Chemoarchitectonics and corticocortical terminations within the superior temporal sulcus of the rhesus monkey: Evidence for subdivisions of superior temporal polysensory cortex

@article{Cusick1995ChemoarchitectonicsAC,
  title={Chemoarchitectonics and corticocortical terminations within the superior temporal sulcus of the rhesus monkey: Evidence for subdivisions of superior temporal polysensory cortex},
  author={Catherine G. Cusick and Benjamin Seltzer and Monique G. Cola and E Griggs},
  journal={Journal of Comparative Neurology},
  year={1995},
  volume={360}
}
Cortex of the upper bank of the superior temporal sulcus (STS) in macaque monkeys, termed the superior temporal polysensory (STP) region, corresponds largely to architectonic area TPO and is connectionally distinct from adjacent visual areas. To investigate whether or not the STP region contains separate subdivisions, immunostaining for parvalbumin and neurofilament protein (using the SMI‐32 antibody) was compared with patterns of corticocortical terminations in the STS. Chemoarchitectonic… 

Architectonics and cortical connections of the upper bank of the superior temporal sulcus in the rhesus monkey: An analysis in the tangential plane

TLDR
The findings support the parcellation of area TPO into three subdivisions and extend findings of chemoarchitectonic modules within high‐order association cortices.

Posterior cingulate and retrosplenial cortex connections of the caudal superior temporal region in the rhesus monkey

TLDR
Caudal part of the STG and adjacent cortex of the upper bank of the superior temporal sulcus (caudal area TPO) have reciprocal connections with the caudal cingulate gyrus, which is consistent with its putative role of localizing sounds in space as proposed in recent studies.

Uniformity and Diversity of Cortical Projections to Precuneate Areas in the Macaque Monkey: What Defines Area PGm?

TLDR
Analysis of afferent connections supported the existence of two areas: PGm and area 31, compatible with a primary role of PGm in visuospatial cognition (including navigation), while supporting a role for area 31 in sensorimotor planning and coordination.

Corticocortical connections of visual, sensorimotor, and multimodal processing areas in the parietal lobe of the macaque monkey

We studied the corticocortical connections of architectonically defined areas of parietal and temporoparietal cortex, with emphasis on areas in the intraparietal sulcus (IPS) that are implicated in

The laminar pattern of connections between prefrontal and anterior temporal cortices in the Rhesus monkey is related to cortical structure and function.

TLDR
The pattern of cortical axonal termination was associated with both the structural type of the cortex of origin and the structure of the destination cortex, and efferent fibers from a single origin in either prefrontal or anterior temporal cortex terminated in different patterns depending on their target area.

Multimodal architectonic subdivision of the rostral part (area F5) of the macaque ventral premotor cortex

TLDR
The present data, together with other functional and connectional data, suggest that the three rostral PMv areas F5p, F5a, and F5c correspond to distinct cortical entities, possibly involved in different aspects of motor control and cognitive motor functions.

Overlapping and nonoverlapping cortical projections to cortex of the superior temporal sulcus in the rhesus monkey: Double anterograde tracer studies

To examine how fibers from functionally distinct cortical zones interrelate within their target areas of the superior temporal sulcus (STS) in the rhesus monkey, separate anterograde tracers were

Multimodal architectonic subdivision of the caudal ventrolateral prefrontal cortex of the macaque monkey

TLDR
The present architectonic data suggest that areas 8/FEF, 45B and 8r are part of the oculomotor frontal cortex, while area 45A is a distinct entity of the VLPF domain involved in high-order processing of nonspatial information.

Cortical input to the frontal pole of the marmoset monkey.

TLDR
The pattern of frontopolar afferents suggests an interface between high-order representations of the sensory world and internally generated states, including working memory, which may subserve ongoing evaluation of the consequences of decisions as well as other cognitive functions.

Inferior parietal lobule projections to anterior inferotemporal cortex (area TE) in macaque monkey.

TLDR
It is demonstrated, by using the anterograde tracer BDA, that much of the inferior parietal lobule (IPL) has direct connections to anterior-ventral TE (TEav) around the anterior middle temporal sulcus (amts).
...

References

SHOWING 1-10 OF 85 REFERENCES

Posterior parietal cortex in rhesus monkey: I. Parcellation of areas based on distinctive limbic and sensory corticocortical connections

TLDR
The connections between posterior parietal areas and visual areas located on the medial surface of the occipital and parieto‐occipital cortex, containing peripheral representations of the visual field, represent a major previously unrecognized source of visual inputs to the parietal association cortex.

Intrinsic connections and architectonics of the superior temporal sulcus in the rhesus monkey

The intrinsic connections of the superior temporal sulcus (STS) in the rhesus monkey were studied by anterograde and retrograde tracer techniques and correlated with a reevaluation of cortical

Post‐rolandic cortical projections of the superior temporal sulcus in the rhesus monkey

The efferent connections of different cytoarchitectonic areas of the superior temporal sulcus (STS) in the rhesus monkey with parieto‐temporo‐occipital cortex were investigated using autoradiographic

Efferent cortical connections of multimodal cortex of the superior temporal sulcus in the rhesus monkey

TLDR
The observations indicate that the multimodal region of the superior temporal sulcus has reciprocal connections with the unimodal parasensory association cortices subserving somatosensory, auditory and visual modalities, as well as with other post‐Rolandic higher‐order association areas.

Parietal, temporal, and occipita projections to cortex of the superior temporal sulcus in the rhesus monkey: A retrograde tracer study

The afferent cortical connections of individual cytoarchitectonic areas within the superior temporal sucus (STS) of the rhesus monkey were studied by retrograde tracer techniques, including double

Frontal lobe connections of the superior temporal sulcus in the rhesus monkey

The frontal lobe connections of different architectonic areas of the superior temporal sulcus (STS) in the rhesus monkey were investigated with the aid of both anterograde and retrograde tracing

Anatomical segregation of two cortical visual pathways in the macaque monkey

TLDR
Examination of the two-dimensional reconstructions of the pattern of labeling after combined injections of fast blue and diamidino yellow in areas POa and TEO revealed that these areas are principally innervated by different prestriate areas, demonstrating that visual information from the striate cortex reaches inferior parietal and inferotemporal cortices through largely separate prestriated cortical pathways.

Inferior frontal eye field projections to the pursuit-related dorsolateral pontine nucleus and middle temporal area (MT) in the monkey

TLDR
The correlated projections of the inferior FEF to the DLPN, MT area, and SS may explain its reported role in smooth pursuit, in addition to its well-established role in the production of voluntary purposeful saccadic eye movements.

Cortical connections of MT in four species of primates: areal, modular, and retinotopic patterns.

TLDR
The results support the conclusions that prosimian primates and New World monkeys have at least ten visual and visuomotor areas in common and the connections of MT are remarkably consistent across four species of primates.
...