Functional Specializations in Lateral Prefrontal Cortex Associated with the Integration and Segregation of Information in Working Memory

doi:10.1093/cercor/bhl010

Cerebral Cortex Advance Access originally published online on June 12, 2006
Cerebral Cortex 2007 17(5):993-1006; doi:10.1093/cercor/bhl010

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Functional Specializations in Lateral Prefrontal Cortex Associated with the Integration and Segregation of Information in Working Memory

Nicola De Pisapia, Jessica A. Slomski and Todd S. Braver

Department of Psychology, Washington University, Saint Louis, MO 63139, USA

Address correspondence to Nicola De Pisapia, Department of Psychology, Campus Box 1125, Washington University, Saint Louis, MO 63139, USA. Email: ndepisap{at}wustl.edu.

Control processes are thought to play an important role in workingmemory (WM), by enabling the coordination, transformation, andintegration of stored information. Yet little is known aboutthe neural mechanisms that subserve such control processes.This study examined whether integration operations within WMinvolve the activation of distinct neural mechanisms withinlateral prefrontal cortex (PFC). Event-related functional magneticresonance imaging was used to monitor brain activity while participantsperformed a mental arithmetic task. In the integration (IN)condition, a WM preload item had to be mentally inserted intothe last step of the math problem. This contrasted with thesegregation (SG) condition, which also required maintenanceof the WM preload while performing mental arithmetic but hadno integration requirement. Two additional control conditionsinvolved either ignoring the preload (math only condition) orignoring the math problem (recall only condition). Left anteriorPFC (Brodmann's Area [BA] 46/10) was selectively engaged byintegration demands, with activation increasing prior to, aswell as during the integration period. A homologous right anteriorPFC region showed selectively increased activity in the SG conditionduring the period in which the math problem and preload digitwere reported. Left middorsolateral PFC regions (BA 9/46) showedincreased, but equivalent, activity in both the SG and IN conditionsrelative to both control conditions. These results provide supportfor the selective role of lateral PFC in cognitive control overWM and suggest more specific hypotheses regarding dissociablePFC mechanisms involved during the integration and segregationof stored WM items.

Key Words: cognitive control • episodic buffer • frontopolar cortex • mental arithmetic • subgoal

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