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Physiological characterization, localization and synaptic inputs of bursting and nonbursting neurons in the trigeminal principal sensory nucleus of the rat (2005)

Athanassiadis, T. ; Westberg, K. -G. ; Olsson, K. Å. ; [et al.]

Oxford, UK : Blackwell Science Ltd

European journal of neuroscience 22 (2005), S. 0

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ISSN: 1460-9568

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: A population of neurons in the trigeminal principal sensory nucleus (NVsnpr) fire rhythmically during fictive mastication induced in the in vivo rabbit. To elucidate whether these neurons form part of the central pattern generator (CPG) for mastication, we performed intracellular recordings in brainstem slices taken from young rats. Two cell types were defined, nonbursting (63%) and bursting (37%). In response to membrane depolarization, bursting cells, which dominated in the dorsal part of the NVsnpr, fired an initial burst followed by single spikes or recurring bursts. Non-bursting neurons, scattered throughout the nucleus, fired single action potentials. Microstimulation applied to the trigeminal motor nucleus (NVmt), the reticular border zone surrounding the NVmt, the parvocellular reticular formation or the nucleus reticularis pontis caudalis (NPontc) elicited a postsynaptic potential in 81% of the neurons tested for synaptic inputs. Responses obtained were predominately excitatory and sensitive to glutamatergic antagonists DNQX and/or APV. Some inhibitory and biphasic responses were also evoked. Bicuculline methiodide or strychnine blocked the IPSPs indicating that they were mediated by GABAA or glycinergic receptors. About one-third of the stimulations activated both types of neurons antidromically, mostly from the masseteric motoneuron pool of NVmt and dorsal part of NPontc. In conclusion, our new findings show that some neurons in the dorsal NVsnpr display both firing properties and axonal connections which support the hypothesis that they may participate in masticatory pattern generation. Thus, the present data provide an extended basis for further studies on the organization of the masticatory CPG network.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1460-9568.2005.04479.x

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Evidence for functional compartmentalization of trigeminal muscle spindle afferents during fictive mastication in the rabbit (2000)

Westberg, K. -G. ; Kolta, A. ; Clavelou, P. ; [et al.]

Oxford, UK : Blackwell Science Ltd

European journal of neuroscience 12 (2000), S. 0

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ISSN: 1460-9568

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Primary afferent neurons innervating muscle spindles in jaw-closing muscles have cell bodies in the trigeminal mesencephalic nucleus (NVmes) that are electrically coupled and receive synapses. Each stem axon gives rise to a peripheral branch and a descending central branch. It was previously shown that some spikes generated by constant muscle stretch fail to enter the soma during fictive mastication. The present study examines whether the central axon is similarly controlled. These axons were functionally identified in anaesthetized and paralysed rabbits, and tonic afferent firing was elicited by muscle stretch. For the purpose of comparison, responses were recorded extracellularly both from the somatic region and from the central axon in the lateral brainstem. Two types of fictive masticatory movement patterns were induced by repetitive stimulation of the masticatory cortex and monitored from the trigeminal motor nucleus. Field potentials generated by spike-triggered averaging of action potentials from the spindle afferents were employed to determine their postsynaptic effects on jaw-closing motoneurons. Tonic firing of 32% NVmes units was inhibited during the jaw-opening phase, but spike frequency during closing was almost equal to the control rate during both types of fictive mastication. A similar inhibition occurred during opening in 83% of the units recorded along the central branch. However, firing frequency in these was significantly increased during closing in 94%, probably because of the addition of antidromic action potentials generated by presynaptic depolarization of terminals of the central branch. These additional spikes do not reach the soma, but do appear to excite motoneurons. The data also show that the duration and/or frequency of firing during the bursts varied from one pattern of fictive mastication to another. We conclude that the central axons of trigeminal muscle spindle afferents are functionally decoupled from their stem axons during the jaw-closing phase of mastication. During this phase, it appears that antidromic impulses in the central axons provide one of the inputs from the masticatory central pattern generator (CPG) to trigeminal motoneurons.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1460-9568.2000.00001.x

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Effect of lidocaine and NMDA injections into the medial pontobulbar reticular formation on mastication evoked by cortical stimulation in anaesthetized rabbits (2003)

Scott, G. ; Westberg, K. G. ; Vrentzos, N. ; [et al.]

