Lateral region L .28or V.29 Isothalamus




1 lateral region l (or v)

1.1 gustatory territory varc
1.2 tactile lemniscal territory vpc=vpl+vpm
1.3 deep lemniscal territory vpo (or vps)
1.4 cerebellar territory vim or vl
1.5 pallidal territory vo
1.6 nigral territory va





lateral region l (or v)

this corresponds part of isothalamus located laterally medial lamina , in front of pulvinar (the noyau externe of dejerine after burdach). receives abundant , diverse infrathalamic afferences. main afferent systems occupy particular portion in lateral region. several main territories spatially separate. allows functionally significant subdivisions. other afferent systems may end in 1 or other main territories coterritories. still other can end in several main territories. topographic description of territories made using experiments in monkeys. showed no dorsal nuclei. believed dorsal posterior extension of more anterior territory. makes difficult follow terminologia anatomica (1998). follow common usage, lateral nuclei called ventral . today possible transfer data experimentally obtained in monkeys human brain using immunostaining. sequence described c. vogt (1909) hold true. starting caudally 1 may describe lemniscal territory, made of 2 components cutaneous or tactile , deep (musculoarticular), cerebellar territory made of 2 nuclei, pallidal territory , nigral territory .


gustatory territory varc

tied vcm classic arcuate nucleus (in fact heterogeneous), has neurons of own type. also, not receive lemniscal afferent , not part of vc. receives axons nucleus of solitary tract. thalamocortical neurons send axons primary gustatory area located in opercule of insula.


tactile lemniscal territory vpc=vpl+vpm

the nuclei corresponding lemniscal territory called vp. tactile part nucleus ventralis posterior caudalis vpc posterior part of lateral region, in front of pulvinar. addition of lateral nucleus vpl , of superior part of classic arcuate nucleus vpm. vpc receives axons dorsal column nuclei located in lower medulla oblongata: nucleus gracilis (goll) medial , nucleus cuneatus (burdach) lateral. starting these nuclei, axons go ventralwards , decussate (to other side) still in medulla oblongata forming lemniscal decussation . axons 2 sides form thick medial lemniscus close midline. higher, separates in order reach lower border of 2 vpc. in nucleus, axons terminate forming lamellae , somatotopic map. axons conveying information leg lateral , dorsal. conveying information mouth , tongue medial , ventral (in vpm). axonal arborisations rather small , dense. mediator of lemniscus system glutamate. thalamocortical axons of vpc send axons primary somatosensory area (areas 3b , 1) there clear somatotopic map.


deep lemniscal territory vpo (or vps)

within somesthetic nucleus, physiological maps, including in humans, have found spatial separation between representation of tactile , deep stimuli. friedman , jones (1986) designated deep region shell opposed tactile core . kaas et al. (1986) retained 1 vpo , 1 vps. present nucleus ventralis posterior oralis vpo addition of two. this, made large neurons, largest of thalamus, located in front , superior vpc. receives axons accessory cuneate nucleus of medulla. axons of nucleus conveys information muscles, tendons , joints. decussate , participate in formation of medial lemniscus. vpo receives deep information has same somatotopic map tactile. thalamocortical neurons vpo send axons in fundic area 3a (in depth of rolando sulcus) , parietal area 5.


cerebellar territory vim or vl

the nucleus ventralis intermedius receives through brachium conjunctivum axons cerebellar nuclei, more particularly dentate nucleus (percheron, 1977, asanuma et al. 1983). mediator glutamate. in primates, dentate nucleus subdivided 2 nuclei: 1 anterior , other posteroventral, first motor , other not (dum , strick, 2002). vim in fact made of 2 parts, 1 ventrolateral (viml) , 1 dorsomedian (vimm). viml (the vim of neurosurgeons) receives electively sensorimotor information. viml receives axons vestibulum , spinothalamic tract. organized according somatotopic map grossly analoguous of vpc. cortical target of viml thalamocortical neurons principally primary motor cortex (prerolandic) (schell , strick, 1984, orioli , strick, 1989) . vimm receives associative information dentate, plus tectal , spinothalamic information. organized according map, looser of viml. thalamocortical neurons send axons premotor , parietal cortex. not distinguished, there poor physiological data.


pallidal territory vo

starting cercopithecidae, 2 sources basal ganglia system medial pallidum , nigra have distinct, spatially separate, thalamic territories. pallidal territory arrives in evolution lateral addition nigal va, forming new nucleus individualized name : nucleus ventralis oralis, vo. on contrary there no more vm (which receices convergent afferences in rodents , carnivora). vo receives pallidal afferent axons medial pallidum. trajectory of pallidal afferent axons complex. axons form first ansa lenticularis , fasciculus lenticularis place axons on medial border of pallidum. there, axons cross internal capsule comb system. axons arrives @ lateral border of subthalamic nucleus. pass on h2 field of forel (1877) turn down @ h , go in h1 in direction inferior border of thalamus. distribution of pallidal axons within territory wide terminal bunches (arrechi-bouchhioua et al. 1996,1997, parent , parent, 2004 ). offers few chance fine somatotopic organization. territory stained calbindin. mediator of pallido-thalamic connection inhibitor gaba. thalamocortical neurons send axons supplementary motor area (sma), presma, premotordorsal , medial , lesser extent motor cortex.


nigral territory va

the nigral afferences come pars reticulata of substantia nigra. axons not constitute conspicuous bundle. placed medially pallidal , ascend vertically. part of territory posterior , inferior going anterior pole of central complex. part designated vm posterior continuation of nigral territory. there indeed no more vm in upper primates pallidal , nigral territories everywhere separated. in whole territory axons expand (françois et al., 2002) allowing no precise map, confirmed physiology (wichemann , kliem, 2004). va crossed mammillothalamic bundle. mediator of nigro-thalamic connection is, pallido-thalamic inhibitor gaba. in addition nigral, va receives amygdalar , tectal (superior colliculus) axons. thalamo-cortical axons go frontal cortex, cingulate cortex, premotor cortex , oculomotor fields fef , sef. important stress necessity distinguish pallidal vo , nigral va territories. fact not lead same cortical areas , systems alone 1 reason this. physiology of 2 territories different (van donkelaar et al., 1999).








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