Contributors Introduction Chapter 1: Electrophysiological basis of MEG signals Fernando H. Lopes da Silva Chapter 2: Instrumentation and data pre-processing Lauri Parkkonen Chapter 3: Measurements Lauri Parkkonen and Riitta Salmelin Chapter 4: The dowser in the fields: Searching for MEG sources Sylvain Baillet Chapter 5: Statistical Inference in MEG Distributed Source Imaging Dimitrios Pantazis, Richard M. Leahy Chapter 6: Multi-Dipole Modelling in MEG Riitta Salmelin Chapter 7: Estimating Distributed Representations of Evoked Responses and Oscillatory Brain Activity Ole Jensen and Christian Hesse Chapter 8: Anatomically and Functionally Constrained Minimum-Norm Estimates Matti S. Hamalainen, Fa-Hsuan Lin, and John C. Mosher Chapter 9: Non-invasive functional tomographic connectivity analysis with magnetoencephalography Joachim Gross, Jan Kujala, Riitta Salmelin, Alfons Schnitzler Chapter 10: Combining neuroimaging techniques: the future Jean-Baptiste Poline, Line Garnero and Pierre-Jean Lahaye Chapter 11: Somatosensory and motor function Ryusuke Kakigi and Nina Forss Chapter 12: The use of MEG in clinical settings Jyrki P. Makela Chapter 13: From perception to linguistic analysis Riitta Salmelin Chapter 14: Using magnetoencephalography to elucidate the principles of deep brain stimulation Morten L. Kringelbach, Peter C. Hansen, Alex L. Green, Tipu Z. Aziz Index
Peter C. Hansen, DPhil, is the Director of Neuroinformatics at the Birmingham University Imaging Centre (BUIC) and Senior Research Fellow in the School of Psychology, University of Birmingham, UK. Morten L. Kringelbach, DPhil, is the Director of Hedonia: Trygfonden Research Group and holds a dual appointment at the University of Oxford, UK, and Aarhus University, Denmark, where he is a Senior Research Fellow and a Professor of Neuroscience, respectively. Riitta Salmelin, DSc (Tech), is Academy Professor at the Brain Research Unit, Low Temperature Laboratory, Helsinki University of Technology, Finland.
"In combination with EEG and MR-based cortical reconstruction, MEG has considerably improved in the past ten years to become very close to the brain imager's long-awaited ideal-a non-invasive method capable of reconstructing human brain activity in both time and space. In this impressive volume, suitable for both beginners as well as advanced users, MEG methodology is reviewed in great depth. Any neuroscientist who wishes to use this underexploited brain-imaging method, or simply to better understand the power and limitations of published MEG papers, should study this book-clearly a landmark in the field." --Stanislas Dehaene, Member, French Academy of Sciences, Professor, College de France, Directeur, INSERM "Users of the increasingly popular technique of magnetoencephalography will welcome this excellent introductory guide to non-invasive imaging of the dynamics of the brain. The clear, tutorial style, plugs a major gap in the literature of MEG by providing a comprehensive overview of theory, data acquisition and analysis using state-of-the-art techniques. Clinicians and scientists will both find this is a useful reference text as well as of value in training programmes." --Gary Green, Director, York Neuroimaging Centre, UK "An essential reference for MEG researchers and a crucial resource for cognitive neuroscientists and clinicians contemplating MEG experiments or evaluating the MEG literature. Expert, comprehensive and deep, this volume fills a long-recognized void. The book clearly and convincingly answers the question, 'why MEG?,' as well as providing the best 'how-to-MEG' manual currently available." --Alec Marantz, Professor of Linguistics and Psychology, New York University "The capability of MEG to combine the temporal resolution of electrophysiology with reasonable spatial localization power is extremely useful - but not sufficiently appreciated. The ambitious goal of this first-rate collection of how-to articles on MEG experimentation is to provide readers with the necessary background and expertise to understand the underpinnings of MEG and execute a state-of-the-art study. The aim is admirably met; one wishes this book had existed for the last ten years! The careful technical descriptions combined with extensive documentation and rich graphical illustrations provide a compelling guide to implementing MEG research, with a particular emphasis on source localization. The contributors are the recognized experts in this area. Undoubtedly, the volume will facilitate the increased use of the method in basic and clinical settings and be the definitive guide to using MEG across research areas." --David Poeppel, Professor of Psychology and Neural Science, NYU "An outstanding introduction to the science of magnetoencephalography (MEG), written by some of the world's experts in the field. It covers a wide range of topics from sensory and motor functions to language and cognitive science, and includes clinical topics as well. Different analysis techniques are carefully discussed. The book provides a competent overview of this expanding field of neuroimaging, which is the best by far in terms of temporal resolution. Some chapters also describe approaches combining MEG with other imaging techniques, such as MRI, PET or EEG, which may be the future. Overall, the book is a great introduction for the novice and exciting to read for the expert as well." --Josef P. Rauschecker, Professor of Physiology and Biophysics, Neurology and Psychology Georgetown University Medical Center Featured in- Psystudents