Oxford, UK : Blackwell Science, Ltd

European journal of neuroscience 17 (2003), S. 0

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ISSN: 1460-9568

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Neurons of the dorsal nucleus reticularis pontis caudalis (nPontc) fire rhythmically during fictive mastication, while neurons of the ventral half tend to fire tonically (Westberg et al., 2001). This paper describes the changes in the pattern of rhythmical mastication elicited by stimulation of the sensorimotor cortex during inhibition or excitation of neurons in this nucleus and adjacent parts of nucleus reticularis gigantocellularis (Rgc) in the anaesthetized rabbit. Masticatory movements and electromyographic (EMG) activity of the masseter and digastric muscles produced by cortical stimulation were recorded before, during and after injections of a local anaesthetic (lidocaine) or excitatory amino acid N-methyl-d-aspartate (NMDA) into nPontc and Rgc through a microsyringe with attached microelectrode to record neuronal activity. Lidocaine inhibited local neurons and modified the motor program, and the effects varied with the site of injection. Most injections into the ventral half of nPontc increased cycle duration, digastric burst duration and burst area. The action of lidocaine in dorsal nPontc was more variable, although burst duration and area were often decreased. The effects on the muscle activity were always bilateral. Lidocaine block of the rostromedial part of Rgc had no effect on movements or on EMGs. Injections of NMDA excited local neurons and when injected into ventral nPontc, it completely blocked mastication. Dorsal injections either had no effect or increased cycle frequency, while decreasing burst duration and area. No increases in EMG burst duration or area were observed with NMDA. Our findings suggest that neurons of ventral nPontc tonically inhibit other parts of the central pattern generator during mastication, while dorsal neurons have mixed effects. We incorporated these findings into a new model of the masticatory central pattern generator.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1460-9568.2003.02670.x

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Discharge patterns of neurons in the medial pontobulbar reticular formation during fictive mastication in the rabbit (2001)

Westberg, K.-G. ; Scott, G. ; Olsson, K. Å. ; [et al.]

Oxford, UK : Blackwell Science Ltd

European journal of neuroscience 14 (2001), S. 0

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ISSN: 1460-9568

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: In this study, we describe functional characteristics of neurons forming networks generating oral ingestive motor behaviours. Neurons in medial reticular nuclei on the right side of the brainstem between the trigeminal and hypoglossal motor nuclei were recorded in anaesthetized and paralysed rabbits during two types of masticatory-like motor patterns induced by electrical stimulation of the left (contralateral) or right (ipsilateral) cortical masticatory areas. Sixty-seven neurons in nucleus reticularis pontis caudalis (nPontc), nucleus reticularis parvocellularis (nParv), and nucleus reticularis gigantocellularis (Rgc) were studied. These were classified as phasic or tonic depending on their firing pattern during the fictive jaw movement cycle. Phasic neurons located in the dorsal part of nPontc were active during the jaw opening phase, whilst those in dorsal nParv tended to fire during the closing phase. In most neurons, burst duration and firing frequency changed between the two motor patterns, but there was little change in phase of firing. Tonic units were mainly recorded in the ventral half of nPontc, and at the junction between Rgc and caudal nParv. Cortical inputs with short latency from the contralateral masticatory area were more frequent in phasic (82%) than tonic (44%) neurons, whilst inputs from the ipsilateral cortex were equal in the two subgroups (57% and 56%). Phasic neurons had significantly shorter mean contralateral than ipsilateral cortical latencies, whilst there was no difference among tonic neurons. Intra- and perioral primary afferent inputs activated both types of neurons at oligo-synaptic latencies. Our results show that subpopulations of neurons in medial reticular nuclei extending from the caudal part of the trigeminal motor nucleus to the rostral third of the hypoglossal motor nucleus are active during the fictive masticatory motor behaviour. Unlike masticatory neurons in the lateral tegmentum, the medial subpopulations are spatially organized according to discharge pattern.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.0953-816x.2001.01782.x

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Location of, and peripheral convergence on, the interneurone in the disynaptic path from the coronal gyrus of the cerebral cortex to the trigeminal motoneurones in the cat (1986)

Olsson, K. Å. ; Landgren, S. ; Westberg, K. G.

