E-Book, Englisch, 1144 Seiten, Web PDF
Friston / Frith / Dolan Human Brain Function
2. Auflage 2004
ISBN: 978-0-08-047295-9
Verlag: Elsevier Science & Techn.
Format: PDF
Kopierschutz: 1 - PDF Watermark
E-Book, Englisch, 1144 Seiten, Web PDF
ISBN: 978-0-08-047295-9
Verlag: Elsevier Science & Techn.
Format: PDF
Kopierschutz: 1 - PDF Watermark
This updated second edition provides the state of the art perspective of the theory, practice and application of modern non-invasive imaging methods employed in exploring the structural and functional architecture of the normal and diseased human brain. Like the successful first edition, it is written by members of the Functional Imaging Laboratory - the Wellcome Trust funded London lab that has contributed much to the development of brain imaging methods and their application in the last decade. This book should excite and intrigue anyone interested in the new facts about the brain gained from neuroimaging and also those who wish to participate in this area of brain science.* Represents an almost entirely new book from 1st edition, covering the rapid advances in methods and in understanding of how human brains are organized* Reviews major advances in cognition, perception, emotion and action* Introduces novel experimental designs and analytical techniques made possible with fMRI, including event-related designs and non-linear analysis
Autoren/Hrsg.
Weitere Infos & Material
1;PART 1 IMAGING NEUROSCIENCEBRAIN SYSTEMS;18
2;SECTION 1 SENSORY, MOTOR AND PLASTICITY;20
2.1;1 The Motor System;22
2.2;2 Motor Control of Breathing;50
2.3;3 Perceptual Construction;64
2.4;4 Auditory Function;78
2.5;5 Somesthetic Function;92
2.6;6 The Cerebral Basis of Functional Recovery;122
2.7;7 Applied Computational Neuroanatomy in Disease;142
2.8;8 Plasticity in Cochlear Implant Patients;166
3;SECTION 2 VISION AND VISUAL PERCEPTION;176
3.1;9 Functional Specialisation in the Visual Brain: Probable and Improbable Visual Areas;178
3.2;10 Insights into Visual Consciousness;188
3.3;11 Processing Systems as Perceptual Systems;196
3.4;12 The Asynchrony of Visual Perception;210
3.5;13 The Chronoarchitecture of the Human Brain: Functional Anatomy Based on Natural Brain Dynamics and the Principle of Functional Independence;218
3.6;14 Unilateral Neglect and the Neuroanatomy of Visuospatial Attention;248
4;SECTION 3 HIGHER COGNITIVE FUNCTIONS;260
4.1;15 Mechanisms of Attention;262
4.2;16 The Neural Correlates of Consciousness;286
4.3;17 Functional Imaging of Cognitive Psychopharmacology;320
4.4;18 Mechanisms of Control;346
5;SECTION 4 EMOTION AND MEMORY;380
5.1;19 Functional Neuroanatomy of Human Emotion;382
5.2;20 Central Representation of Autonomic States;414
5.3;21 Reciprocal Links Between Emotion and Attention;436
5.4;22 Brain Systems Mediating Reward;462
5.5;23 Implicit Memory;488
5.6;24 Explicit Memory;504
5.7;25 Prefrontal Cortex and Long-Term Memory Encoding and Retrieval;516
6;SECTION 5 LANGUAGE AND SEMANTICS;532
6.1;26 An Overview of Speech Comprehension and Production;534
6.2;27 The Feature-Based Model of Semantic Memory;550
6.3;28 The Functional Anatomy of Reading;564
6.4;29 The Neurocognitive Basis of Developmental Dyslexia;580
6.5;30 Detecting Language Activations with Functional Magnetic Resonance Imaging;600
7;PART 2 IMAGING NEUROSCIENCE-THEORY AND ANALYSIS;614
7.1;31 Experimental Design and Statistical Parametric Mapping;616
8;SECTION 1 COMPUTATIONAL NEUROANATOMY;650
8.1;32 Rigid Body Registration;652
8.2;33 Spatial Normalisation Using Basis Functions;672
8.3;34 High-Dimensional Image Warping;690
8.4;35 Image Segmentation;712
8.5;36 Morphometry;724
9;SECTION 2 MODELLING;740
9.1;37 The General Linear Model;742
9.2;38 Contrasts and Classical Inference;778
9.3;39 Variance Components;798
9.4;40 Analysis of fMRI Time Series;810
9.5;41 Haemodynamic Modelling;840
9.6;42 Random-Effects Analysis;860
9.7;43 Hierarchical Models;868
10;SECTION 3 INFERENCE;882
10.1;44 Introduction to Random Field Theory;884
10.2;45 Developments in Random Field Theory;898
10.3;46 Nonparametric Permutation Tests for Functional Neuroimaging;904
10.4;47 Classical and Bayesian Inference;928
11;SECTION 4 FUNCTIONAL INTEGRATION;986
11.1;48 Functional Integration in the Brain;988
11.2;49 Functional Connectivity;1016
11.3;50 Effective Connectivity;1036
11.4;51 Volterra Kernels and Effective Connectivity;1066
11.5;52 Dynamic Causal Modelling;1080
11.6;53 Mathematical Appendix;1108
11.7;54 Mapping Brain Mappers: An Ethnographic Coda;1122
