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3. Neural pathway involved in the excitation of motoneurones to jaw-opening muscles by stimulation of the orbital cerebral cortex in the cat

Author

Shoji Enomoto, K. Hiraba, Yoshio Nakamura, and M. Katoh

Subjects
Efferent, Stimulation, Synaptic Transmission, Cortex (anatomy), Neural Pathways, medicine, Animals, Evoked Potentials, General Dentistry, Motor Neurons, Masseter Muscle, Reflex, Monosynaptic, Chemistry, Reticular Formation, Cell Biology, General Medicine, Anatomy, Electric Stimulation, eye diseases, Pons, Frontal Lobe, medicine.anatomical_structure, nervous system, Otorhinolaryngology, Cerebral cortex, Masticatory Muscles, Reticular connective tissue, Cats, Excitatory postsynaptic potential, Medulla oblongata
Abstract

The pathway and synaptic basis of the efferent discharge in the digastric nerve evoked by stimulation of the orbital cortex were studied in cats anaesthetized with α-chloralose. Transection of the brain stem at the boundary between the pons and the medulla oblongata abolished discharge. Intracellular recording from anterior digastric motoneurones revealed that the orbital cortical stimulation evoked excitatory post-synaptic potentials with a latency that was longer by one synaptic delay than that of spike potentials evoked in medial bulbar reticular neurones making a direct excitatory projection to anterior digastric motoneurones. It was concluded that the excitatory effect was mediated by the medial bulbar reticular formation.

Published
1982
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4. Bulbar reticular unit activity during food ingestion in the cat

Author

Yoshinori Sahara, K. Hiraba, Yasuhisa Nakamura, and Sumio Enomoto

Subjects
Drinking, Biology, Inhibitory postsynaptic potential, Reticular formation, Efferent Pathways, Eating, stomatognathic system, Reticular cell, Animals, Ingestion, Trigeminal Nerve, Evoked Potentials, Molecular Biology, Mastication, Cerebral Cortex, Motor Neurons, Neurons, Medulla Oblongata, CATS, Reticular Formation, General Neuroscience, Neural Inhibition, Anatomy, Masticatory force, stomatognathic diseases, nervous system, Masticatory Muscles, Reticular connective tissue, Cats, Neurology (clinical), Neuroscience, Developmental Biology
Abstract

During food ingestion in cats, the activity of single bulbar reticular neurons showed rhythmical spike bursts during the active jaw opening phase of mastication. By utilizing spike-triggered averaging techniques, certain reticular cells were strongly suggested to be inhibitory neurons projecting to jaw closer motoneurons. We propose that these bulbar reticular neurons participate in the central generation of masticatory jaw movements by rhythmically inhibiting jaw closer motoneurons during mastication.

Published
1982
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5. Role of medullary reticular neurons in the inhibition of trigeminal motoneurons during active sleep

Author

M. Taira, Yoshinori Sahara, K. Hiraba, Sumio Enomoto, Yasuhisa Nakamura, Michael H. Chase, and M. Katoh

Subjects
Population, Sleep, REM, Biology, Inhibitory postsynaptic potential, Non-rapid eye movement sleep, Tonic (physiology), Developmental Neuroscience, Postsynaptic potential, Animals, Trigeminal Nerve, education, Motor Neurons, Neurons, Medulla Oblongata, education.field_of_study, Reticular Formation, musculoskeletal, neural, and ocular physiology, Electroencephalography, Neural Inhibition, nervous system, Neurology, Reticular connective tissue, Cats, Reflex, Wakefulness, Sleep, Neuroscience
Abstract

We sought to identify those cells involved in the generation of atonia of the masseter muscles during active sleep. A neuronal population was examined in the medullary reticular formation which has been shown to project monosynaptically to trigeminal motoneurons and provide inhibitory input to them. These neurons exhibited a pattern of state-dependent discharge which was characterized by a tonic increase in firing frequency which paralleled the tonic decrease in somatomotor reflex activity (within the trigeminal system) in the continuum of wakefulness to quiet (NREM) sleep to active sleep. This population of cells discharged at extremely high rates during active sleep, especially during periods of rapid eye movements, when postsynaptic inhibitory control of motoneurons is most prominent. We therefore suggest that these medullary units are the inhibitory neurons which are responsible for the postsynaptic inhibition of trigeminal motoneurons during active sleep.

Published
1984
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7. Single-unit activity in bulbar reticular formation during food ingestion in chronic cats

Author

M. Taira, Yoshio Nakamura, K. Hiraba, and Yoshinori Sahara

Subjects
Motor Neurons, Physiology, Chemistry, General Neuroscience, Movement, Muscles, Reticular Formation, Sensory system, Inhibitory postsynaptic potential, Reticular formation, Trigeminal Nuclei, Masticatory force, Tonic (physiology), Electrophysiology, Eating, medicine.anatomical_structure, nervous system, Jaw, medicine, Cats, Animals, Mastication, Neuron, Neuroscience
Abstract