Springer

Experimental brain research 65 (1986), S. 83-97

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ISSN: 1432-1106

Keywords: Interneurones ; Intertrigeminal area ; Afferent convergence ; Oligosynaptic corticotrigeminal control ; Areas 3a, 3b

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Primary afferent and descending corticobulbar convergence on 186 interneurones located in the intertrigeminal area was investigated. The experiments were performed on cats anaesthetized with chloralose. Nerves from the three trigeminal dermatomes were stimulated electrically at intensities below and above twice the threshold level. Nerves from oral, perioral and periorbital structures, and afferents from the masseteric and digastric muscles were included. The surface of the cerebral cortex was stimulated electrically in systematically selected, maximally receptive points within the trigeminal primary projection fields. The intertrigeminal neurones generally responded to stimulation of lowthreshold afferents from periodontal, lingual or perioral cutaneous receptors with a polysynaptic latency. Inputs from 3–5 nerves were common but one afferent input was usually most effective. The neurones were generally discharged from two or more cortical points, as a rule those of the oral and perioral projection fields in areas 3a and 3b of the coronal gyrus. The fastest path from the cerebral cortex to the intertrigeminal area was monosynaptic. However, the median latency was 4–5 ms which indicates an oligosynaptic path. The path went through the pyramide at the pontine level. The discharge pattern of the intertrigeminal neurones was 1–4 spikes in 54% of the neurones and a high frequency train of spikes in 46%. Cortical excitation followed by inhibition of the neurones was observed. The neurones were not discharged by electrical stimulation in the defence-attack area of the hypothalamus. Transsynaptic responses evoked from the mesencephalon were seen in 1/3 of the tested neurones.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00243832

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Bulbar neurones with axonal projections to the trigeminal motor nucleus in the cat (1986)

Landgren, S. ; Olsson, K. Å. ; Westberg, K. G.

Springer

Experimental brain research 65 (1986), S. 98-111

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ISSN: 1432-1106

Keywords: Cat ; Interneurones ; Motor control ; Jaw movements ; WGA-HRP ; Retrograde transport

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The location of bulbar neurones with axons projecting to the ipsi- and contralateral trigeminal motor nucleus were investigated in cats anaesthetized with sodium pentobarbital. Wheat germ agglutinin-conjugated horseradish peroxidase (WGA-HRP) was injected in amounts of 5–24 nl. A volume-calibrated microelectrode was used for recording of evoked potentials and pressure injection of WGA-HRP. The injection site was guided by the position where a maximal antidromic response was evoked by electrical stimulation of the masseteric nerve. The survival time was 19–22 h. In preparations with the depot located in the masseteric subnucleus retrogradely stained neurones were found bilaterally in the borderzone of the trigeminal motor nucleus. Dense populations of stained neurones were observed ipsi- and contralaterally in the dorsal division of the main sensory trigeminal nucleus and the subnucleus-γ of the oral nucleus of the spinal trigeminal tract. Clusters of WGA-HRP-neurones were observed bilaterally in the lateral tegmental field at the level of the subnucleus-β of the oral nucleus of the spinal trigeminal tract, bilaterally dorsal to the facial nucleus and contralaterally adjacent to the hypoglossal nucleus. No stained neurones were found in the gigantocellular reticular nucleus. A group of stained neurones was located in the marginal nucleus of brachium conjunctivum and some were found in the raphé nuclei near obex. Cell profiles were of two types: medium-sized neurones with a triangular profile and 30–40 μm diameter, and fusiform neurones 10×50–70 μm. Convergence of descending cortical and trigeminal afferent inputs on interneurones located in the lateral borderzone of the trigeminal motor nucleus, i.e. the intertrigeminal area, is reported in the preceding paper.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00243833

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Integration in trigeminal premotor interneurones in the cat (1991)

Westberg, K.-G. ; Olsson, K. Å.

