lateral geniculate nucleus
DESCRIPTION
lateral geniculate nucleusTRANSCRIPT
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THE LATERAL GENICULATE NUCLEUSMANOJ ARYALIOM,MMC
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These are the oval shaped structures situated at termination of optic tract.
provides a relay station for retinal axons synapsing with neurons of the geniculocalcarine pathway, transferring information from the optic tract to optic radiation and thence to visual cortex
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there is a roughly 1:1 relationship between retinal axons entering the lateral geniculate nucleus and geniculocalcarine neurons leaving it.
Eighty per cent of the synaptic connections of the lateral geniculate nucleus are with retinofugal axons.
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The nucleus is one of the nuclei of the thalamus
It lies anterolateral to the medial geniculate nucleus
The lateral geniculate nucleus consists of a dorsal nucleus, and a phylogenetically older ventral nucleus.
The dorsal, or principal, nucleus makes up the major portion of the lateral geniculate nucleus
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Much of the lateral geniculate nucleus is hidden, being overlapped by the pulvinar and visible only in sections.
In coronal section: it is like a peaked
cap, the peak projecting laterally.
Schematic representation of a coronal sectionthrough the lateral geniculate body viewed from its posterioraspect.
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In horizontal section, related anteriorly to the optic tract
which end in it, laterally with the retrolenticular part of
the internal capsule, medially with the medial geniculate
body, posteriorly with the hippocampal gyrus
and posterolaterally with the inferior cornu of the lateral ventricle.
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LAYERING OF THE LATERAL GENICULATE
there are six laminae of 'grey matter' and intervening 'white' strata composed of axons and dendrites
The grey lammae are like six irregularly stacked cones, numbering from one ventrally, at the hilum, to six dorsally.
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The two inner layers consist of loosely arranged large cells (the magnocellular layers 1 and 2) and
the four outer layers consist of polar staining small and medium-sized cells (the parvocellular layer 3-6)
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Crossed fibres of the optic tract end in laminae 1, 4 and 6,
uncrossed in 2, 3 and 5
so that fibres from corresponding parts of the two hemiretmae (e.g. right temporal and left nasal retina) end in neighbouring laminae.
Impulses from equivalent spots (a, b)in the two retinae pass back m the optictract to the same region of the lateralgeniculate body .Crossed impulses (b)terminate in laminae 1, 4 and 6 anduncrossed Impulses (a) terminate in laminae 2, 3 and5.
Retinotopic projection
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Fibres from each retina pass to both magnocellular (1 and 2) and parvocellular (3-6) laminae.
This segregation is achieved within the nucleus itself, since the crossed and uncrossed fibres are still intermingled as they enter the lateral geniculate nucleus
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POSITION OF VISUAL FIBRES
Macular fibres coming In optic tract occupy two third of LGB
Upper retinal fibres occupy the medial half of the anterior one third of LGB.
Lower retinal fibres occupy the lateral half of anterior one third of the LGB.
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FUNCTIONS
RELAY FUNCTIONo Serves as relay station to relay visual
information from optic tract to visual cortex by the way of geniculocalcarine tract.
To gate the transmission of signalo i.e. to control how much of signal be
allowed to pass to the cortex.
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LGB receives GATING control signals from two major sources Cortigofugal fibres from the primary visual
cortex. Reticular area of mesencephalon.
Both of these are inhibitory and thus controls the visual information that is allowed to pass.
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BLOOD SUPPLY OF THE LATERALGENICULATE NUCLEUS
Posterior cerebral and posterior choroidal arteries.
Anterior choroidal artery.