cogs 107b – systems neuroscience lec03_01122010 – tactile sensation (a.k.a., touch sense or...
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Cogs 107b – Systems Neuroscience
www.dnitz.com
lec03_01122010 – tactile sensation (a.k.a., touch sense or mechanoreception)
the weekly principle: ‘topographic representation’
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topographic representation:
In many cases, neurons in the brain are anatomically (i.e., spatially) arranged in a systematic fashion such that those responding to (or ‘representing’) similar features of a single sensory modality (e.g., vision or audition) are grouped into the same space in the brain. An important feature of such groupings is the interconnectivity of its members. Multiple such groups are, in turn, organized in a systematic fashion.
Sensory inputs that are topographically represented in the space of the brain may reflect actual space, as in the space of the retina or skin surface, or may reflect stimulus space as, for example, type of odor or sound frequency.
related concepts: surround inhibition, the cortical column, the homunculus
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1 barrel = 1 whisker
topographic representation
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Modalities of the somatosensory system
• 4 modalities: mechanoreception, proprioception, thermoreception, and nociception
• Critical for the experience of intimacy, social interaction, pleasure, pain and maintenance of general health, and much more
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Dorsal root ganglion cell structure
• Myelinated or unmyelinated pseudo-unipolar neuron• Central axon enters the spinal cord via the dorsal horn• Peripheral axon extends to the skin
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proprioception and touch sense: the ‘all-axon’ ganglion cell
ganglion cell types: breakdown by conduction speed
Aα – proprioception – myelinated, very fast (70-120 m/s)
Aβ – mechanoreception – myelinated, pretty fast (40-70 m/s)
Aδ – thermoreception, nociception, hair cell – myelinated, fast (12-36 m/s)
C – nociception – unmyelinated, slow (0.5-2 m/s)
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Dorsal root ganglion cell types
• Mechanoreception & proprioception• Encapsulated terminals• Thick, myelinated axons
• Fast conductance• Ascend via dorsal column
• Thermoreception & nociception• Bare nerve endings• Thin axons, myelinated or unmyelinated
• Slower conductance• Ascend via anterolateral column
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Meissner’s corpuscle
Pacinian corpuscle
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SA2’s
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excitatory response = more AP’s
inhibitory response = fewer AP’s
excitatory response = no change in AP rate
small versus large reponse fields
inhibitory surround
complete vs. incomplete
whole versus patchy
response fields
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two-point discrimination = Merkl disk density
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mechanoreceptors
type RA / SA depth response field sensitivity info. processed/best stimulus
Pacinian RA deep very large (hand) very high (10 nm) high-freq. vibration
Meissner RA shallow 3-5 mm slip / low-freq. vibration
Merkl SA shallow spotty 2-3 mm broad depth range form, texture / points, edges
(0.5 mm)
SA2 SA deep 12-25 mm hand shape / stretch
hair RA deep 10 mm 1 micron hair displacement
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small Merkl disk receptive field = fine texture discrimination (e.g., Braille)
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Meissner’s corpuscles = low-frequency vibration sensitivity
sensitivity to slip = grip control
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Pacinian corpuscles = frequency-dependent sensitivity to vibration
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dorsal root ganglion pathways to the brain
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Area 3b
• cortical columns in Area 3b receives inputs from one class of receptors from a specific area of the body
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Projections between structures
• Layer 2/3 > cortex to cortex• Layer 4 > thalamus to cortex• Layer 5 > cortex to subcortical structures• Layer 6 > cortex to thalamus
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the cortical column
merging RA info. into SA info.?
dynamical into static?
Pacinian’s/Meissner’s into Merkl’s?
low-resolution into high-resolution?
layer-specific inputs
primary somatosensory cortex: within-region (column) processing
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S1: direction-selective surround inhibition