Functional characteristics of the parallel SI- and SII-projecting neurons of the thalamic ventral posterior nucleus in the marmoset.

@article{Zhang2001FunctionalCO,
  title={Functional characteristics of the parallel SI- and SII-projecting neurons of the thalamic ventral posterior nucleus in the marmoset.},
  author={H. Q. Zhang and Gregory M. Murray and Gordon T Coleman and A. Bulent Turman and S. P. Zhang and Mark J. Rowe},
  journal={Journal of neurophysiology},
  year={2001},
  volume={85 5},
  pages={
          1805-22
        }
}
The functional organization of the primate somatosensory system at thalamocortical levels has been a matter of controversy, in particular, over the extent to which the primary and secondary somatosensory cortical areas, SI and SII, are organized in parallel or serial neural networks for the processing of tactile information. This issue was investigated for the marmoset monkey by recording from 55 single tactile-sensitive neurons in the lateral division of the ventral posterior nucleus of the… 
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Hierarchical equivalence of somatosensory areas I and II for tactile processing in the cerebral cortex of the marmoset monkey.
TLDR
The retention of responsiveness in SI neurons when SII was inactivated by cooling in the marmoset demonstrates that tactile inputs can reach SI without traversing an indirect, serially organized path through SII.
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Evidence is provided to support the equivalent hierarchy of S1 and S2 in processing sensory information of the rat and to support a direct thalamocortical projection from ventral posterolateral thalamic nucleus to S2.
The Somatosensory Thalamus and Associated Pathways
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Analysis of cortical inputs to individual digit representations of area 3b in four squirrel monkeys and one prosimian galago showed that feedback projections to individual digits overlapped extensively in the hand representations of areas 3b, 1, and parietal ventral (PV) and second somatosensory areas.
Serial or Parallel Processing? The Processing of Tactile Information in the Network between Thalamus and Somatosensory Cortices
TLDR
Under the current technical conditions, future research should rely more on experimental design to explore the top-down influence and brain plasticity on the processing of tactile information to further investigate the underlying neural mechanisms.
Human Thalamic Somatosensory Nucleus (Ventral Caudal, Vc) as a Locus for Stimulation by INPUTS from Tactile, Noxious and Thermal Sensors on an Active Prosthesis
TLDR
Thalamic TMIS may produce useful patterned somatotopic feedback to the CNS from sensors on an active prosthesis that is sometimes complicated by TMIS evoked pain in the representation of those parts of the body.
Parallel input makes the brain run faster
Preserved responsiveness of secondary somatosensory cortex in patients with thalamic stroke.
TLDR
The functional consequences of partial "central" deafferentation of the somatosensory cortex due to a lesion of the ventroposterior lateral nucleus (VPL) in patients at a chronic stage after solitary infarction of the thalamus is investigated.
Reorganization of Higher-Order Somatosensory Cortex After Sensory Loss from Hand in Squirrel Monkeys.
TLDR
This work addresses how the higher-order somatosensory cortex reactivates in the same monkeys after DCL that vary across cases in completeness, post-lesion recovery times, and types of treatments and indicates that Responses in higher- order areas S2 and PV can be stronger than those in area 3b, thus suggesting converging or alternative sources of inputs.
Spatiotemporal integration of tactile information in human somatosensory cortex
TLDR
The findings are consistent with the large receptive fields and long neuronal recovery cycles that have been described in S2/PV, and suggest that this expression of spatiotemporal integration underlies the complex functions associated with this region.
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References

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Hierarchical equivalence of somatosensory areas I and II for tactile processing in the cerebral cortex of the marmoset monkey.
TLDR
The retention of responsiveness in SI neurons when SII was inactivated by cooling in the marmoset demonstrates that tactile inputs can reach SI without traversing an indirect, serially organized path through SII.
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