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Somatosensory Cortex Information

The lateral postcentral gyrus is a prominent structure in the parietal lobe of the human brain and an important landmark. It is the location of primary somatosensory cortex, the main sensory receptive area for the sense of touch. Like other sensory areas, there is a map of sensory space in this location, called the sensory homunculus.

The primary somatosensory cortex was initially defined from surface stimulation studies of Wilder Penfield, and parallel surface potential studies of Bard, Woolsey, and Marshall. Although initially defined to be roughly the same as Brodmann areas 3, 1 and 2, more recent work by Kaas has suggested that for homogeny with other sensory fields only area 3 should be referred to as "primary somatosensory cortex", as it receives the bulk of the thalamocortical projections from the sensory input fields.

Contents

Postcentral gyrus

The lateral postcentral gyrus is bounded by:

Brodmann areas 3, 1 and 2

Brodmann areas 3, 1 and 2 make up the primary somatosensory cortex of the human brain (or S1). Because Brodmann sliced the brain somewhat obliquely, he encountered area 1 first; however, from rostral to caudal the Brodmann designations are 3, 1 and 2, respectively.

Brodmann area 3 is subdivided into area 3a and 3b. Where BA 1 occupies the apex of the postcentral gyrus, the rostral border of BA 3a is in the nadir of the Central sulcus, and is caudally followed by BA 3b, then BA 1, with BA 2 following and ending in the nadir of the postcentral sulcus. BA 3b is now conceived as the primary somatosensory cortex because 1) it receives dense inputs from the NP nucleus of the thalamus; 2) its neurons are highly responsive to somatosensory stimuli, but not other stimuli; 3) lesions here impair somatic sensation; and 4) electrical stimulation evokes somatic sensory experience. BA 3a also receives dense input from the thalamus; however, this area is concerned with proprioception.

Areas 1 and 2 receive dense inputs from BA 3b. The projection from 3b to 1 primarily relays texture information; the projection to area 2 emphasizes size and shape. Lesions confined to these areas produce predictable dysfunction in texture, size, and shape discrimination.

Somatosensory cortex, like other neocortex, is layered. Like other sensory cortex (i.e. visual and auditory) the thalamic inputs project into layer IV, which in turn project into other layers. Also like other sensory cortices, S1 neurons are grouped together with similar inputs and responses into vertical columns that extend across cortical layers (e.g. As shown by Vernon Mountcastle, into alternating layers of slowly adapting and rapidly adapting neurons; or spatial segmentation of the vibrissae on mouse/rat cerebral cortex).

This area of cortex, as shown by Wilder Penfield and others, is organized somatotopically, having the pattern of a homunculus. That is, the legs and trunk fold over the midline; the arms and hands are along the middle of the area shown here; and the face is near the bottom of the figure. While it is not well-shown here, the lips and hands are enlarged on a proper homunculus, since a larger number of neurons in the cerebral cortex are devoted to processing information from these areas.

The positions of Brodmann area's 3, 1 and 2 are - from the nadir of the central sulcus towards the apex of the postcentral gyrus - 3a, 3b, 1, and 2 respectively.

These areas contain cells that project to the secondary somatosensory cortex.

Clinical significance

Lesions affecting the primary somatosensory cortex produce characteristic symptoms including: agraphesthesia, astereognosia, loss of vibration, proprioception and fine touch (because the third-order neuron of the medial-lemniscal pathway cannot synapse in the cortex). It can also produce hemineglect, if it affects the non-dominant hemisphere.

It could also reduce nociception, thermoception and crude touch, but since information from the spinothalamic tract is interpreted mainly by other areas of the brain (see insular cortex and cingulate gyrus), it is not as relevant as the other symptoms.

See also

Additional images

External links

· · Human brain: forebrain (cerebrum · cerebral cortex · cerebral hemispheres, grey matter) (TA A14.1.09.002–240, 301–320, GA 9.818–826)
Frontal lobe
Superolateral
Prefrontal

Superior frontal gyrus (4l, 6l, 8l) · Middle frontal gyrus (9l, 10l, 46)

Inferior frontal gyrus: 11l · 47-Pars orbitalis · Broca's area (44-Pars opercularis, 45-Pars triangularis)

Superior frontal sulcus · Inferior frontal sulcus
Precentral Precentral gyrus · Precentral sulcus
Medial/inferior
Prefrontal

Superior frontal gyrus (4m, 6m) · Medial frontal gyrus (8m, 9m)

Paraterminal gyrus/Paraolfactory area (12) · Straight gyrus (11m) · Orbital gyri/Orbitofrontal cortex (10m, 11m, 12) · Ventromedial prefrontal cortex (10m) · Subcallosal area (25)

Olfactory sulcus · Orbital sulci
Precentral Paracentral lobule (4) · Paracentral sulcus
Both Primary motor cortex (4) · Premotor cortex (6) · Supplementary motor area (6) · Frontal eye fields (8)
Parietal lobe
Superolateral

Superior parietal lobule (5l, 7l) · Inferior parietal lobule (40-Supramarginal gyrus, 39-Angular gyrus) · Parietal operculum (43)

Intraparietal sulcus
Medial/inferior

Paracentral lobule (1m, 2m, 3m, 5m) · Precuneus (7m)

Marginal sulcus
Both Postcentral gyrus/primary somatosensory cortex (1 · 2 · 3) · Secondary somatosensory cortex (5) · Posterior parietal cortex (7)
Occipital lobe
Superolateral Occipital pole of cerebrum · Lateral occipital gyrus (18, 19) · Lunate sulcus · Transverse occipital sulcus
Medial/inferior Primary visual cortex (17) · Cuneus · Lingual gyrus Calcarine fissure
Temporal lobe
Superolateral

