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1

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Convergent effects on alpha motoneurones from the vestibulospinal tract and a pathway descending in the medial longitudinal fasciculus (1971)

Grillner, S. ; Hongo, T. ; Lund, S.

Springer

Experimental brain research 12 (1971), S. 457-479

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ISSN: 1432-1106

Keywords: Vestibulospinal tract ; Medial longitudinal fasciculus ; α-Moto-neurones ; Lumbosacral spinal cord ; PSPs

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. Convergence of effects from the vestibulospinal tract and the pathway descending in the MLF on the same motoneurones has been investigated with intracellular recording in the lumbosacral spinal cord. The following effects from the MLP pathway are described: a) Monosynaptic EPSPs are common in knee, ankle and toe flexors as well as in hip and toe extensors. b) Disynaptic IPSPs are common in knee and ankle extensors but are also found in hip extensor and knee flexor cells. c) Disynaptic EPSPs are dominant in ankle flexors and toe extensors, but are occasionally found also in knee extensors. 2. The properties of the monosynaptic EPSP from the MLF and the vestibulospinal tract are very similar in various respects such as the amplitude, the time course and the response to repetitive stimulation. 3. Monosynaptic effects from the vestibulospinal tract and the MLF are exerted on different motor nuclei. 4. Excitatory and inhibitory effects from the vestibulospinal tract and the MLF pathway are often reciprocally organized on antagonistic motoneurones at the knee and ankle joints but not regularly for the other kinds of motoneurones investigated. 5. The physiological role of the two pathways is discussed with regard to the pattern of motor effects expected from the synaptic linkages. The possibility that the vestibulospinal tract and the MLF pathway are functionally coupled is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00234243

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2

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Projection of individual pyramidal tract neurons to lumbar motor nuclei of the monkey (1979)

Asanuma, H. ; Zarzecki, P. ; Jankowska, E. ; [et al.]

Springer

Experimental brain research 34 (1979), S. 73-89

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ISSN: 1432-1106

Keywords: Motor cortex ; Monkey ; Corticospinal projections

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The projection of individual pyramidal tract (PT) neurons from the hindlimb area in the precentral gyrus of the cerebral cortex to the lumbar spinal cord was studied in the monkey by systematically searching for sites within identified regions of the spinal gray from which the PT neurons could be antidromically activated by local stimulation. All investigated neurons belonged to the fast conducting fraction of PT neurons. The following results were obtained. 1. Each PT neuron could be activated from more than one region of the spinal gray matter, including identified spinal motor nuclei and areas dorsomedial to these nuclei, but not the intermediate nucleus or regions dorsal to it. “Passage areas” and “termination areas” were defined. 2. Half of the PT neurons with termination areas within motor nuclei had these areas in more than one nucleus. There were thus strong suggestions for synaptic contacts of some PT neurons with motoneurons of more than one muscle. 3. Four groups of three or four neurons were recorded simultaneously by the same cortical electrode. Comparisons of passage and termination areas within groups revealed both similarities and differences in projections of neighboring neurons. Every neuron was activated from some region(s) where others of the group were not. Common passage areas, or passage and termination areas, for two or three neurons of a group within at least one motor nucleus were found for all groups. Termination areas in the same motor nucleus have been found for the majority of the neurons of only one group. These common projection areas are compatible with, but do not prove, that a group of adjacent PT neurons has common target cells in the spinal cord.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00238342

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3

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The vestibulospinal tract: Crossed and uncrossed effects on hindlimb motoneurones in the cat (1975)

Hongo, T. ; Kudo, N. ; Tanaka, R.

