Fifty Years of Magnetoencephalography
Beginnings, Technical Advances, and Applications
Herausgeber: Papanicolaou, Andrew C; Wheless, James W; Roberts, Timothy P L
Fifty Years of Magnetoencephalography
Beginnings, Technical Advances, and Applications
Herausgeber: Papanicolaou, Andrew C; Wheless, James W; Roberts, Timothy P L
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Fifty Years of Magnetoencephalography celebrates the discovery and evolution of the newest method for imaging the activity of the human brain--magnetoencephalography, or MEG. This volume reveals the degree to which particular brain areas, revealed through MEG, contribute to different behavioral and psychological functions like sensation, motor behavior, and language. It also details current clinical applications of this technology in epilepsy surgery and indicates what the future applications are most likely to be.
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- Produktdetails
- Verlag: Hurst & Co.
- Seitenzahl: 444
- Erscheinungstermin: 30. Juli 2020
- Englisch
- Abmessung: 257mm x 180mm x 23mm
- Gewicht: 1111g
- ISBN-13: 9780190935689
- ISBN-10: 0190935685
- Artikelnr.: 60560610
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
- Verlag: Hurst & Co.
- Seitenzahl: 444
- Erscheinungstermin: 30. Juli 2020
- Englisch
- Abmessung: 257mm x 180mm x 23mm
- Gewicht: 1111g
- ISBN-13: 9780190935689
- ISBN-10: 0190935685
- Artikelnr.: 60560610
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
* Section One: The Beginnings
* 1. THE FIRST MEG REPORT: 1968
* David Cohen
* Massachusetts Institute of Technology
* 2. THE BEGINNING OF BIOMAGNETISM AND MEG RESEARCH IN FINLAND IN THE
1970s
* Toivo Katila
* Helsinki University of Technology
* 3. A VIEW FROM NEAR THE BEGINNING OF MEG: AFTER HALF A CENTURY
* Lloyd Kaufman
* New York University
* Section Two: Technical Advances
* 4. PHYSIOLOGICAL BASES OF MEG AND EEG
* Yoshio Okada
* Boston Children's Hospital and Harvard Medical School
* 5. WHICH PART OF THE NEURONAL CURRENT CAN BE DETERMINED BY EEG?
* A.S. Fokas, P Hashemzadeh and R. Leahy
* University of Cambridge and University of Southern California
* 6. MEG SOURCE ESTIMATION: TRANSFORMING THE SENSOR-LEVEL SIGNALS TO
ESTIMATES OF BRAIN ACTIVITY
* Matti S. Hämäläinen
* Massachusetts General Hospital and Harvard Medical School
* 7. The Need for and the Road to Hybrid MEG-MRI
* Risto J. Ilmoniemi
* Aalto University School of Science
* 8. MAGNETOENCEPHALOGRAPHY USING OPTICALLY PUMPED MAGNETOMETERS
* Elena Boto, Niall Holmes, Tim Tierney, James Leggett, Ryan Hill,
Stephanie Mellor, Gillian Roberts, Gareth Barnes, Richard Bowtell and
Matt Brookes
* University of Nottingham and the Wellcome Trust Centre for
Neuroimaging, University College London
* Section Three: Applications to Epilepsy
* 9. GUIDELINES AND PRACTICAL CONSIDERATIONS FOR MAPPING EPILEPTIFORM
ACTIVITY WITH MAGNETOENCEPHALOGRAPHY
* Roozbeh Rezaie, James W. Wheless, and Abbas Babajani-Feremi.
* The University of Tennessee Health Science Center
* 10. BEYOND THE IRRITATIVE ZONE: USE OF MEG TO CHARACTERIZE ASPECTS OF
THE EPILEPTOGENIC ZONE
* Eduardo M. Castillo, Tara Kleineschay, Milena Korostenskaja , James
Baumgartner and Ki Hyeong Lee
* Florida Hospital for Children
* 11. USE OF MULTIPLE FREQUENCY BANDS IN MEG FOR CHARACTERIZATION OF
EPILEPSY
* Woorim Jeong and Chun Kee Chung
* Seoul National University
* 12. CAN MAGNETOENCEPHALOGRAPHY IDENTIFY THE EPILEPTOGENIC PATHOLOGY
IN CHILDREN?
* Won Seok Chang and Hiroshi Otsubo
* The Hospital for Sick Children, University of Toronto
* 13. REVISIONAL ANALYSIS OF EEG AND MEG BASED ON COMPREHENSIVE
EPILEPSY CONFERENCE
* Nobukazu Nakasato, Akitake Kanno, Makoto Ishida, Shin-ichiro Osawa,
* Masaki Iwasaki, Yosuke Kakisaka and Kazutaka Jin
* Tohoku University Graduate School of Medicine
* 14. EPILEPTIC SLOW WAVE ACTIVITY
* Stefan Rampp and Martin Kaltenhäuser
* University Hospital, Erlangen University
* Section Four: Somatosensory, Motor and Language Mapping
* 15. CLINICAL MOTOR MAPPING WITH MEG: HISTORICAL APPROACHES,
CHALLENGES AND RECOMMENDATIONS FOR BEST PRACTICE
* William Gaetz, PhD.