1. Single-unit activity was recorded from 215 neurons in the medial bulbar reticular formation during the masticatory sequence, from intake to deglutition, of 3 kinds of food (cat food pellets, canned fish, and milk) in 8 chronically prepared, unanesthetized, spontaneously respiring cats with their head fixed to a stereotaxic apparatus without pain or pressure. The firing patterns were compared to the simultaneously recorded EMGs of the jaw-closing and -opening muscles and to the jaw movement. 2. Fifty neurons changed their firing patterns during mastication. Nine neurons increased and one neuron decreased or stopped firing coincident with the masticatory sequence without an apparent rhythmical modulation of frequency corresponding with the masticatory rhythm (nonphasic group). The firing pattern of the remaining 40 neurons was modulated in phase with jaw movement (phasic group); 34 neurons either showed a spike burst or attained the highest firing frequency during the jaw-opening phase (opening type), while 6 neurons did so during the jaw-closing phase (closing type). The firing patterns of each neuron were essentially the same regardless of the kind of food ingested, except for 2 opening-type neurons that showed a rhythmical burst during mastication of solid food and tonic activity during lapping milk. 3. For 16 phasic neurons, there were significant correlations between some aspects of the firing pattern and a parameter of the movement during ingestion of solid food and/or milk. With one exception, these relationships did not appear to be due to sensory feedback. 4. We detected a monosynaptic excitatory projection from 3 opening-type neurons to the anterior digastric motoneurons, and monosynaptic inhibitory projections to the temporal or masseter motoneurons from 3 other opening-type neurons, by spike-triggered averaging of the full-wave rectified EMG of the jaw-closing and -opening muscles. No monosynaptic projections from the closing-type neurons or nonphasic group neurons to either jaw-opener or -closer motoneurons were detected. 5. The instantaneous firing frequency of all 3 inhibitor premotor neurons was positively correlated with the opening velocity, and the firing of 2 was also related to the jaw displacement.(ABSTRACT TRUNCATED AT 400 WORDS)

Published
1988

9. Phase-linked variations in the amplitude of the digastric nerve jaw-opening reflex response during fictive mastication in the rabbit

Author

K. Hiraba, Yasuhisa Nakamura, Yoshinori Sahara, M. Taira, Sumio Enomoto, J. P. Lund, H. Hayashi, and M. Katoh

Subjects
Male, Time Factors, Physiology, Sensory system, Stimulation, Motor program, Feedback, Physiology (medical), Reflex, medicine, Animals, Latency (engineering), Mastication, Pharmacology, Chemistry, General Medicine, Anatomy, Electric Stimulation, Lip, Masticatory force, medicine.anatomical_structure, Rabbits, Neuroscience, Motor cortex
Abstract

The digastric nerve reflex response to stimulation of the upper lip was studied in urethan-anesthetized rabbits paralysed with pancuronium bromide. Rhythmic bursts of masticatory activity were evoked in the nerve by repetitive electrical stimulation of the motor cortex. The amplitude and latency of the reflex responses during fictive mastication were compared with preceding control values. When stimuli close to threshold were given, the largest and earliest responses occurred during the digastric burst. When intense stimuli were employed, the largest responses were out of phase with the burst, although the latency was still shortest when the motoneurons were rhythmically active. Since the pattern is essentially the same as that seen during normal mastication, we conclude that the cyclical modulation of reflex amplitude and latency is not the result of sensory feedback generated by the movements themselves but is instead governed by the central motor program.

Published
1983

10. Different taste map for amiloride sensitivity, response frequency, and threshold to NaCl in the rostral nucleus of the solitary tract in rats.

Author

Yokota T and Hiraba K

Subjects
Animals, Rats, Male, Neurons drug effects, Neurons physiology, Epithelial Sodium Channel Blockers pharmacology, Rats, Sprague-Dawley, Taste Threshold drug effects, Amiloride pharmacology, Solitary Nucleus drug effects, Sodium Chloride pharmacology, Taste drug effects, Taste physiology
Abstract

Studies on taste bud cells and brain stem relay nuclei suggest that alternative pathways convey information regarding different taste qualities. Building on the hypothesis that amiloride (epithelial Na channel antagonist)-sensitive neurons respond to palatable salt (low-concentration) and amiloride-insensitive neurons respond to aversive salt (high-concentration), we investigated the histological distribution of taste-sensitive neurons in the rostral nucleus of the solitary tract in rats and their NaCl and amiloride sensitivities. We recorded neuronal activity in extracellular single units using multi-barrel glass micropipettes and reconstructed their locations on the rostrocaudal and mediolateral axes. Seventy-three taste-sensitive neurons were categorized into the best-taste category. The amiloride sensitivities of the 31 neurons were examined for 0.1, 0.2, 0.4, and 0.8 M NaCl. The neuronal distribution of amiloride-sensitive neurons was located in the lateral region, while amiloride-insensitive neurons were located in the medial region. The amiloride-sensitive neurons responded to low salt concentrations, signaling the NaCl levels required by body fluids. Amiloride-insensitive neurons were silent at low salt concentrations but may function as warning signals for high salt concentrations. Low-threshold and/or high-response neurons were located in the rostrolateral region. In contrast, high-threshold and/or low-response neurons were located in the caudal-medial region., (© The Author(s) 2024. Published by Oxford University Press. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)

Published
2024
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11. Two neuronal groups for NaCl with differential taste response properties and topographical distributions in the rat parabrachial nucleus.

Author

Yokota T, Katakura N, Morita T, Matsunaga T, and Hiraba K

Subjects
Action Potentials, Animals, Male, Neurons drug effects, Parabrachial Nucleus drug effects, Rats, Rats, Wistar, Solitary Nucleus drug effects, Taste drug effects, Taste Perception drug effects, Neurons physiology, Parabrachial Nucleus physiology, Sodium Chloride pharmacology, Solitary Nucleus physiology, Taste physiology, Taste Perception physiology
Abstract