Springer

Experimental brain research 24 (1975), S. 37-55

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ISSN: 1432-1106

Keywords: Vestibulospinal tract ; Spinal cord ; Motoneurone ; Crossed effects ; EPSP and IPSP

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Effects produced by stimulation of Deiters' nucleus on contralateral hindlimb motoneurones were investigated in the cat with intracellular and monosynaptic reflex recording. Polysynaptic PSPs were evoked in all species of motoneurone examined. The minimal synaptic linkage was found to be disynaptic in the excitatory path and trisynaptic in the inhibitory path. Experiments with various lesions to the spinal funiculus and those with mapping of the stimulated sites in the brain stem showed that the effects were evoked almost exclusively via the lateral vestibulospinal tract of the stimulated side. The crossed effects were excitatory in extensor motoneurones of all species studied except for hip extensors (ABSm) in which EPSPs and/or IPSPs were evoked. The effects on flexors, by contrast, were not simple and consisted of EPSPs, IPSPs or a mixture of both. The difference in effects depended, though not entirely, on the species of motor nucleus. Between the excitatory and inhibitory effects on knee flexor (PBSt) motoneurones the former predominated under chloralose and the latter under pentobarbital anaesthesia. By recording PSPs evoked from the two vestibulospinal tracts in the same motoneurone, the convergence pattern and the magnitude of effects from the two tracts were studied. The interneuronal organization of the crossed vestibulo-motoneuronal pathway and its functional significance are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00236016

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A physiological study of identification, axonal course and cerebellar projection of spinocerebellar tract cells in the central cervical nucleus of the cat (1984)

Hirai, N. ; Hongo, T. ; Sasaki, S.

Springer

Experimental brain research 55 (1984), S. 272-285

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ISSN: 1432-1106

Keywords: Central cervical nucleus ; Spinocerebellar tract ; Cerebellum ; Spinal cord ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Spinocerebellar tract (SCT) neurones in and around the central cervical nucleus (CCN) were physiologically identified by antidromic activation of these cells on stimulation of the cerebellum. Among the Spinocerebellar tract cells thus identified, those ascending the contralateral spinal funiculi were found in the CCN and ventralwards, whereas those ascending the ipsilateral funiculi existed mostly dorsal to the CCN partly overlapping with crossed cells in the nucleus. Mapping sites from which CCN cells were antidromically activated showed that axons of the CCN-SCT cross at the same segment, ascend the ventral funiculus initially, the lateral funiculus at rostral C1 and the lateral border of the medulla to reach the cerebellar peduncle, enter the cerebellum mainly via the restiform body but possibly also via the superior peduncle. Systematic mapping of stimulation within the cerebellum indicated that the CCNSCT projects to the medial part of the anterior lobe and the posterior lobe bilaterally. Projection to lobules I–II was found in almost all CCN-SCT cells examined. Three fourths of CCN-SCT cells projected to the posterior lobe, as revealed by less extensive mapping. Mapping of axonal regions of the same single CCN-SCT cells showed that they project multifocally in the cerebellum, where projection to lobules I–II was common and that to other areas varied with individual cells. Conduction velocites decreased within the cerebellum probably as the result of repeated branching. Mossy fibre responses evoked on stimulation of the C2 dorsal root in cats with the transected dorsal funiculi were shown to be mediated mostly via the CCN-SCT. Mapping the field potential showed that the response was by far the largest in lobules I–II. This suggested that the terminals provided by the CCN-SCT are the densest in these lobules.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237278

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Neck muscle afferent input to spinocerebellar tract cells of the central cervical nucleus in the cat (1984)

Hirai, N. ; Hongo, T. ; Sasaki, S. ; [et al.]

