Neurophysiological factors in human information processing capacity
| Autor: | R. S. Kahn, T. van Raalten, Gerry Jager, J.M. Jansma, Nick F. Ramsey |
|---|---|
| Rok vydání: | 2003 |
| Předmět: |
Adult
Male medicine.diagnostic_test Process (engineering) Working memory Brain activity and meditation Information processing Brain Cognition Neuropsychological Tests Magnetic Resonance Imaging Memory Neurolinguistics Conditioning Psychological medicine Humans Human multitasking Female Neurology (clinical) Functional magnetic resonance imaging Psychology Neuroscience Cognitive psychology |
| Zdroj: | Brain. 127:517-525 |
| ISSN: | 1460-2156 |
| Popis: | What determines how well an individual can manage the complexity of information processing demands when several tasks have to be executed simultaneously? Various theoretical frameworks address the mechanisms of information processing and the changes that take place when processes become automated, and brain regions involved in various types of information processing have been identified, as well as sequences of events in the brain. The neurophysiological substrate of human information processing capacity, i.e. the amount that can be processed simultaneously, is, however, unresolved, as is the basis of inter-individual variability in capacity. Automatization of cognitive functions is known to increase capacity to process additional tasks, but behavioural indices of automatization are poor predictors of processing capacity in individuals. Automatization also leads to a decline of brain activity in the working memory system. In this study, we test the hypothesis that processing capacity is closely related to the way that the brain adjusts to practice of a single cognitive task, i.e. to the changes in neuronal activity that accompany automatization as measured with functional MRI (fMRI). Using a task that taxes the working memory system, and is sensitive to automatization, performance improved while activity in the network declined, as expected. The key finding is that the magnitude of automatization-induced reduction of activity in this system was a strong predictor for the ability to perform two different working memory tasks simultaneously (after scanning). It explained 60% of the variation in information processing capacity across individuals. In contrast, the behavioural measures of automatization did not predict this. We postulate that automatization involves at least two partially independent neurophysiological mechanisms, i.e. (i) streamlining of neuronal communication which improves performance on a single task; and (ii) functional trimming of neuronal ensembles which enhances the capacity to accommodate processing of additional tasks, potentially by facilitating rapid switching of instruction sets or contexts. Finally, this study shows that fMRI can provide information that predicts behavioural output, which is not provided by overt behavioural measures. |
| Databáze: | OpenAIRE |
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