorrhage with SWI (pages 215–234): Nathaniel Wycliffe, Guangbin Wang, Masahiro Ida and Zhen WuChapter 14 Visualizing Deep Medullary Veins with SWI in Newborn and Young Infants (pages 235–248): J. Paul Jacobson, Udochukwu E. Oyoyo, Daniel K. Kido, John Wuchenich and Stephen AshwalChapter 15 Susceptibility Weighted Imaging in Multiple Sclerosis (pages 249–264): Yulin Ge, Robert I. Grossman and E. Mark HaackeChapter 16 Cerebral Venous Diseases and Occult Intracranial Vascular Malformations (pages 265–293): Hans?Joachim Mentzel, Guangbin Wang, Masahiro Ida and Jurgen R. ReichenbachChapter 17 Sturge–Weber Syndrome (pages 295–305): Zhifeng Kou, Csaba Juhasz and Jiani HuChapter 18 Visualizing the Vessel Wall Using Susceptibility Weighted Imaging (pages 307–318): Yang Qi, Samuel Barnes and E. Mark HaackeChapter 19 Imaging Breast Calcification Using SWI (pages 319–328): Michael D. Noseworthy, Colm Boylan and Ali Fatemi?ArdekaniChapter 20 Susceptibility Weighted Imaging at Ultrahigh Magnetic Fields (pages 329–349): Andreas Deistung, Samuel Barnes, Yulin Ge and Jurgen R. ReichenbachChapter 21 Improved Contrast in MR Imaging of the Midbrain Using SWI (pages 352–367): Elena Manova and E. Mark HaackeChapter 22 Measuring Iron Content with Phase (pages 369–401): Manju Liu, Charbel Habib, Yanwei Miao and E. Mark HaackeChapter 23 Validation of Phase Iron Detection with Synchrotron X?Ray Fluorescence (pages 403–418): Helen Nichol, Karla Hopp, Bogdan F. Gh. Popescu and E. Mark HaackeChapter 24 Rapid Calculation of Magnetic Field Perturbations from Biological Tissue in Magnetic Resonance Imaging (pages 419–459): Jaladhar Neelavalli, Yu?Chung Norman Cheng and E. Mark HaackeChapter 25 SWIM: Susceptibility Mapping as a Means to Visualize Veins and Quantify Oxygen Saturation (pages 461–485): Jin Tang, Jaladhar Neelavalli, Saifeng Liu, Yu?Chung Norman Cheng and E. Mark HaackeChapter 26 Effects of Contrast Agents in Susceptibility Weighted Imaging (pages 487–515): Andreas Deistung and Jurgen R. ReichenbachChapter 27 Oxygen Saturation: Quantification (pages 517–528): E. Mark Haacke, Karthik Prabhakaran, Ilaya Raja Elangovan, Zhen Wu and Jaladhar NeelavalliChapter 28 Quantification of Oxygen Saturation of Single Cerebral Veins, the Blood Capillary Network, and its Dependency on Perfusion (pages 529–542): Jan Sedlacik, Song Lai and Jurgen R. ReichenbachChapter 29 Integrating Perfusion Weighted Imaging, MR Angiography, and Susceptibility Weighted Imaging (pages 543–559): Meng Li and E. Mark HaackeChapter 30 Functional Susceptibility Weighted Magnetic Resonance Imaging (pages 561–575): Markus Barth and Daniel B. RoweChapter 31 Complex Thresholding Methods for Eliminating Voxels That Contain Predominantly Noise in Magnetic Resonance Images (pages 577–603): Daniel B. Rowe, Jing Jiang and E. Mark HaackeChapter 32 Automatic Vein Segmentation and Lesion Detection: From SWI?MIPs to MR Venograms (pages 6056–618): Samuel Barnes, Markus Barth and Peter KoopmansChapter 33 Rapid Acquisition Methods (pages 619–635): Song Lai, Yingbiao Xu and E. Mark HaackeChapter 34 High?Resolution Venographic BOLD MRI of Animal Brain at 9.4 T: Implications for BOLD fMRI (pages 637–647): Seong?Gi Kim and Sung?Hong ParkChapter 35 Susceptibility Weighted Imaging in Rodents (pages 649–667): Yimin Shen, Zhifeng Kou and E. Mark HaackeChapter 36 Ultrashort TE Imaging: Phase and Frequency Mapping of Susceptibility Effects in Short T2 Tissues of the Musculoskeletal System (pages 669–696): Jiang Du, Michael Carl and Graeme M. Bydder