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[0] Pleger B, Blankenburg F, Ruff CC, Driver J, Dolan RJ, Reward facilitates tactile judgments and modulates hemodynamic responses in human primary somatosensory cortex.J Neurosci 28:33, 8161-8 (2008 Aug 13)

[0] Ashe J, Georgopoulos AP, Movement parameters and neural activity in motor cortex and area 5.Cereb Cortex 4:6, 590-600 (1994 Nov-Dec)

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ref: -2018 tags: cortex layer martinotti interneuron somatostatin S1 V1 morphology cell type morphological recovery patch seq date: 03-06-2019 02:51 gmt revision:3 [2] [1] [0] [head]

Neocortical layer 4 in adult mouse differs in major cell types and circuit organization between primary sensory areas

  • Using whole-cell recordings with morphological recovery, we identified one major excitatory and seven inhibitory types of neurons in L4 of adult mouse visual cortex (V1).
  • Nearly all excitatory neurons were pyramidal and almost all Somatostatin-positive (SOM+) neurons were Martinotti cells.
  • In contrast, in somatosensory cortex (S1), excitatory cells were mostly stellate and SOM+ cells were non-Martinotti.
  • These morphologically distinct SOM+ interneurons correspond to different transcriptomic cell types and are differentially integrated into the local circuit with only S1 cells receiving local excitatory input.
  • Our results challenge the classical view of a canonical microcircuit repeated through the neocortex.
  • Instead we propose that cell-type specific circuit motifs, such as the Martinotti/pyramidal pair, are optionally used across the cortex as building blocks to assemble cortical circuits.
  • Note preponderance of axons.
  • Classifications:
    • Pyr pyramidal cells
    • BC Basket cells
    • MC Martinotti cells
    • BPC bipolar cells
    • NFC neurogliaform cells
    • SC shrub cells
    • DBC double bouquet cells
    • HEC horizontally elongated cells.
  • Using Patch-seq

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ref: Stice-2007.06 tags: electrodes recording small rats S1 PGA histology GFAP date: 01-24-2013 21:07 gmt revision:9 [8] [7] [6] [5] [4] [3] [head]

PMID-17409479[0] Thin microelectrodes reduce GFAP expression in the implant site in rodent somatosensory cortex.

  • Implanted 12 um and 25 um polymide coated stainless steel
    • Wires coated with poly-glycolic acid (PGA) to facilitate implantation.
  • Only looked to 4 weeks.
  • 12 um implants significantly less GFAP (astrocyte) reactivity at 4 weeks, no difference at 2 weeks (figure 9 & 10).
    • B = bare, P = PGA coated.
  • Can use to bolster the idea that smaller implants are less irritating.

____References____

[0] Stice P, Gilletti A, Panitch A, Muthuswamy J, Thin microelectrodes reduce GFAP expression in the implant site in rodent somatosensory cortex.J Neural Eng 4:2, 42-53 (2007 Jun)

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ref: Nicolelis-1998.11 tags: spatiotemporal spiking nicolelis somatosensory tactile S1 3b microwire array rate temporal coding code date: 12-28-2011 20:42 gmt revision:3 [2] [1] [0] [head]

PMID-10196571[0] Simultaneous encoding of tactile information by three primate cortical areas

  • owl monkeys.
  • used microwires arrays to decode the location of tactile stimuli; location was encoded through te population, not within single units.
  • areas 3b, S1 & S2.
  • used LVQ (learning vector quantization) backprop, LDA to predict/ classify touch trials; all yielded about the same ~60% accuracy. Chance level 33%.
  • Interesting: "the spatiotemporal character of neuronal responses in the SII cortex was shown to contain the requisite information for the encoding of stimulus location using temporally patterned spike sequences, whereas the simultaneously recorded neuronal responses in areas 3b and 2 contained the requisite information for rate coding."
    • They support this result by varying bin widths and looking at the % of correctly classivied trials. in SII, increasing bin width decreases (slightly but significantly) the prediction accuracy.

____References____

[0] Nicolelis MA, Ghazanfar AA, Stambaugh CR, Oliveira LM, Laubach M, Chapin JK, Nelson RJ, Kaas JH, Simultaneous encoding of tactile information by three primate cortical areas.Nat Neurosci 1:7, 621-30 (1998 Nov)

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ref: Pleger-2008.08 tags: S1 reward fMRI human date: 10-07-2008 23:06 gmt revision:1 [0] [head]

PMID-18701678[0] Reward facilitates tactile judgments and modulates hemodynamic responses in human primary somatosensory cortex.

  • "Remarkably, primary somatosensory cortex contralateral to the judged hand was reactivated at the point of reward delivery, despite the absence of concurrent somatosensory input at that time point."
    • hence, it is probably rostral to the central sulcus too.
  • the same as http://m8ta.com/index.pl?pid=630
  • rewarded humans with $
  • people had to discriminate the frequency of electrical stimulation to their left/right index fingers. i guess a vibrator would have been hard in the magnet of an MRI machine.
  • reward cue was visually instructed.
  • reference Janaina's paper. http://www.jneurosci.org/cgi/content/full/27/39/10608

____References____

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ref: Ashe-1994.12 tags: Georgoplous motor control M1 S1 SUA electrophysiology 2D date: 04-09-2007 20:27 gmt revision:2 [1] [0] [head]

PMID-7703686[0] Movement parameters and neural activity in motor cortex and area 5

  • 290 cells in the motor cortex and 207 cells in area 5 (S1)
  • median R^2 = 0.581 & 0.530 in motor cortex
  • most prominent representation of target direction; least prominent representation of acceleration. (though statistically significant correlations were observed for all behavioral parameters)

Duke does not have online access to the article :(

____References____