It is crucial for animals to discriminate between palatable (safe) and aversive (toxic) tastants. The mechanisms underlying neuronal discrimination of taste stimuli remain unclear. We examined relations between taste response properties (spike counts, response duration, and coefficient of variation [CV]) and location of taste-sensitive neurons in the pontine parabrachial nucleus (PBN). Extracellular single units' activity in the PBN of Wistar rats was recorded using multibarrel glass micropipettes under urethane anesthesia. Forty taste-sensitive neurons were classified as NaCl (N)-best (n = 15), NaCl/HCl (NH)-best (n = 14), HCl (H)-best (n = 8), and sucrose (S)-best (n = 3) neurons. The net response to NaCl (15.2 ± 2.3 spikes/s) among the N-best neurons was significantly larger than that among the NH-best (4.5 ± 0.8 spikes/s) neurons. The response duration (4.5 ± 0.2 s) of the N-best neurons to NaCl was significantly longer than that of the NH-best (2.2 ± 0.3 s) neurons. These differences in the spike counts and the response durations between the two neuronal types in the PBN were similar to that previously reported in the rostral nucleus of the solitary tract (rNST). The CVs in the N-best and the NH-best neurons were significantly smaller in the PBN than those in the rNST. Histologically, most N-best neurons (12/13, 92%) were localized to the medial region, while NH-best neurons (11/13, 85%) were primarily found within the brachium conjunctivum. These results suggest that NaCl-specific taste information is transmitted by two distinct neuronal groups (N-best and NH-best), with different taste properties and locations within rNST to PBN tractography. Future studies on the higher order nuclei for taste could reveal more palatable and aversive taste pathways., (© 2020 The Authors. Physiological Reports published by Wiley Periodicals LLC on behalf of The Physiological Society and the American Physiological Society.)

Published
2020
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12. Consensus statements on pediatric atopic dermatitis from dermatology and pediatrics practitioners in Japan: Goals of treatment and topical therapy.

Author

Arakawa H, Shimojo N, Katoh N, Hiraba K, Kawada Y, Yamanaka K, Igawa K, Murota H, Okafuji I, Fukuie T, Nakahara T, Noguchi T, Kanakubo A, and Katayama I

Subjects
Administration, Topical, Child, Humans, Japan, Anti-Inflammatory Agents therapeutic use, Dermatitis, Atopic drug therapy, Dermatology standards, Pediatrics standards
Abstract

Background: Pediatric atopic dermatitis (PAD) is a pluricausal disease and is frequently seen in dermatological and pediatric practice. Therefore, it is important to find common views in clinical practice and to promote consensus among practitioners. Aiming to obtain common views among dermatologists and pediatricians and to disseminate them widely in clinical practice, we held the PAD Consensus Forums described herein., Methods: Questionnaire surveys of treatment goals and drug therapy were conducted to prepare topics for discussion at the PAD Consensus Forums. Reaching consensus was defined as agreement among at least 70% of the participants., Results: As a result of discussion among 24 dermatologists and 25 pediatricians, consensus was obtained on 7 topics. These topics configure 3 consensus of treatment goals (Attainment targets were divided into the short/medium term and the long term. Attainment targets were associated with the primary evaluation domains of the Harmonising Outcome Measures for Eczema (HOME) roadmap, etc.) and 4 consensus of drug therapy (The number of applications of topical anti-inflammatory drugs in the acute phase and selection and ideal intervals between applications of topical anti-inflammatory drugs in proactive therapy, etc.)., Conclusions: The consensus is expected to help practitioners set appropriate treatment goals in clinical practice and facilitate the choice of drugs for treatment., (Copyright © 2019 Japanese Society of Allergology. Production and hosting by Elsevier B.V. All rights reserved.)

Published
2020
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13. Changes in masseter muscle fibers by liquid diet rearing in rabbits and recovery by chewing of solid diet.

Author

Takasu H, Matsunaga T, Morita T, Hiraba K, Kuroki K, Saito K, Fujiwara T, and Goto S

Subjects
Animals, Muscle Fibers, Fast-Twitch, Muscle Fibers, Skeletal, Rabbits, Diet, Masseter Muscle physiology, Mastication, Masticatory Muscles physiology
Abstract

Objective: To investigate the effects of liquid diet on the development of masseter muscle fibers and whether the changes in the masseter muscle can be recovered by chewing of solid diet., Design: Masseter muscles from 40 rabbits (solid- and liquid-diet groups, n = 30; unweaned group, n = 5; recovery group, n = 5) were histochemically examined at 4, 12, 18, and 33 weeks after birth. Six fiber types (I, IC, IIC, IIA, IIAB, and IIB) were distinguished via mATPase staining. Muscle fiber diameter and fiber type composition were measured and compared between groups., Results: In the liquid diet group, the diameter of types IIAB (solid group: 81.7 μm, liquid group: 60.9 μm) and IIB (solid group: 89.3 μm, liquid group: 68.8 μm) and the fiber type composition of type I (solid group: 18.4%, liquid group: 9.6%) decreased significantly at 33 weeks of age. In the recovery group, the fiber type composition of type I fibers recovered to 16.5%, while no recovery of type IIAB (56.6 μm) and IIB (64.6 μm) fiber diameter was observed., Conclusions: Liquid diet caused atrophy of muscle fibers and an increase in the proportion of fast-twitch fibers. Although the diameter and ratio of slow-twitch fibers were recovered by chewing of solid diet, recovery was not observed for fast-twitch fibers. Our findings are relevant for dental medicine as it explored the possibility of masticatory muscle function recovery by hard food., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published
2019
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14. Development of medial pterygoid muscle fibers in rabbits fed with a liquid diet.

Author

Kuroki K, Morita T, Takasu H, Saito K, Fujiwara T, Hiraba K, and Goto S

Subjects
Animals, Atrophy, Male, Pterygoid Muscles pathology, Rabbits, Diet methods, Muscle Development drug effects, Muscle Fibers, Fast-Twitch pathology, Pterygoid Muscles growth & development
Abstract

Objective: This study aimed to investigate the influence of decreased functional load on the medial pterygoid muscle during mastication in rabbits fed with a liquid-diet., Materials and Methods: Medial pterygoid muscles from 54 rabbits (solid- and liquid-diet groups, n=48; unweaned group, n=6) were histochemically examined at 4, 9, 12, 18, and 33 weeks after birth. Six fiber types (I, IC, IIC, IIA, IIAB, and IIB) were distinguished via mATPase staining., Results: Significant increases in the diameters of all fiber types were seen up to 33 weeks of age in the solid-diet group; however, no significant increase was noted in fiber types I and IC, from 4 to 33 weeks of age, in the liquid-diet group. The proportion of slow fibers increased up to 12 weeks followed by an increase in the number of fast fibers in the solid-diet group, whereas in the liquid-diet group, the number of slow fiber declined after weaning., Conclusions: Liquid-diet consumption caused muscle fiber atrophy and an increase in the number of fast fibers during early developmental stages after weaning. Furthermore, the growth pattern of the medial pterygoid muscle in the liquid-diet group was different from that in the solid-diet group., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published
2017
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15. Histochemical study of rabbit medial pterygoid muscle during postnatal development.

