Handbook of PsychophysiologyJohn T. Cacioppo, Louis G. Tassinary, Gary G. Berntson The Handbook of Psychophysiology has been the authoritative resource for more than a quarter of a century. Since the third edition was published a decade ago, the field of psychophysiological science has seen significant advances, both in traditional measures such as electroencephalography, event-related brain potentials, and cardiovascular assessments, and in novel approaches and methods in behavioural epigenetics, neuroimaging, psychoneuroimmunology, psychoneuroendocrinology, neuropsychology, behavioural genetics, connectivity analyses, and non-contact sensors. At the same time, a thoroughgoing interdisciplinary focus has emerged as essential to scientific progress. Emphasizing the need for multiple measures, careful experimental design, and logical inference, the fourth edition of the Handbook provides updated and expanded coverage of approaches, methods, and analyses in the field. With state-of-the-art reviews of research in topical areas such as stress, emotion, development, language, psychopathology, and behavioural medicine, the Handbook remains the essential reference for students and scientists in the behavioural, cognitive, and biological sciences. |
From inside the book
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... signal, obtained during repeated activations of AU10 14.2 Continuous cardiovascular records 14.3 Top: Schematic illustration of typical kinetocardiogram signal from a chest site in line with the V4 ECG electrode meridian, over the fifth ...
... signal, obtained during repeated activations of AU10 14.2 Continuous cardiovascular records 14.3 Top: Schematic illustration of typical kinetocardiogram signal from a chest site in line with the V4 ECG electrode meridian, over the fifth ...
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... signal covariation across different regions or voxels is then assessed to identify brain networks (Biswal, Yetkin, Haughton, & Hyde, 1995; Fox, Snyder, Vincent, & Raichle, 2007; Yeo et al., 2011). Both taskrelated and restingstate fMRI ...
... signal covariation across different regions or voxels is then assessed to identify brain networks (Biswal, Yetkin, Haughton, & Hyde, 1995; Fox, Snyder, Vincent, & Raichle, 2007; Yeo et al., 2011). Both taskrelated and restingstate fMRI ...
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... signal in fMRI. Activation and deactivation in both PET and fMRI reflect changes in neural activity only indirectly, and they measure different biological processes related to brain activity, which may be broadly defined as the ...
... signal in fMRI. Activation and deactivation in both PET and fMRI reflect changes in neural activity only indirectly, and they measure different biological processes related to brain activity, which may be broadly defined as the ...
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... signal). Susceptibility artifacts in fMRI occur because magnetic gradients near air and fluid sinuses and at the edges of the brain cause local inhomogeneities in the magnetic field that affects the signal, causing distortion in ...
... signal). Susceptibility artifacts in fMRI occur because magnetic gradients near air and fluid sinuses and at the edges of the brain cause local inhomogeneities in the magnetic field that affects the signal, causing distortion in ...
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... Signal. Acquisition. and. Physiology. MR Physics and BOLD Basics Both structural and functional MRI images are obtained using the same scanner; the only difference is in how the scanner is programmed. A brief overview of the image ...
... Signal. Acquisition. and. Physiology. MR Physics and BOLD Basics Both structural and functional MRI images are obtained using the same scanner; the only difference is in how the scanner is programmed. A brief overview of the image ...
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amplitude amygdala analysis artifacts autonomic autonomic nervous system average baroreflex baseline behavior Berntson blood pressure brain activity brain microstates brain stimulation breathing Cacioppo cardiac cardiovascular changes Clinical Neurophysiology cognitive coil components contraction correlated cortical effects electric field electrodermal activity electrodes electromyography EMG activity emotional ERP waveform eventrelated example experimental facial factors Figure fMRI frequency function gastric heart period heart rate human imaging impedance cardiography increases inference interval Journal measures methods microstate motoneurons motor cortex movements muscle nervous system neural NeuroImage neurons Neuroscience onset output parasympathetic peak performance phosphenes physiological potential prefrontal cortex processes psychological Psychophysiology receptors recording reflex regions relationship respiratory response RMSE rTMS scalp schizophrenia signal skin conductance spatial specific studies subjects surface EMG sympathetic target task Tassinary tDCS techniques temporal TMS pulse transcranial magnetic stimulation typically variability visual voltage voxels wave waveform