Springer

Experimental brain research 55 (1984), S. 286-300

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ISSN: 1432-1106

Keywords: Central cervical nucleus ; Spinocerebellar tract ; Neck muscle afferents ; Spinal cord ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Extracellular and intracellular recordings were made from spinocerebellar tract neurones of the central cervical nucleus (CCN) in C1–C3 segments of the anaesthetized cat. These neurones were identified by antidromic activation from the cerebellar peduncle. Stimulation of the ipsilateral dorsal root elicited extracellular spikes or EPSPs with a monosynaptic latency in almost all CCN neurones in the same segment (segmental input). Late excitatory effects were also observed in about one third of CCN neurones. The monosynaptic EPSP was occasionally followed by an IPSP. The excitatory input from the dorsal root to CCN neurones was extended over several segments for some CCN neurons (extrasegmental input). Monosynaptic excitation was evoked in CCN neurones after stimulation of dorsal neck muscle nerves as well; i.e. splenius (SPL), biventer cervicis and complexus (BCC), rectus capitus dorsalis, and obliquus capitus caudalis. Thresholds for this excitation were near the threshold of the nerve, suggesting that it originated from group I fibres. The component of excitation added after strong stimulation of neck muscle nerves would be attributed to group II fibres. When a CCN neurone received excitatory input from the nerve of one muscle, it was generally not affected by stimulation of other nerves in the same segment. Such muscle specificity of segmental input was the principal pattern of connexion of neck muscle afferents with CCN neurones. In some cases, however, excitatory convergence from SPL and BCC nerves onto single CCN neurones or excitation from the SPL nerve and inhibition from the BCC nerve were also observed. Nearly half of the CCN neurones received input from one muscle nerve of the same segment and not from the afferent of the same muscle of different segments, indicating a segment specificity of input. In the remaining CCN neurones, weaker excitatory effects were induced from afferents of different segments as well. In such extrasegmental effects, inputs to CCN neurones from caudal segments predominated in frequency over those from rostral segments. The origin of extrasegmental input was generally confined to the same muscle. Low threshold muscle afferents from the SPL and BCC were intraaxonally stained with HRP. The collaterals of the stained fibre distributed branchlets and terminals to the CCN, laminae VII, VIII, and motor nuclei. Two fibres responding to local muscle prodding or stretch showed a similar morphology. The findings indicated that muscle spindle afferents from primary endings projected to the CCN.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237279

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Convergence of skin reflex and corticospinal effects in segmental and propriospinal pathways to forelimb motoneurones in the cat (1996)

Sasaki, M. ; Kitazawa, S. ; Ohki, Y. ; [et al.]

Springer

Experimental brain research 107 (1996), S. 422-434

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ISSN: 1432-1106

Keywords: Forelimb motoneurones ; Cutaneous reflex ; Pyramidal tract ; Spinal cord ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The organization of facilitatory convergence from cutaneous afferents (Skin) and the corticospinal tract (pyramidal tract, Pyr) in pathways to forelimb motoneurones of mainly distal muscles was studied in anaesthetized cats by analysing postsynaptic potentials (PSPs), which were spatially facilitated by combinations of stimuli to the two sources at different time intervals. Conditioning Pyr volleys facilitated Skin-evoked PSPs of fixed (1.2–3.6 ms) central latencies (Skin PSPs), suggesting that disynaptic and polysynaptic skin reflex pathways are facilitated from the pyramidal tract. The shortest latencies (1.2–1.7 ms) of pyramidal facilitation suggested direct connection of pyramidal fibres with last order neurones of skin reflex pathways. Conditioning Skin volleys facilitated Pyr-evoked PSPs of fixed, mostly disynaptic latencies (1.0–2.5 ms; Pyr PSPs), suggesting that pyramido-motoneuronal pathways are facilitated from Skin at a premotoneuronal level. The shortest pathway from skin afferents to the premotor neurones appeared to be monosynaptic. Although Pyr and Skin volleys were mutually facilitating, the facilitation curve of Pyr PSPs and that of Skin PSPs were discontinuous to each other, with the peak facilitation at different Skin-Pyr volley intervals. Transection of the dorsal column (DC) at the C5/C6 border had little effect on the latencies or amplitudes evoked by maximal stimulation and the pyramidal facilitation of Skin PSPs. In contrast, the facilitation of Pyr PSPs by Skin stimulation was greatly decreased after the DC transection, and the facilitation curve of Pyr PSPs was continuous to that of Skin PSPs, with no separate peak. Latencies of Pyr PSPs ranged similarly to those in DC intact preparations. More rostral DC transection (C4/C5 border) reduced Skin-facilitated Pyr excitatory PSPs (EPSPs) less than C5/C6 lesions, suggesting that the C5 segment also contains neurones mediating Skin-facilitated Pyr EPSPs. The results show that convergence from skin afferents and the corticospinal tract occurs at premotor pathways of different cervical segments. We suggest that corticospinal facilitation of skin reflex occurs mostly in the brachial segments and Skin facilitation of cortico-motoneuronal effects takes place largely in the rostral cervical segments and partly in the brachial segments.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00230423