Author

Saito K, Morita T, Takasu H, Kuroki K, Fujiwara T, Hiraba K, and Goto S

Subjects
Animals, Immunohistochemistry, Male, Rabbits, Pterygoid Muscles growth & development
Abstract

The medial pterygoid muscle is a layered structure like the masseter muscle. This study aimed at investigating the regional differences in fiber type composition and fiber diameter of the medial pterygoid muscle in the rabbit from birth until 33 weeks of age. Histochemical analysis of the medial pterygoid muscle was performed during five developmental stages (4, 9, 12, 18, and 33 weeks after birth) in 30 male Japanese white rabbits. Six fiber types (I, IC, IIC, IIA, IIAB, and IIB) were identified by mATPase staining. An increase in diameter was observed in fiber types I and IC until 9 weeks of age, and in fiber types IIC, IIA, IIAB, and IIB until 33 weeks of age. No significant differences in fiber diameter were noted in the different regions of the pterygoid muscle. Moderate fast to slow fiber type shifts occurred from weeks 4-12; thereafter, a rapid slow to fast fiber type shift was observed. Significant differences in fiber type composition based on regional differences were noted at 4 weeks of age. However, there was no difference in fiber type composition between regions at 33 weeks. In conclusion, it was clear that the diameter and proportion of fast fibers had increased even after reaching sexual maturity in rabbits. In addition, the medial pterygoid muscle tissues appeared to be homogenous at 33 weeks of age with very few differences between regions.

Published
2017
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16. Postero-inferior condylar movement induced by artificial occlusal interference on the balancing side during fictive mastication in rabbits.

Author

Morita T, Hiraba K, Matsunaga T, Ito Y, Maruo H, and Kurita K

Subjects
Animals, Bite Force, Electric Stimulation, Electromyography methods, Male, Mandible physiology, Masseter Muscle physiopathology, Masticatory Muscles physiology, Prostheses and Implants, Pterygoid Muscles physiopathology, Rabbits, Temporomandibular Joint physiopathology, Temporomandibular Joint Disorders physiopathology, Dental Occlusion, Mandibular Condyle physiopathology, Mastication physiology
Abstract

Objective: Tooth contact does not occur on the balancing side during mastication. Hence, it is possible that the presence of occlusal interference on the balancing side causes mandibular rotation followed by atypical condylar movement because the jaw-closing muscle activity on the working side is greater than on the balancing side. The aim of the present study was to investigate the relationship between occlusal contact on the balancing side and condylar movement during mastication., Methods: EMG activity of the masseter (MS), lateral pterygoid (LP) and digastric (DG) muscles and jaw movements were recorded. Condylar movements in the sagittal plane were recorded using a high speed charge-coupled device (CCD) camera. Incisal point movements were recorded using a magnet on the mentum and a magnetometric sensor on the nasal bone. A removable biting plate was used to introduce an artificial occlusal interference on the balancing side., Results: Nine of the 10 rabbits showed large postero-inferior condylar movement (Pi-Cm) when a biting plate was applied on the balancing side. Five rabbits showed very small Pi-Cm when a biting plate was applied on the balancing side. In the small Pi-Cm group, MS activity decreased markedly and LP and DG transient activity appeared in the early occlusal phase in the presence of the biting plate., Conclusion: Interference on the balancing side always caused Pi-Cm on the ipsilateral side during mastication. However, the degree of Pi-Cm was often decreased by a jaw opening reflex response., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published
2016
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17. Unusual postero-inferior condylar movements that depend on the position of occlusal contact during fictive mastication in rabbits.

Author

Morita T, Hiraba K, Matsunaga T, Ito Y, Maruo H, and Kurita K

Subjects
Animals, Biomechanical Phenomena, Bite Force, Electric Stimulation, Electromyography, Prostheses and Implants, Rabbits, Weaning, Dental Occlusion, Mandibular Condyle physiology, Masseter Muscle physiology, Mastication physiology, Pterygoid Muscles physiology
Abstract

Objective: The mandible can be modelled as a triangular plate supported at two joints and the point of occlusion. The mandible is stable if the vector of the jaw-closing muscle forces lies within the triangle of support. If this vector lies outside of the triangle of support, one of the three contact points will tend to separate as the mandible rotates around a line connecting the other two points. Here, we examined whether postero-inferior condylar movements (Pi-Cm) due to mandibular rotation may occur during fictive mastication in anaesthetized rabbits., Methods: EMG activities of the masseter (MS) and lateral pterygoid (LP) muscles and movements of the condyle and incisal points were recorded. Condylar movements in the sagittal plane were recorded using a high speed CCD camera., Results: Pi-Cm were observed on the working side during occlusal phase in half of the rabbits (altered-movement group), if the biting point was restricted at the posterior most tooth (M3) on the working side using a metal biting plate. Pi-Cm appeared in the period between the estimated maximum force of the MS and the LP during late occlusal phase. The MS EMG ratio between the working and balancing sides in the altered-movement group was significantly less than that in the unaltered-movement group., Conclusion: Since the space lying between the condyle and the articular eminence expanded during the Pi-Cm, it is likely that the posterior band of the articular disc tended to slip anteriorly. The clinical significance of the Pi-Cm is discussed concerning the anterior dislocation of the disc in patients with TMJ disorder., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published
2015
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18. Topographical representations of taste response characteristics in the rostral nucleus of the solitary tract in the rat.

