The right inferior frontal gyrus as pivotal node and effective regulator of the basal ganglia-thalamocortical response inhibition circuit

Abstract: The involvement of specific basal ganglia-thalamocortical circuits in response inhibition has been extensively mapped in animal models. However, the pivotal nodes and directed casual regulation within this inhibitory circuit in humans remains controversial. Here, we capitalize on the recent progress in robust and biologically plausible directed causal modelling (DCM-PEB) and a large response inhibition dataset (n=218; 104 males) acquired with concomitant functional fMRI to determine key nodes, their causal reg… Show more

“…On the other hand, GLM results revealed increased activity in bilateral IFG, although stronger in the right side for angry expression faces, was found under active taVNS. It has been proposed that IFG, especially the right side, is a pivotal neural hub in regulating behavioral inhibition, and the activation of IFG was positively correlated with inhibitory control ability (Rubia et al ., 2003; Aron et al ., 2007; Chevrier et al ., 2007; Zhuang et al ., 2022). Considering that ADHD children show reduced activation in right IFG relative to normal controls during Go/No-Go task (Monden et al ., 2012).…”

“…In everyday life it allows us to control automatic urges at perceptual, cognitive, and behavioral levels (Diamond, 2013). Prefrontal cortical (PFC) circuits critically implement inhibitory control on the neural level (Goldstein et al ., 2007), particularly the inferior frontal gyrus (IFG) (Munakata et al ., 2011; Zhuang et al ., 2022). Interestingly, deficits in inhibitory control (e.g.…”

Transcutaneous auricular vagus nerve stimulation enhanced inhibitory control via increasing intrinsic prefrontal couplings

“…On the other hand, GLM results revealed increased activity in bilateral IFG, although stronger in the right side for angry expression faces, was found under active taVNS. It has been proposed that IFG, especially the right side, is a pivotal neural hub in regulating behavioral inhibition, and the activation of IFG was positively correlated with inhibitory control ability (Rubia et al ., 2003; Aron et al ., 2007; Chevrier et al ., 2007; Zhuang et al ., 2022). Considering that ADHD children show reduced activation in right IFG relative to normal controls during Go/No-Go task (Monden et al ., 2012).…”

“…In everyday life it allows us to control automatic urges at perceptual, cognitive, and behavioral levels (Diamond, 2013). Prefrontal cortical (PFC) circuits critically implement inhibitory control on the neural level (Goldstein et al ., 2007), particularly the inferior frontal gyrus (IFG) (Munakata et al ., 2011; Zhuang et al ., 2022). Interestingly, deficits in inhibitory control (e.g.…”

Transcutaneous auricular vagus nerve stimulation enhanced inhibitory control via increasing intrinsic prefrontal couplings