Springer

Experimental brain research 84 (1991), S. 102-114

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ISSN: 1432-1106

Keywords: Interneurones ; Subnucleus oralis γ ; Jaw movements ; Trigeminal system ; Motor control ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The profile of integration in a sample of 183 interneurones localized in the subnucleus-γ of the oral nucleus of the spinal trigeminal tract (NVspo-γ) has been analyzed. 134 neurones were tested for inputs from primary afferents of the trigeminal, facial and cervical nerves as well as for inputs from the midbrain and from the cervical spinal cord. The remaining 49 neurones were tested for inputs from the primary afferents and for descending convergence from defined sites within the oro-facial primary projections of the cerebral cortex. It was found that the interneurones, mainly recorded in the dorsal and dorsomedial aspect of the NVspo-γ, receive short latency inputs from the low threshold oral and perioral afferents and longer latency inputs from the high threshold jaw and neck muscle afferents. There was evidence for convergence from the cervical segmental level (29%) and some of the neurones had axon terminals in the superior colliculus. However, the interneurones did not receive a descending tectal input. About 80% of the NVspo-γ interneurones were activated from the orofacial primary projection fields within cytoarchitectonic areas 3a and 3b of the coronal gyrus. This input was topographically organized and the neurones were activated from the same oral and perioral region of the periphery as the cortical region from which the descending projections themselves originated. Minimum latencies indicated a monosynaptic connection. The convergence profile onto the NVspo-γ interneurones appeared unique as compared with interneurones located in the intertrigeminal area. Aspects of the possible functional roles of the NVspo-γ neurones are discussed in relation to ongoing oro-facial (“masticatory”) movements. The properties of a selected sample of NVspo-γ interneurones, which were antidromically activated from the digastric subnucleus of the trigeminal motor nucleus, are reported in a companion paper (Olsson and Westberg 1991).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00231765

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Mechanoreceptor activity from the human face and oral mucosa (1988)

Johansson, R. S. ; Trulsson, M. ; Olsson, K. Å. ; [et al.]

Springer

Experimental brain research 72 (1988), S. 204-208

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ISSN: 1432-1106

Keywords: Mechanoreceptors ; Man ; Face ; Infraorbital nerve ; Microneurography ; Trigeminal nerve ; Tactile sensibility ; Cutaneous sensibility ; Oral mucosa

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The feasibility of adopting the microneurography technique (Vallbo and Hagbarth 1968) as a tool to investigate the mechanoreceptive innervation of peri- and intra-oral tissues was explored. Multi-unit activity and impulses in single nerve fibers were recorded from the infraorbital nerve in healthy volunteers. The innervation territories of individual nerve fascicles were mapped. These varied considerably but most fascicle fields comprised the corner of the mouth. Twenty-four single mechanoreceptive units were recorded. Eighteen innervated the skin of the face, and six innervated the mucous membranes of the lips or cheeks. A majority of the mechanoreceptive afferent units were slowly adapting with small and well defined receptive fields. It is suggested that the various slowly adapting responses may originate from two different types of afferent units. No afferents showed response properties similar to typical Pacinian-corpuscle afferents.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00248518

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Integration in trigeminal premotor interneurones in the cat (1991)

Olsson, K. Å. ; Westberg, K.-G.