Author

Yokota T, Eguchi K, and Hiraba K

Subjects
Animals, Brain Mapping, Male, Rats, Rats, Wistar, Smell, Solitary Nucleus cytology, Action Potentials, Neurons physiology, Solitary Nucleus physiology, Taste Perception
Abstract

The rostral nucleus of the solitary tract (rNST) is the first-order taste relay in rats. This study constructed topographical distributions of taste response characteristics (best-stimulus, response magnitude, and taste-tuning) from spike discharges of single neurons in the rNST. The rNST is divided into four subregions along the rostrocaudal (RC) axis, which include r1-r4. We explored single-neuron activity in r1-r3, using multibarreled glass microelectrodes. NaCl (N)-best neurons were localized to the rostral half of r1-r3, while HCl (H)-best and sucrose (S)-best neurons showed a tendency toward more caudal locations. NaCl and HCl (NH)-best neurons were distributed across r2-r3. The mean RC values and Mahalanobis distance indicated a significant difference between the distributions of N-best and NH-best neurons in which N-best neurons were located more rostrally. The region of large responses to NaCl (net response >5 spikes/s) overlapped with the distribution of N-best neurons. The region of large responses to HCl extended widely over r1-r3. The region of large responses to sucrose was in the medial part of r2. The excitatory region (>1 spike/s) for quinine overlapped with that for HCl. Neurons with sharp to moderate tuning were located primarily in r1-r2, while those with broad tuning were located in r2-r3. The robust responses to NaCl in r1-r2 primarily contributed to sharp to moderate taste-tuning. Neurons in r3 tended to have broad tuning, apparently due to small responses to both NaCl and HCl. Therefore, the rNST is spatially organized by neurons with distinct taste response characteristics, suggesting that these neurons serve different functional roles.

Published
2014
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19. Effects of medullary lesions on conditional pacemaker activity of neonatal rat hypoglossal motoneurons in vitro.

Author

Sakuma H, Katakura N, Shimozato K, and Hiraba K

Subjects
Animals, Animals, Newborn, Excitatory Amino Acid Agonists pharmacology, Hypoglossal Nerve cytology, Medulla Oblongata cytology, Membrane Potentials drug effects, Membrane Potentials physiology, N-Methylaspartate pharmacology, Organ Culture Techniques, Patch-Clamp Techniques, Periodicity, Rats, Rats, Wistar, Hypoglossal Nerve physiology, Medulla Oblongata physiology, Motor Neurons physiology
Abstract

N-methyl-D-aspartate (NMDA) has been demonstrated to induce rhythmic activity in various neurons, including hypoglossal motoneurons (XIIms) and converts them to conditional pacemakers. Using whole-cell patch clamp recording in a slice preparation from neonatal rats, we confirmed that some XIIms act as conditional pacemakers, with TTX-insensitivity and a burst period that is voltage-dependent during NMDA application. Other XIIms in this study only fired tonically with NMDA application. Effects of medullary structures on conditional pacemaker XIIms were assessed using lesioned preparations. As a result, NMDA-induced rhythm (NIR) in the XIIm was observed with ventral lesions (excluding inspiratory neurons) and with dorsal lesions (excluding the swallowing center located in the nucleus of the solitary tract). The NIR was also observed with lateral lesions, but with a significantly decreased burst period. These data suggest that NMDA receptor activation selects a subset of XIIms and changes them to pacemakers whose properties can be altered by their excitability. The data also demonstrate that structures fundamental to the NIR are located within the area near the XII nucleus, indicating that the NIR is distinct from inspiratory and swallowing activities. The lateral medulla is considered to be a source of modulation of the excitability of XIIms., (Copyright © 2013 Elsevier Ireland Ltd and the Japan Neuroscience Society. All rights reserved.)

Published
2013
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20. Salivary cortisol monitoring: determination of reference values in healthy children and application in asthmatic children.

Author

Nagakura T, Tanaka T, Arita M, Nishikawa K, Shigeta M, Wada N, Matsumoto T, Hiraba K, and Fukuda N

Subjects
Administration, Inhalation, Asthma physiopathology, Bronchodilator Agents administration & dosage, Bronchodilator Agents pharmacology, Budesonide pharmacology, Child, Preschool, Cromolyn Sodium administration & dosage, Cromolyn Sodium pharmacology, Female, Humans, Hypothalamo-Hypophyseal System physiopathology, Infant, Male, Nebulizers and Vaporizers, Pituitary-Adrenal System physiopathology, Reference Values, Treatment Outcome, Asthma drug therapy, Budesonide administration & dosage, Hydrocortisone analysis, Hydrocortisone standards, Hypothalamo-Hypophyseal System drug effects, Pituitary-Adrenal System drug effects, Saliva chemistry
Abstract

Venipuncture testing of adrenocortical function in asthmatic infants and young children receiving inhaled corticosteroids can raise cortisol levels and mask physiological responses. This study aimed to establish reference ranges for salivary cortisol levels and evaluate the safety and effects of jet-nebulized budesonide inhalation suspension (BIS) on salivary cortisol levels and patient outcomes in infants and young children with mild or persistent asthma. Reference salivary cortisol levels were determined in healthy children aged 6 months to 4 years old. A 12-week multicenter, randomized, parallel-group, open-label study was performed involving 53 age-matched asthmatic children who received either 0.5 mg/day of BIS or 40-60 mg/day of cromolyn sodium inhalation suspension (CIS) via compressor nebulizer. The effective measuring range of salivary cortisol concentration in asthmatic children was 0.12-3.00 micrograms/dL. The upper and lower limits of the reference range were 0.827 and 0.076 micrograms/dL, respectively. No significant difference was seen from baseline through week 12 in the CIS and BIS groups. BIS was safe in these patients, with no inhibitory effects on adrenocortical function. Salivary cortisol measurement offers a useful and accurate tool for testing adrenocortical function in infants and young children. Longer-term studies that incorporate testing of the hypothalamic-pituitary-adrenal axis are warranted to confirm our findings.