* The Children's Hospital of Philadelphia, University of Pennsylvania
* Christos Papadelis, Boston Children's Hospital, Harvard Medical
School and
* Tony Wilson, University of Nebraska Medical Center
* 16. INVESTIGATIONS OF THE SOMATOSENSORY SYSTEM WITH MEG: FROM
RESEARCH TO CLINICAL APPLICATIONS
* Xavier De Tiègeand
* Hôpital Erasme, Université libre de Bruxelles and
* Veikko Jousmäki, Aalto University School of Science and Nanyang
Technological University
* 17. LANGUAGE MAPPING WITH MEG: CLINICAL AND RESEARCH APPLICATIONS
* Panagiotis G. Simos
* University of Crete, School of Medicine
* Susan M. Bowyer
* Henry Ford Hospital and Wayne State University
* Kyousuke Kamada
* Asahikawa Medical University
* Section Five: Exploring the Brain Mechanisms of Cognition
* 18. READING, READING ACQUISITION AND READING DISABILITY (DYSLEXIA)
Panagiotis G. Simos
* University of Crete School of Medicine
* 19. MEG DECODING COGNITIVE FUNCTION WITH MEG
* Dimitrios Pantazis
* Massachusetts Institute of Technology
* 20. HOW BRAIN RHYTHMS REFLECT COGNITIVE PROCESSES
* Joachim Gross
* Westphalian-Wilhelms-University of Muenster
* Section Six: Neuronal Correlates of Cognitive and Affective Disorders
* 21. APPLICATIONS OF MEG TO AUTISM SPECTRUM DISORDER
* Kristina Safar, Margot J. Taylor,
* Hospital for Sick Children, Toronto
* Junko Matsuzaki and Timothy P.L. Roberts
* Children's Hospital of Philadelphia
* 22. FUNCTIONAL WOUNDS OF AN INVISIBLE INJURY: VISUALIZING COGNITION
IN PTSD
* Benjamin T. Dunkley and Margot J. Taylor
* Hospital for Sick Children, University of Toronto
* 23. IDENTIFYING NEURAL ABNORMALITIES IN SCHIZOPHRENIA
* J. Christopher Edgar
* Children's Hospital of Philadelphia and
* Gregory A. Miller
* University of California, Los Angeles
* 24. BIOMARKERS IN PEDIATRIC MEG
* Julia M. Stephen, Isabel Solis, John F.L. Pinner, Felicha T.
Candelaria-Cook
* The Mind Research Network, Lovelace Biomedical and Environmental
Research Institute
* and The University of New Mexico
* 25. MAGNETOENCEPHALOGRAPHY IN Alzheimer's disease: CORRELATION WITH
CURRENT BIOMARKERS
* David López-Sanz; Jaisalmer de Frutos-Lucas; Gianluca Susi, and
Fernando Maestú,
* Complutense University of Madrid
* POSTSCRIPT
* Section One: The Beginnings
* 1. THE FIRST MEG REPORT: 1968
* David Cohen
* Massachusetts Institute of Technology
* 2. THE BEGINNING OF BIOMAGNETISM AND MEG RESEARCH IN FINLAND IN THE
1970s
* Toivo Katila
* Helsinki University of Technology
* 3. A VIEW FROM NEAR THE BEGINNING OF MEG: AFTER HALF A CENTURY
* Lloyd Kaufman
* New York University
* Section Two: Technical Advances
* 4. PHYSIOLOGICAL BASES OF MEG AND EEG
* Yoshio Okada
* Boston Children's Hospital and Harvard Medical School
* 5. WHICH PART OF THE NEURONAL CURRENT CAN BE DETERMINED BY EEG?
* A.S. Fokas, P Hashemzadeh and R. Leahy
* University of Cambridge and University of Southern California
* 6. MEG SOURCE ESTIMATION: TRANSFORMING THE SENSOR-LEVEL SIGNALS TO
ESTIMATES OF BRAIN ACTIVITY
* Matti S. Hämäläinen
* Massachusetts General Hospital and Harvard Medical School
* 7. The Need for and the Road to Hybrid MEG-MRI
* Risto J. Ilmoniemi
* Aalto University School of Science
* 8. MAGNETOENCEPHALOGRAPHY USING OPTICALLY PUMPED MAGNETOMETERS
* Elena Boto, Niall Holmes, Tim Tierney, James Leggett, Ryan Hill,
Stephanie Mellor, Gillian Roberts, Gareth Barnes, Richard Bowtell and
Matt Brookes
* University of Nottingham and the Wellcome Trust Centre for
Neuroimaging, University College London
* Section Three: Applications to Epilepsy
* 9. GUIDELINES AND PRACTICAL CONSIDERATIONS FOR MAPPING EPILEPTIFORM
ACTIVITY WITH MAGNETOENCEPHALOGRAPHY
* Roozbeh Rezaie, James W. Wheless, and Abbas Babajani-Feremi.