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7

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The rubrospinal tract. IV. Effects on interneurones (1972)

Hongo, T. ; Jankowska, E. ; Lundberg, A.

Springer

Experimental brain research 15 (1972), S. 54-78

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ISSN: 1432-1106

Keywords: Red nucleus ; Rubrospinal tract ; Lumbosacral interneurones

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. The effect of stimulation of the red nucleus on interneurones in the dorsal horn and intermediate region in the lower lumbar spinal cord has been investigated in cats. It has been ascertained that the effects are mediated by the rubrospinal tract. 2. Extracellular monosynaptic focal potentials evoked by single volleys in the rubrospinal tract were recorded in Rexed's layer VI and VII from a region partly overlapping with that in which focal potentials from group I muscle afferents are evoked, but extending more ventrally. 3. Monosynaptic excitatory action from the rubrospinal tract (recorded in 60 of 340 interneurones) was found in two main categories of interneurones: a) cells monosynaptically activated or disynaptically inhibited from group I muscle afferents and b) cells di- or polysynaptically activated from the flexor reflex afferents or exclusively from cutaneous afferents. The cells under a) are located more dorsally than those under b) but both within the region in which rubral focal monosynaptic potentials are recorded. There was no evidence suggesting that rubrospinal fibres have monosynaptic connexions with interneurones not influenced from primary afferents. 4. Many of the group I interneurones in the intermediate region are without monosynaptic connexions from the rubrospinal tract as are the dorsal horn cells monosynaptically activated from cutaneous afferents and dorsally located cells which do not receive monosynaptic connexions from primary afferents but are polysynaptically activated from the FRA. 5. Late (di- or polysynaptic) excitatory, inhibitory or mixed postsynaptic rubral effects are common and were found in interneurones with or without monosynaptic connexions from primary afferents but receiving similar effects from the FRA. The occurrence of spatial facilitation between peripheral nerves and the rubrospinal tract in evoking late PSPs suggests that the late rubral PSPs are evoked by activation of interneurones transmitting actions from primary afferents. 6. Some consequences of the conjoint control of interneurones from primary afferents and the rubrospinal tract are discussed. The monosynaptic effects from the rubrospinal tract are considered in relation to the rubral control of Ib reflex pathways and to the disynaptic rubromotoneuronal PSPs evoked by monosynaptic activation of last order interneurones of polysynaptic reflex pathways from primary afferents. The late rubral effects on interneurones are discussed in relation to interactive mechanisms between segmental interneuronal pathways. Rubrospinal and corticospinal effects are compared. This work was supported by the Swedish Medical Research Council (Project No. 14X-9407C).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00234958

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Effects from the sensorimotor cortex on the spinal cord in cats with transected pyramids (1967)

Hongo, T. ; Jankowska, E.