Published
2012
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21. Functional properties of putative pyramidal neurons and inhibitory interneurons in the rat gustatory cortex.

Author

Yokota T, Eguchi K, and Hiraba K

Subjects
Action Potentials physiology, Animals, Electrophysiology, Male, Rats, Rats, Wistar, Cerebral Cortex physiology, Interneurons physiology, Neurons physiology, Taste Perception physiology
Abstract

In order to address how taste information is modulated by inhibitory neuronal interactions in the rat gustatory cortex, we examined putative pyramidal neurons (PY units) and putative inhibitory interneurons (fast spiking [FS] units) that were distinguished by their spike waveforms and discharge rates. FS units were strikingly different from PY units in that the majority of FS units were N- or NH-best neurons and narrowly tuned to 1 or 2 tastant(s), whereas PY units were broadly tuned to plural tastants. Compared with PY units, FS units were characterized by a shorter response latency and/or a longer response duration. These results suggest that inhibitory modulations in the gustatory cortex are carried out in a taste specific and tonic manner. Sensitivity to tastant concentrations in PY units was similar to that in FS units for NaCl but higher for HCl. FS units may act to enhance concentration sensitivity in PY units by reducing PY units' response activity. High density of FS and PY units was observed in the superficial and middle layers (mainly layers III and IV). Responses in N-best FS units in these layers were significantly larger than those in the deep layers, suggesting the existence of layer-specific inhibitory interactions.

Published
2011
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22. Surveys on the prevalence of pediatric bronchial asthma in Japan: a comparison between the 1982, 1992, and 2002 surveys conducted in the same region using the same methodology.

Author

Nishima S, Chisaka H, Fujiwara T, Furusho K, Hayashi S, Hiraba K, Kanaya M, Kobayashi N, Kuda N, Kumamoto T, Maeda T, Murayama A, Nagata Y, Narukami H, Nishikawa K, Nishio K, Odajima H, Oka S, Okabe T, Okazaki K, Okazaki T, Okuma M, Ota K, Satomi K, Shimomura M, Suda M, Sunagawa I, and Tanaka O

Subjects
Asthma etiology, Child, Female, Humans, Japan epidemiology, Logistic Models, Male, Prevalence, Respiratory Sounds, Time Factors, Asthma epidemiology
Abstract

Background: We conducted and reported the first (1982; 55,388 subjects), and second (1992; 45,674 subjects), epidemiological surveys conducted on bronchial asthma in elementary students across 11 prefectures in western Japan. The 2 surveys were conducted in the same regions using the same methodology employing a modified Japanese version of the American Thoracic Society-Division of Lung Diseases (ATS-DLD) Epidemiology Questionnaire. We conducted the third survey in 2002, and compared the findings to those of previous studies., Methods: In the third survey, 37,036 students attending the same schools as in previous surveys (in 11 prefectures) were given the questionnaire. A total of 35,582 responses (96.1%) were collected. An ATS-DLD Epidemiology Questionnaire was also used in this study, and the findings were compared to those of previous studies., Results: 1. The prevalence of bronchial asthma (BA) in boys, girls, and all students was 3.8%, 2.5%, and 3.2%, respectively, for the first survey; 5.6%, 3.5%, and 4.6% for the second survey; and 8.1%, 4.9%, and 6.5% for the third survey. 2. A decline in the BA prevalence in older subjects which could be seen in the first survey was absent in the second and third surveys. There were no regional differences in the third survey. 3. The boys-to-girls ratio in the first, second, and third surveys was 1.5, 1.6, and 1.6, respectively. 4. BA was more prevalent among subjects with a past history of respiratory disease in infancy and those with a family history of allergic disease. 5. The prevalence of asthma symptoms and wheezing in the first, second, and third surveys was 7.1%, 9.8%, and 11.8%, respectively. 6. A comparison of the prevalence of other allergic diseases between the second and third surveys revealed a decrease in atopic dermatitis and an increase in allergic rhinitis, allergic conjunctivitis, and cedar pollinosis., Conclusions: BA prevalence in the third survey increased 2.1 and 1.4 times respectively compared to the first survey and second survey, indicating an upward trend in all regions and age groups surveyed.

Published
2009
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23. Movement of the mandibular condyle and activity of the masseter and lateral pterygoid muscles during masticatory-like jaw movements induced by electrical stimulation of the cortical masticatory area of rabbits.

Author

Morita T, Fujiwara T, Negoro T, Kurata C, Maruo H, Kurita K, Goto S, and Hiraba K

Subjects
Animals, Bite Force, Cerebral Cortex, Electric Stimulation, Electromyography, Movement physiology, Rabbits, Rotation, Mandibular Condyle physiology, Masseter Muscle physiology, Mastication physiology, Muscle Contraction physiology, Pterygoid Muscles physiology
Abstract

We examined the functional role of the lateral pterygoid muscle (LP) and the masseter muscle (MS) in the movement of the mandibular condyle in masticatory-like jaw movements induced by electrical stimulation of the cortical masticatory area of urethane-anaesthetised rabbits. EMGs of the LP and MS were recorded along with video images of the mandibular condyle movement filmed with a high-speed CCD camera at a time resolution of 8 ms. The time required for the contractile force of the MS and LP to emerge as bite force or jaw movement was determined by direct electrical stimulation to respective muscles: 32.8+/-1.5 ms for the MS and 34.3+/-2.9 ms for the LP. The LP on the working side showed biphasic activity not only in the jaw-opening phase but also in the middle occlusal phase. It is assumed that the MS on the working side begins to exert actually the maximum mechanical influence on the bite force 32.8 ms after its EMG peak in the early occlusal phase. Such development of the mechanical effect of the MS during middle occlusal phase is appeared to be involved in stabilization of the condyle in the middle occlusal phase. Approximately 25 ms (25.1+/-2.5 ms) after the peak of mechanical influence of the MS, the mechanical influence of the working-side LP activity reached maximum in the late stage of the occlusal phase. This LP mechanical influence seems to be functionally associated with an antero-inferior movement of the working side condyle in the late stage of the occlusal phase that is coincident with a movement of the incisal point towards the balancing side across the midline.

