Abstract
Studies of prospective memory and other paradigms requiring participants to remember delayed intentions typically reveal a distinction between lateral and medial rostral prefrontal cortex, whereby the experimental condition yields increased signal in the former region and decreased signal in the latter. These regions comprise nodes of larger “task-positive” and “task-negative” networks that often show opposite patterns of signal change in response to diverse cognitive demands. However, it is not clear to what extent activity in these networks is A) inverse but equivalent, or B) functionally dissociable. In order to address this question, participants performed an “intention-offloading” task while undergoing fMRI. On each trial they remembered a delayed intention, which they had the opportunity to fulfill after a brief filled delay. In one condition they were required to set an external reminder of this intention, while in the other they acted without any external memory aid. Results indicated a clear functional dissociation between the two networks. Compared with a control task with no delayed intention, there was a highly significant reduction in task-negative deactivation when participants used an external memory aid. However, there was no reduction in task-positive activation. These results are consistent with previous evidence that medial rostral prefrontal cortex plays a prominent role in representing the content of delayed intentions, accompanied by a reduction in BOLD signal and potentially increased theta-band oscillatory activity. This role is no longer required once an external reminder has been created. By contrast, lateral rostral prefrontal cortex may play a content-free role, unaffected by the offloading of content into the external environment.
Highlights
A consistent finding across such studies has been that intention maintenance is associated with increased signal in lateral rostral prefrontal cortex (PFC) and decreased signal in medial rostral PFC, corresponding approximately with the lateral and medial aspects of Brodmann Area 10 respectively (Burgess et al, 2011)
Scheeringa et al (2009) investigated a Sternberg working memory task, finding that there was a tight coupling between increased cognitive demand, increased frontal midline theta power, and reduced blood oxygen level-dependent (BOLD) signal in regions such as medial rostral PFC
This study investigated the influence of external reminders on brain activity associated with briefly remembering delayed intentions
Summary
The past 15 years have seen rising interest in neuroimaging paradigms investigating participants' ability to fulfill delayed intentions (Burgess et al, 2001, 2003; Gilbert et al, 2009; Gilbert, 2011; McDaniel et al, 2013; Momennejad & Haynes, 2012, 2013; Okuda et al, 1998; Reynolds et al, 2009; Simons et al, 2006; reviewed by Burgess et al, 2011). Gilbert et al (2012b) found that task difficulty, as measured by response time and error rate, did not account for task-induced deactivation in medial rostral PFC Activity in this region was enhanced in both an easy and a difficult perceptual task, compared with a condition of intermediate difficulty requiring stimulus-independent thought (i.e. cognitive processes uncoupled from the immediate sensory environment). Scheeringa et al (2009) investigated a Sternberg working memory task, finding that there was a tight coupling between increased cognitive demand, increased frontal midline theta power, and reduced BOLD signal in regions such as medial rostral PFC They concluded that such data “strongly suggests that increased frontal theta EEG power can be regarded as a direct consequence of the decreased default mode network activity as measured by fMRI” But not lateral, rostral PFC plays a prominent role in representing the content of delayed intentions, offloading might be predicted to preferentially influence activity in medial rostral PFC
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