* The University of Tennessee Health Science Center
* 10. BEYOND THE IRRITATIVE ZONE: USE OF MEG TO CHARACTERIZE ASPECTS OF
THE EPILEPTOGENIC ZONE
* Eduardo M. Castillo, Tara Kleineschay, Milena Korostenskaja , James
Baumgartner and Ki Hyeong Lee
* Florida Hospital for Children
* 11. USE OF MULTIPLE FREQUENCY BANDS IN MEG FOR CHARACTERIZATION OF
EPILEPSY
* Woorim Jeong and Chun Kee Chung
* Seoul National University
* 12. CAN MAGNETOENCEPHALOGRAPHY IDENTIFY THE EPILEPTOGENIC PATHOLOGY
IN CHILDREN?
* Won Seok Chang and Hiroshi Otsubo
* The Hospital for Sick Children, University of Toronto
* 13. REVISIONAL ANALYSIS OF EEG AND MEG BASED ON COMPREHENSIVE
EPILEPSY CONFERENCE
* Nobukazu Nakasato, Akitake Kanno, Makoto Ishida, Shin-ichiro Osawa,
* Masaki Iwasaki, Yosuke Kakisaka and Kazutaka Jin
* Tohoku University Graduate School of Medicine
* 14. EPILEPTIC SLOW WAVE ACTIVITY
* Stefan Rampp and Martin Kaltenhäuser
* University Hospital, Erlangen University
* Section Four: Somatosensory, Motor and Language Mapping
* 15. CLINICAL MOTOR MAPPING WITH MEG: HISTORICAL APPROACHES,
CHALLENGES AND RECOMMENDATIONS FOR BEST PRACTICE
* William Gaetz, PhD.
* The Children's Hospital of Philadelphia, University of Pennsylvania
* Christos Papadelis, Boston Children's Hospital, Harvard Medical
School and
* Tony Wilson, University of Nebraska Medical Center
* 16. INVESTIGATIONS OF THE SOMATOSENSORY SYSTEM WITH MEG: FROM
RESEARCH TO CLINICAL APPLICATIONS
* Xavier De Tiègeand
* Hôpital Erasme, Université libre de Bruxelles and
* Veikko Jousmäki, Aalto University School of Science and Nanyang
Technological University
* 17. LANGUAGE MAPPING WITH MEG: CLINICAL AND RESEARCH APPLICATIONS
* Panagiotis G. Simos
* University of Crete, School of Medicine
* Susan M. Bowyer
* Henry Ford Hospital and Wayne State University
* Kyousuke Kamada
* Asahikawa Medical University
* Section Five: Exploring the Brain Mechanisms of Cognition
* 18. READING, READING ACQUISITION AND READING DISABILITY (DYSLEXIA)
Panagiotis G. Simos
* University of Crete School of Medicine
* 19. MEG DECODING COGNITIVE FUNCTION WITH MEG
* Dimitrios Pantazis
* Massachusetts Institute of Technology
* 20. HOW BRAIN RHYTHMS REFLECT COGNITIVE PROCESSES
* Joachim Gross
* Westphalian-Wilhelms-University of Muenster
* Section Six: Neuronal Correlates of Cognitive and Affective Disorders
* 21. APPLICATIONS OF MEG TO AUTISM SPECTRUM DISORDER
* Kristina Safar, Margot J. Taylor,
* Hospital for Sick Children, Toronto
* Junko Matsuzaki and Timothy P.L. Roberts
* Children's Hospital of Philadelphia
* 22. FUNCTIONAL WOUNDS OF AN INVISIBLE INJURY: VISUALIZING COGNITION
IN PTSD
* Benjamin T. Dunkley and Margot J. Taylor
* Hospital for Sick Children, University of Toronto
* 23. IDENTIFYING NEURAL ABNORMALITIES IN SCHIZOPHRENIA
* J. Christopher Edgar
* Children's Hospital of Philadelphia and
* Gregory A. Miller
* University of California, Los Angeles
* 24. BIOMARKERS IN PEDIATRIC MEG
* Julia M. Stephen, Isabel Solis, John F.L. Pinner, Felicha T.
Candelaria-Cook
* The Mind Research Network, Lovelace Biomedical and Environmental
Research Institute
* and The University of New Mexico
* 25. MAGNETOENCEPHALOGRAPHY IN Alzheimer's disease: CORRELATION WITH
CURRENT BIOMARKERS
* David López-Sanz; Jaisalmer de Frutos-Lucas; Gianluca Susi, and
Fernando Maestú,
* Complutense University of Madrid
* POSTSCRIPT