Published
2008
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24. Velocity-dependent EMG activity of masseter and sternocleidomastoideus muscles during a ballistic arm thrusting movement.

Author

Kimura K, Murakami H, Yamamoto M, Yokoyama T, Morita T, Ito Y, and Hiraba K

Subjects
Adult, Electromyography, Humans, Male, Martial Arts, Motor Activity, Movement, Arm physiology, Masseter Muscle physiology, Muscle, Skeletal physiology, Weight Lifting physiology
Abstract

Two experiments were conducted to investigate the functional relationship between the general somatic motor function and the oral motor function. In Experiment 1, we analyzed the relationship between the amount of masseter muscle (MSS) activity and the velocity of a ballistic, 'karate-do' arm thrusting movement (ThrMov). ThrMov velocity was measured from video images taken with a high-speed CCD camera at a frequency of 500Hz. EMGs of MSS and sternocleidomastoideus (SCM) muscles as well as other related muscles were recorded simultaneously with video images in 6 varsity 'karate-do' athletes. Pearson's correlation coefficients were calculated between EMG amplitude and movement velocity. EMG activity of MSS as well as the other muscles increased as a function of ThrMov velocity in all participants, as evidenced by highly significant (p<.01) correlation coefficients, ranging from .64 to .87 (mean: .75). MSS EMG activity attained during ThrMovs performed at maximum velocity ranged between 14.6% and 113.8% of this muscle's MVC (45.7+/-39.3% MVC, mean+/-SD). SCM was also strongly active and closely associated with MSS. Besides changes in amount of EMG activity, it was further found that R-MSS EMG onset progressively shifted to the earlier phase of the ThrMov as ThrMov velocity increased. EMG onset time of R-MSS as well as R- and L-SCMs was negatively correlated with ThrMov velocity; when performed at maximum velocity MSS activation preceded the start of ThrMov by more than 100ms, whereas MSS was recruited last at approximately 150ms after the start of ThrMov when performed at moderate speed ( approximately 50% of maximum). In Experiment 2, the effects of head movement relative to the trunk on R-MSS and SCMs EMG activity were tested in both gazing and sidelong glancing conditions. A much smaller head rotation relative to the trunk was necessary during the ThrMov in the sidelong glancing condition compared to the gazing condition. R-MSS EMG activity was affected significantly by the difference between these conditions and decreased by 5.2% MVC in the sidelong glancing condition compared to the gazing condition. In association with the change in requirement for head movement between those conditions, EMG balance between the bilateral SCMs changed substantially. Finally, marked muscle activity during ThrMov was found in the MSS that was not directly involved in performing this movement, indicating a form of 'remote facilitation'.

Published
2007
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25. Study on anti-Oketsu activity of rhubarb II. Anti-allergic effects of stilbene components from Rhei undulati Rhizoma (dried rhizome of Rheum undulatum cultivated in Korea).

Author

Matsuda H, Tomohiro N, Hiraba K, Harima S, Ko S, Matsuo K, Yoshikawa M, and Kubo M

Subjects
Animals, Anti-Allergic Agents isolation & purification, Erythrocytes immunology, Female, Histamine Release drug effects, Korea, Male, Mice, Mice, Inbred ICR, Passive Cutaneous Anaphylaxis drug effects, Plant Extracts pharmacology, Rats, Sheep immunology, Stilbenes isolation & purification, Anti-Allergic Agents pharmacology, Plants, Medicinal, Rheum chemistry, Stilbenes pharmacology
Abstract

Methanol extract (RM-ext) obtained from the dried rhizome of Rheum undulatum was screened for activity in experimental models of type I allergy. RM-ext exhibited the inhibition on 48-h homologous passive cutaneous anaphylaxis (PCA) in rats and an antigen-induced histamine release from rat peritoneal mast cells. Among nine stilbenes isolated from RM-ext, seven inhibited the histamine release. Rhapontigenin (compound 1), piceatannol (2) and piceatannol 3'-beta-D-glycoside (6) with oral administration showed the inhibition on PCA. Compounds 1 and 2 exhibited the inhibitory effect on sheep red blood cell-induced delayed-type hyper sensitivity (SRBC-DTH) of type IV allergic model. These results indicated that the rhizome of Rheum undulatum inhibits the allergic reactions and that these inhibitory effects may be partially attributable to the stilbenes mentioned above.

Published
2001
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26. EMG activities of two heads of the human lateral pterygoid muscle in relation to mandibular condyle movement and biting force.

Author

Hiraba K, Hibino K, Hiranuma K, and Negoro T

Subjects
Adult, Biomechanical Phenomena, Cadaver, Dissection, Electromyography, Humans, Jaw anatomy & histology, Male, Mandibular Condyle anatomy & histology, Mastication physiology, Reflex, Stretch physiology, Temporal Muscle physiology, Temporomandibular Joint anatomy & histology, Temporomandibular Joint physiology, Bite Force, Jaw physiology, Mandibular Condyle physiology, Pterygoid Muscles physiology
Abstract

