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Evidence for differentiation of arousal and activation in normal adults

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VaezMousavi S. M., Barry R. J., Rushby J. A., Clarke A. R.
Acta Neurobiologiae Experimentalis
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2007
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vol. 67
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issue 2
179-186
EN
'Arousal' at a particular time has been defined as the energetic state at that moment, reflected in electrodermal activity and measured by skin conductance level. In contrast, task related 'activation' has been defined as the change in arousal from a resting baseline to the task situation. The present study, replicating some aspects of a previous investigation of these ideas in children, aimed to further explore whether the separation of 'arousal' and 'activation' was useful in describing state effects on the phasic Orienting Response (OR) and behavioral performance. A continuous performance task (CPT) was used with normal adults. It was found that the magnitude of the mean phasic OR to targets was dependent on arousal, but not on task-related activation. A performance measure (reaction time) improved with increasing activation, but not with arousal. These findings support our previous suggestions concerning the value of conceptualizing arousal and activation as separable aspects of the energetics of physiological and behavioral function.
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Arousal and activation effects on physiological and behavioral responding during a continuous performance task

86%
VaezMousavi S. M., Barry R. J., Rushby J. A., Clarke A. R.
Acta Neurobiologiae Experimentalis
|
2007
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vol. 67
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issue 4
461-470
EN
Based on previous work indicating different neural substrates, two aspects of energetic state, 'arousal' and 'activation', have been conceptualized separately in our laboratory. 'Arousal' has been defined as the energetic state at any particular time, and task-related 'activation' as the task-related change in state from resting baseline to the task situation. Both are reflected in electrodermal activity and measured by skin conductance level. Our previous studies in this area have indicated that physiological responses to stimuli in a task are dependent on the arousal level at the time of stimulus presentation, rather than the task-related activation. In contrast, performance on the task is dependent on the task-related activation, rather than the current arousal level. That is, different aspects of the individual's state determine physiological and behavioral responses. Those studies had examined between-subjects differences in arousal and activation. The present study investigated the relevance of this separation in an across-subjects examination of fluctuations in arousal and activation, and their effects on physiological and behavioral responses, during a continuous performance task. It was found that the magnitude of the phasic orienting reflex to the targets during the task was dependent mainly on arousal, rather than task-related relative activation. Reaction time improved with increasing relative activation, but not with arousal. These findings support our earlier conclusions relating to the usefulness of arousal and activation as distinguishable features of the energetics of physiological and behavioral functions.
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