Understanding decision-making deficits in neurological conditions: insights from models of natural action selection
- 11 April 2007
- journal article
- Published by The Royal Society in Philosophical Transactions Of The Royal Society B-Biological Sciences
- Vol. 362 (1485), 1641-1654
- https://doi.org/10.1098/rstb.2007.2058
Abstract
Models of natural action selection implicate fronto-striatal circuits in both motor and cognitive 'actions'. Dysfunction of these circuits leads to decision-making deficits in various populations. We review how computational models provide insights into the mechanistic basis for these deficits in Parkinson's patients and those with ventromedial frontal damage. We then consider implications of the models for understanding behaviour and cognition in attention-deficit/hyperactivity disorder (ADHD). Incorporation of cortical noradrenaline function into the model improves action selection in noisy environments and accounts for response variability in ADHD. We close with more general clinical implications.Keywords
This publication has 126 references indexed in Scilit:
- Action selection and refinement in subcortical loops through basal ganglia and cerebellumPhilosophical Transactions Of The Royal Society B-Biological Sciences, 2007
- Towards an executive without a homunculus: computational models of the prefrontal cortex/basal ganglia systemPhilosophical Transactions Of The Royal Society B-Biological Sciences, 2007
- Functional MRI in attention-deficit hyperactivity disorder: Evidence for hypofrontalityBrain & Development, 2005
- Orbitofrontal Cortex, Associative Learning, and ExpectanciesNeuron, 2005
- How laminar frontal cortex and basal ganglia circuits interact to control planned and reactive saccadesNeural Networks, 2003
- Striatal [ 123 I]β-CIT SPECT and prefrontal cognitive functions in Parkinson's diseaseJournal of Neural Transmission, 2000
- Phenotypical characterization of the neurons expressing the D1 and D2 dopamine receptors in the monkey striatumJournal of Comparative Neurology, 2000
- Feature Article: Distributed Modular Architectures Linking Basal Ganglia, Cerebellum, and Cerebral Cortex: Their Role in Planning and Controlling ActionCerebral Cortex, 1995
- Positron emission tomography demonstrates dopamine D2 receptor supersensitivity in the striatum of patients with early Parkinson's diseaseMovement Disorders, 1990
- The functional anatomy of basal ganglia disordersTrends in Neurosciences, 1989