Electromyographic (EMG) activities of the superior (SUP) and inferior heads (INF) of the lateral pterygoid muscle (LPT) were recorded in humans during voluntary stepwise changes in biting force and jaw position that were adopted to exclude the effects of acceleration and velocity of jaw movements on the muscle activity. The SUP behaved like a jaw-closing muscle and showed characteristic activity in relation to the biting force. It showed a considerable amount of background activity (5-32% of the maximum) even in the intercuspal position without teeth clenching and reached a nearly maximum activity at relatively lower biting-force levels than the jaw-closing muscles during increment of the biting force. Stretch reflexes were found in the SUP, the function of which could be to stabilize the condyle against the biting force that pulls the condyle posteriorly. This notion was verified by examining the biomechanics on the temporomandibular joint. The complex movements of the mandibular condyle in a sagittal plane were decomposed into displacement in the anteroposterior direction (Ac) and angle of rotation (RAc) around a kinesiological specific point on the condyle. In relation to Ac, each head of the LPT showed quite a similar behavior to each other in all types of jaw movements across all subjects. Working ranges of the muscle activities were almost constant (Ac <3 mm for the SUP and Ac >3 mm for the INF). The amount of EMG activity of the SUP changed in inverse proportion to Ac showing a hyperbola-like relation, whereas that of the INF changed rather linearly. The EMG amplitude of the SUP showed a quasilinear inverse relation with RAc in the hinge movement during which the condyle rotated with no movement in the anteroposterior direction. This finding suggests that the SUP controls the angular relationship between the articular disk and the condyle. On the other hand, the position of the disk in relation to the maxilla, not to the condyle, is controlled indirectly by the INF because the disk is attached to the condyle by tendinous ligaments.

Published
2000
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28. Phase-linked variations in the amplitude of the digastric nerve jaw-opening reflex response during fictive mastication in the rabbit.

Author

Lund JP, Enomoto S, Hayashi H, Hiraba K, Katoh M, Nakamura Y, Sahara Y, and Taira M

Subjects
Animals, Electric Stimulation, Feedback, Lip innervation, Male, Rabbits, Reflex physiology, Time Factors, Mastication
Abstract

The diagastric nerve reflex response to stimulation of the upper lip was studied in urethan-anesthetized rabbits paralysed with pancuronium bromide. Rhythmic bursts of masticatory activity were evoked in the nerve by repetitive electrical stimulation of the motor cortex. The amplitude and latency of the reflex responses during fictive mastication were compared with preceding control values. When stimuli close to threshold were given, the largest and earliest responses occurred during the digastric burst. When intense stimuli were employed, the largest responses were out of phase with the burst, although the latency was still shortest when the motoneurons were rhythmically active. Since the pattern is essentially the same as that seen during normal mastication, we conclude that the cyclical modulation of reflex amplitude and latency is not the result of sensory feedback generated by the movements themselves but is instead governed by the central motor program.

Published
1983
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30. Activity during active sleep of bulbar reticular neurons firing rhythmically during mastication in cats.

Author

Nakamura Y, Hiraba K, Taira M, Sahara Y, Enomoto S, Katoh M, and Iriki A

Subjects
Animals, Cats, Cerebral Cortex physiology, Eating, Electroencephalography, Electromyography, Masticatory Muscles innervation, Masticatory Muscles physiology, Periodicity, Wakefulness physiology, Mastication, Neurons physiology, Reticular Formation physiology, Sleep physiology
Abstract

Unitary activity was recorded from 17 bulbar reticular neurons, which fired rhythmically during mastication, in unanesthetized, spontaneously respiring cats during sleep and wakefulness. All these neurons showed the highest mean firing rate during food ingestion, and none of them showed any tonic discharge during active sleep. The results are discussed in terms of a functional differentiation of bulbar reticular inhibitory neurons projecting to jaw-closer motoneurons in relation to phasic inhibition during mastication and tonic inhibition during active sleep of jaw-closer motoneurons.

Published
1984
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32. Single-unit activity in bulbar reticular formation during food ingestion in chronic cats.

Author

Hiraba K, Taira M, Sahara Y, and Nakamura Y

Subjects
Animals, Cats, Jaw, Motor Neurons physiology, Movement, Muscles physiology, Trigeminal Nuclei physiology, Eating, Mastication, Reticular Formation physiology
Abstract

1. Single-unit activity was recorded from 215 neurons in the medial bulbar reticular formation during the masticatory sequence, from intake to deglutition, of 3 kinds of food (cat food pellets, canned fish, and milk) in 8 chronically prepared, unanesthetized, spontaneously respiring cats with their head fixed to a stereotaxic apparatus without pain or pressure. The firing patterns were compared to the simultaneously recorded EMGs of the jaw-closing and -opening muscles and to the jaw movement. 2. Fifty neurons changed their firing patterns during mastication. Nine neurons increased and one neuron decreased or stopped firing coincident with the masticatory sequence without an apparent rhythmical modulation of frequency corresponding with the masticatory rhythm (nonphasic group). The firing pattern of the remaining 40 neurons was modulated in phase with jaw movement (phasic group); 34 neurons either showed a spike burst or attained the highest firing frequency during the jaw-opening phase (opening type), while 6 neurons did so during the jaw-closing phase (closing type). The firing patterns of each neuron were essentially the same regardless of the kind of food ingested, except for 2 opening-type neurons that showed a rhythmical burst during mastication of solid food and tonic activity during lapping milk. 3. For 16 phasic neurons, there were significant correlations between some aspects of the firing pattern and a parameter of the movement during ingestion of solid food and/or milk. With one exception, these relationships did not appear to be due to sensory feedback. 4. We detected a monosynaptic excitatory projection from 3 opening-type neurons to the anterior digastric motoneurons, and monosynaptic inhibitory projections to the temporal or masseter motoneurons from 3 other opening-type neurons, by spike-triggered averaging of the full-wave rectified EMG of the jaw-closing and -opening muscles. No monosynaptic projections from the closing-type neurons or nonphasic group neurons to either jaw-opener or -closer motoneurons were detected. 5. The instantaneous firing frequency of all 3 inhibitor premotor neurons was positively correlated with the opening velocity, and the firing of 2 was also related to the jaw displacement.(ABSTRACT TRUNCATED AT 400 WORDS)

Published
1988
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