Transverse temporal gyrus/Primary auditory cortex (41, 42) · Superior temporal gyrus (38, 22/Wernicke's area) · Middle temporal gyrus (21) · Inferior temporal gyrus (20)

Superior temporal sulcus · Inferior temporal sulcus
Medial/inferior

Fusiform gyrus (37) Medial temporal lobe (27 · 28 · 34 · 35 · 36)

Inferior temporal sulcus
Interlobar sulci/fissures
Superolateral Central (frontal+parietal) · Lateral (frontal+parietal+temporal) · Parieto-occipital · Preoccipital notch
Medial/inferior Medial longitudinal · Cingulate (frontal+cingulate) · Collateral (temporal+occipital) · Callosal sulcus
Limbic lobe
Parahippocampal gyrus anterior (Entorhinal cortex, Perirhinal cortex) · Posterior parahippocampal gyrus · Prepyriform area
Cingulate cortex/gyrus

Subgenual area (25) · Anterior cingulate (24, 32, 33) · Posterior cingulate (23, 31)

Isthmus of cingulate gyrus: Retrosplenial cortex (26, 29, 30)
Hippocampal formation Hippocampal sulcus · Fimbria of hippocampus · Dentate gyrus · Rhinal sulcus
Other Supracallosal gyrus · Uncus
Insular lobe Long gyrus of insula · Short gyri of insula · Circular sulcus of insula
General Operculum · Poles of cerebral hemispheres
Some categorizations are approximations, and some Brodmann areas span gyri.

: CNS

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· · Brain and spinal cord: neural tracts and fasciculi
Sensory/ ascending
PCML

: Pacinian corpuscle/Meissner's corpuscleGracile fasciculus/Cuneate fasciculusGracile nucleus/Cuneate nucleus

: → sensory decussation/arcuate fibers (Posterior external arcuate fibers, Internal arcuate fibers) → Medial lemniscus/Trigeminal lemniscusThalamus (VPL, VPM)

: → Posterior limb of internal capsulePostcentral gyrus
Anterolateral/ pain
Fast/lateral

1° (Free nerve endingA delta fiber) → 2° (Anterior white commissureLateral and Anterior Spinothalamic tractSpinal lemniscusVPL of Thalamus) → 3° (Postcentral gyrus) → 4° (Posterior parietal cortex)

2° (Spinotectal tractSuperior colliculus of Midbrain tectum)
Slow/medial 1° (Group C nerve fiberSpinoreticular tractReticular formation) → 2° (MD of Thalamus) → 3° (Cingulate cortex)
Motor/ descending
Pyramidal flexion: Primary motor cortexPosterior limb of internal capsuleDecussation of pyramidsCorticospinal tract (Lateral, Anterior)Neuromuscular junction
Extrapyramidal

flexion: Primary motor cortexGenu of internal capsuleCorticobulbar tract → Facial motor nucleus → Facial muscles

flexion: Red nucleusRubrospinal tract

extension: VestibulocerebellumVestibular nucleiVestibulospinal tract

extension: VestibulocerebellumReticular formationReticulospinal tract

Midbrain tectumTectospinal tract → muscles of neck
Basal ganglia

direct: 1° (Motor cortexStriatum) → 2° (GPi) → 3° (Lenticular fasciculus/Ansa lenticularisThalamic fasciculusVL of Thalamus) → 4° (Thalamocortical radiationsSupplementary motor area) → 5° (Motor cortex)

indirect: 1° (Motor cortexStriatum) → 2° (GPe) → 3° (Subthalamic fasciculusSubthalamic nucleus) → 4° (Subthalamic fasciculusGPi) → 5° (Lenticular fasciculus/Ansa lenticularisThalamic fasciculusVL of Thalamus) → 6° (Thalamocortical radiationsSupplementary motor area) → 7° (Motor cortex)

nigrostriatal pathway: Pars compactaStriatum
Cerebellar
Afferent

Vestibular nucleusVestibulocerebellar tractICPCerebellumGranule cell

Pontine nucleiPontocerebellar fibersMCPDeep cerebellar nucleiGranule cell

Inferior olivary nucleusOlivocerebellar tractICPHemispherePurkinje cellDeep cerebellar nuclei
Efferent

Dentate nucleus in Lateral hemisphere/pontocerebellumSCPDentatothalamic tractThalamus (VL) → Motor cortex

Interposed nucleus in Intermediate hemisphere/spinocerebellumSCPReticular formation, or → Cerebellothalamic tractRed nucleusThalamus (VL) → Motor cortex

Fastigial nucleus in Flocculonodular lobe/vestibulocerebellumVestibulocerebellar tractVestibular nucleus
Bidirectional: Spinocerebellar
Unc. prop.

lower limb → 1° (muscle spindlesDRG) → 2° (Posterior thoracic nucleusDorsal/posterior spinocerebellar tractICPCerebellar vermis)

upper limb → 1° (muscle spindlesDRG) → 2° (Accessory cuneate nucleusCuneocerebellar tractICPAnterior lobe of cerebellum)
Reflex arc

lower limb → 1° (Golgi tendon organ) → 2° (Ventral/anterior spinocerebellar tractSCPCerebellar vermis)

upper limb → 1° (Golgi tendon organ) → 2° (Rostral spinocerebellar tractICPCerebellum)

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: PNS

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