We investigated afferent inputs from all areas in the frontal cortex (FC) to different subregions in the rostral anterior cingulate cortex (rACC). Using retrograde tracing in macaque monkeys, we quantified projection strength by counting retrogradely labeled cells in each FC area. The projection from different FC regions varied across injection sites in strength, following different spatial patterns. Importantly, a site at the rostral end of the cingulate sulcus stood out as having strong inputs from many areas in diverse FC regions. Moreover, it was at the integrative conjunction of three projection trends across sites. This site marks a connectional hub inside the rACC that integrates FC inputs across functional modalities. Tractography w...
Area 10, located in the frontal pole, is a unique specialization of the primate cortex. We studied t...
To investigate the fine anatomical organization of cortical inputs to visual association area TE, 2-...
Subregions of the cingulate cortex represent prominent intersections in the structural networks of t...
Brodmann areas 6, 44 and 45 in the ventrolateral frontal cortex of the left hemisphere of the human ...
Reward-guided decision-making depends on a network of brain regions. Among these are the orbitofront...
Recent studies have shown that functional connectivity in the human brain may be detected by analyzi...
Functional magnetic resonance imaging (fMRI) techniques allow definition of cortical nodes that are ...
International audienceIn humans, the posterior cingulate cortex contains an area sensitive to visual...
AbstractStudies in monkeys show clear anatomical and functional distinctions among networks connecti...
Functional magnetic resonance imaging (fMRI) techniques allow definition of cortical nodes that are ...
The functions of prefrontal cortex (PFC) areas are constrained by their anatomical connections. Ther...
The frontal pole cortex (FPC) plays key roles in various higher-order functions and is highly develo...
International audienceCortical connectivity conforms to a series of organizing principles that are c...
Investigations of the cellular and connectional organization of the lateral frontal cortex (LFC) of ...
Area 10, located in the frontal pole, is a unique specialization of the primate cortex. We studied t...
To investigate the fine anatomical organization of cortical inputs to visual association area TE, 2-...
Subregions of the cingulate cortex represent prominent intersections in the structural networks of t...
Brodmann areas 6, 44 and 45 in the ventrolateral frontal cortex of the left hemisphere of the human ...
Reward-guided decision-making depends on a network of brain regions. Among these are the orbitofront...
Recent studies have shown that functional connectivity in the human brain may be detected by analyzi...
Functional magnetic resonance imaging (fMRI) techniques allow definition of cortical nodes that are ...
International audienceIn humans, the posterior cingulate cortex contains an area sensitive to visual...
AbstractStudies in monkeys show clear anatomical and functional distinctions among networks connecti...
Functional magnetic resonance imaging (fMRI) techniques allow definition of cortical nodes that are ...
The functions of prefrontal cortex (PFC) areas are constrained by their anatomical connections. Ther...
The frontal pole cortex (FPC) plays key roles in various higher-order functions and is highly develo...
International audienceCortical connectivity conforms to a series of organizing principles that are c...
Investigations of the cellular and connectional organization of the lateral frontal cortex (LFC) of ...
Area 10, located in the frontal pole, is a unique specialization of the primate cortex. We studied t...
To investigate the fine anatomical organization of cortical inputs to visual association area TE, 2-...
Subregions of the cingulate cortex represent prominent intersections in the structural networks of t...