Springer

Experimental brain research 84 (1991), S. 115-124

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ISSN: 1432-1106

Keywords: Premotor interneurones ; Subnucleus oralis-γ ; Digastric motor nucleus ; Jaw opening reflex ; Trigeminal system ; Motor control ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Seventy-one (n = 71) premotor interneurones have been localized by extracellular recordings within the subnucleus-γ of the oral nucleus of the spinal trigeminal tract (NVspo-γ) in nineteen chloralose anaesthetized cats. The neurons were antidromically activated by microstimulation (minimum = 3μA) applied to the digastric motoneurone subnucleus of the trigeminal motor nucleus. Fifty-one (n = 51) of the interneurones were discharged from the ipsiand nineteen (n = 19) from the contralateral digastric subnucleus. One neurone out of four tested was antidromically activated from both stimulation sites suggesting a bifurcated axon. The identified premotor neurones had a unique convergence profile of oral and perioral primary afferents. Latency calculations indicated that at least 55% of these interneurones were monosynaptically activated by low stimulus strength applied to the inferior alveolar (minimum=1.0 T) and/or the lingual nerve (minimum=1.0 T). The thresholds for evoking the neuronal discharges coincided statistically with those required to evoke a jaw opening reflex response by stimulation of the same nerves. It is suggested that the specific group of NVspo-γ interneurones under different contexts mediates the disynaptic reflex and participates in the centrally and reflexly evoked “patterning” adjustments of the digastric jaw opening motoneurones during ongoing jaw movements. A companion paper reports the convergence of descending cortical, tectal and ascending cervical inputs, as well as of oro-facial and neck primary afferent inputs onto an unselected population of interneurones in the NVspo-γ (Westberg and Olsson 1991).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00231766

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Integration in trigeminal premotor interneurones in the cat (1995)

Westberg, K -G. ; Sandström, G. ; Olsson, K. Å.

Springer

Experimental brain research 104 (1995), S. 449-461

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ISSN: 1432-1106

Keywords: Premotor interneurones ; Subnucleus oralis-γ ; Trigeminal motor nucleus ; Spike-triggered averaging ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract A population of last-order interneurones within the rostrodorsal part of the oral nucleus of the spinal trigeminal tract (NVspo-γ) has been investigated in 21 chloralose anaesthetised cats. The neurones were identified by their antidromic (AD) response to microstimulation (median current 9 μA, range 3–39 μA) of the ipsior the contralateral masseteric subnucleus of the trigeminal motor nucleus. Fifty-one of 113 interneurones tested were discharged from the ipsilateral and eight from the contralateral motor nucleus. The average conduction time was 0.50 ms from the ipsilateral and 0.74 ms from the contralateral motoneurone pool. Conduction velocities of the axons ranged from 2.0 to 14.0 ms. The pattern of primary afferent input onto the selected neurones was analysed by graded electrical stimulation of dissected trigeminal nerves. Low-threshold afferents innervating the intraoral mucosa including the tongue and the perioral skin of the lower lip were the most effective inputs, as judged from both the frequency of occurrence and from the latencies of the evoked spike discharges. Ninety-six percent of the neurones responded to stimulation of the inferior alveolar nerve (Alv inf) and 83% responded to stimulation of the lingual nerve (Ling). The median threshold strength required to evoke the Alv inf and the Ling responses was 1.7 T (range 1.0–3.6 T) and 1.3 T (range 1.0–5.0 T), respectively. The median latency to spike discharges evoked by the Alv inf was 2.0 ms (range 1.3–4.8 ms) and to the Ling it was 2.5 ms (range 1.4–7.0 ms). Action potentials elicited by stimulation of the masseteric and digastric nerves were observed in 40% and 10% of the neurones, respectively. These responses, which had median latencies of more than 8 ms (range 4.7–16.0 ms), were only seen at stimulation intensities above 2 T (range 2.5–25 T). An input from the maxillary whisker nerve was seen in only one case. Postspike averages of the extracellular field potentials within the trigeminal motoneurone subnuclei evoked by interneuronal spikes were made in a subsample of 51 NVspo-γ neurones activated by iontophoresis of L-glutamic acid. Excitatory synaptic effects within the masseteric subnucleus were observed in eight cases. An inhibitory effect was seen in one case. One specific neurone gave an excitatory extracellular field potential within the digastric motoneurone subnucleus. This interneurone was AD activated from the digastric, but not from the masseteric subnucleus. The physiological properties of the NVspo-γ-mass interneurones are discussed in relation to their suggested roles in the phase-dependent control of the trigeminal motoneurones during oro-facial masticatory behaviours.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00231979

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