1 | Introduction |
PART I | ANATOMICAL AND PHYSIOLOGICAL BASIS OF BIOELECTROMAGNETISM |
2 | Nerve and Muscle Cells |
3 | Subthreshold Membrane Phenomena |
4 | Active Behavior of the Membrane |
5 | Synapses, Receptor Cells, and Brain |
6 | The Heart |
PART II | BIOELECTRIC SOURCES AND CONDUCTORS AND THEIR MODELING |
7 | Volume Source and Volume Conductor |
8 | Source-field Models |
9 | Bidomain Model of Multicellular Volume Conductors |
10 | Electronic Neuron Models |
PART III | THEORETICAL METHODS IN BIOELECTROMAGNETISM |
11 | Theoretical Methods for Analyzing Volume Sources and Volume Conductors |
12 | Theory of Biomagnetic Measurements |
PART IV | ELECTRIC AND MAGNETIC MEASUREMENT OF THE ELECTRIC ACTIVITY OF NEURAL TISSUE |
13 | Electroencephalography |
14 | Magnetoencephalography |
PART V | ELECTRIC AND MAGNETIC MEASUREMENT OF THE ELECTRIC ACTIVITY OF THE HEART |
15 | 12-lead ECG-system |
16 | Vectorcardiographic Lead Systems |
17 | Other ECG Lead Systems |
18 | Distortion Factors in the ECG |
19 | The Basis of ECG Diagnosis |
20 | Magnetocardiography |
PART VI | ELECTRIC AND MAGNETIC STIMULATION OF NEURAL TISSUE |
21 | Functional Electric Stimulation |
22 | Magnetic Stimulation |
PART VII | ELECTRIC AND MAGNETIC STIMULATION OF THE HEART |
23 | Cardiac Pacing |
24 | Cardiac Defibrillation |
PART VIII | MEASUREMENT OF THE INTRINSIC ELECTRIC PROPERTIES OF BIOLOGICAL TISSUES |
25 | Impedance Plethysmography |
26 | Impedance Tomography |
27 | The Electrodermal Response |
PART IX | OTHER BIOELECTRIC PHENOMENA |
28 | The Electrical Signals Originating in the Eye |