Springer

Experimental brain research 3 (1967), S. 117-134

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ISSN: 1432-1106

Keywords: Supraspinal effects ; Extrapyramidal pathways ; Spinal activity ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Effects of stimulation of the sensorimotor cortex on activity of the lumbosacral cord were studied in pyramidotomized cats. The following actions initiated by corticofugal volleys were found: 1. postsynaptic effects on motoneurones, mainly excitatory in flexor motoneurones and inhibitory or excitatory in extensor motoneurones, 2. facilitation of spinal reflexes to motoneurones at an interneuronal level, 3. depolarization of presynaptic terminals of group Ib and cutaneous fibres. The latencies of the earliest cortical effects on motoneurones as indicated by modification of monosynaptic reflexes or PSPs were 9–12 msec. Experiments with lesions of different spinal tracts suggest that the effects on motoneurones are mediated mainly by pathways in the ventral part of the lateral funiculus (probably reticulospinal), the facilitation of reflex transmission by pathways in the dorsal part of the lateral funiculus (probably rubrospinal) and primary afferent depolarization by both the former and the latter pathways. The strongest cortical effects were evoked by stimulation of an area around the postcruciate dimple.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00233257

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Corticofugal influences on transmission to the dorsal spinocerebellar tract from hindlimb primary afferents (1967)

Hongo, T. ; Okada, Y. ; Sato, M.

Springer

Experimental brain research 3 (1967), S. 135-149

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ISSN: 1432-1106

Keywords: DSCT ; Corticospinal ; Inhibition ; Excitation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Effects from the cerebral cortex on neurones of the dorsal spinocerebellar tract (DSCT) were examined: I. In group I units (units receiving monosynaptic excitation from group I fibres) repetitive stimulation of the contralateral sensorimotor cortex usually inhibited impulse transmission from the primary afferents. The inhibition had a latency of 10–20 msec and lasted for 82-100 msec or more. Discharges induced by muscle stretch were also inhibited by the cortical stimulation. DSCT units belonging to extensors and flexors were both inhibited from the cortex. In a small percentage of group I units the inhibition was preceded by a shorter-lasting excitation. 2. FRA units (units receiving excitation from cutaneous and/or high threshold muscle afferents) were typically excited by the cortical stimulation. The excitation was often followed by a period of depression of transmission from the periphery. 3. It is suggested from the effective cortical area and experiments with lesions in the medullary pyramid and in the spinal cord that the inhibition in group I units and the excitation of FRA units are both mediated by the corticospinal tract. Experiments were also made to determine the level where the cell body of a given DSCT unit is located, and the results from 56 units are presented.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00233258

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Cortically evoked pre-and postsynaptic inhibition of impulse transmission to the dorsal spinocerebellar tract (1967)

Hongo, T. ; Okada, Y.

Springer

Experimental brain research 3 (1967), S. 163-177

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ISSN: 1432-1106

Keywords: DSCT ; Postsynaptic inhibition ; Presynaptic inhibition ; Corticospinal ; Primary afferents

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Synaptic actions evoked from primary afferents and the sensorimotor cortex in neurones of the dorsal spinocerebellar tract were investigated: 1. Stimulation of the anterior lobe of the cerebellum produced a small IPSP in only one but not in the other six neurones examined. 2. IPSPs were induced not only from group I fibres (in 41% of group I neurones) but also from cutaneous and/or high threshold muscle afferents (in 37%). 3. Stimulation of the contralateral sensorimotor cortex evoked IPSPs in 80% of group I neurones. The IPSP had a latency of 10–15 msec and lasted for 40–100 msec. EPSPs were evoked from the cortex in a small number of neurones. 4. Effects from the cortex were compared with those from primary afferents in individual neurones. The cortical IPSPs were induced independently of whether the neurone received monosynaptic EPSP from extensor or flexor group I fibres. The cortical IPSPs (or EPSPs) occurred more frequently in neurones which exhibited polysynaptic IPSPs (or EPSPs) from primary afferents. 5. The few FRA neurones encountered were all excited from the cortex. Excitability measurements of primary afferent terminals in or near Clarke's column showed that a terminal depolarization is evoked from the cortex in group Ib but not in Ia afferents. The relative importance of post-and presynaptic inhibition of transmission to the DSCT is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00233260

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