• 대한한의학회지
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• 제18권1호
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• pp.58-71
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• 1997

In order to the location and local arrangement of nerve cell bodies and nerve fibers projecting to the meridian points related to facial nerve paralysis in the rat using the neural tracers, CTB and WGA-HRP, labeled neurons the were investigated by immunohistochemical and HRP histochemical methods following injection of 2.5% WGA-HRP and 1% CTB into Hyopko$(S_6)$. Chichang$(S_4)$, Sugu$(GV_{26})$, Sajukkong$(TE_{23})$ and Yangbaek$(G_{14})$. Following injection of Hyopko$(S_6)$, Chichang$(S_4)$, labeled motor neurons were founded in facial nucleus, trigeminal motor nucleus, reticular nucleus and hypoglossal nucleus. labeled sensory neurons were founded in trigeminal ganglia and $C_{1-2}$ spinal ganglia. sympathetic motor neurons were found in superior cervical ganglia. Sensory fibers labeled in brainstem were found in mesencephalic trigeminal tract, sensory root of trigeminal nerve, oral, interpolar and caudal part of trigeminal nucleus, area postrema, nucleus tractus solitarius, lateral reticular nucleus and $C_{1-2}$ spinal ganglia. Following injection of Sugu$(GV_{26})$, labeled motor neurons were founded in facial nucleus. Labeled sensory neurons were founded in trigeminal ganglia and $C_{1-2}$ spinal ganglia. Sympathetic motor neurons were found in superior cervical ganglia. Sensory fibers labeled in brainstem were found in spinal trigeminal tract, trigeminal motor nucleus, mesencephalic trigeminal tract, oral. interpolar and caudal parts of trigeminal nucleus, area postrema, nucleus tractus solitarius, lateral reticular nucleus, dorsal part of reticular part and $C_{1-2}$ spinal ganglia. Following injection of Sajukkong$(TE_{23})$ and Yangbaek$(G_{14})$, labeled motor neurons were founded in facial nucleus, trigeminal motor nucleus. Labeled sensory neurons were founded in trigeminal ganglia and $C_{1-2}$ spinal ganglia. sympathetic motor neurons were found in superior cervical ganglia. Sensory fibers labeled in brainstem were found in oral, interpolar and caudal parts of trigeminal nucleus, area postrema, nucleus tractus solitarius, inferior olovary nucleus, medullary reticular field and lamina I-IV of $C_{1-2}$ spinal cord. Location of nerve cell body and nerve fibers projecting to the meridian points related to the facial nerve paralysis in the rats were found in facial nucleus and trigeminal motor nucleus. Sensory neurone were found in trigeminal ganglia and $C_{1-2}$ spinal ganglia. Sympathetic motor neurons were found in superior cervical ganglia. Sensory fibers labeled in brainstem were found in mesencephalic trigeminal tract, oral, interpolar and caudal parts of trigeminal nucleus, area postrema, nucleus tractus solitarius. lateral reticular nucleus, medullary reticular field.

• 대한치과보존학회:학술대회논문집
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• 대한치과보존학회 2001년도 추계학술대회(제116회) 및 13회 Workshop 제3회 한ㆍ일 치과보존학회 공동학술대회 초록집
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• pp.561.2-561
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• 2001

Trigeminal sensory nerves relay mechanical, thermal, chemical and proprioceptive information from craniofacial region. Therefore, it is important of dentistry. Trigeminal sensory nucleus consists of principal sensory trigeminal nucleus, spinal trigeminal nuclei, mesencephalic trigeminal nucleus. Transmission of these sensation depends on function and distribution of ion channels.(omitted)

• Restorative Dentistry and Endodontics
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• 제20권2호
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• pp.423-431
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• 1995

Trigeminal spinal sensory nucleus is a main relay site in transmission of orofacial pain. Glutamate and aspartate playa role in transmission of primary afferents. This experiment was performed to study the role of capsaicin, KR-25018 and shogaol on the release of glutamate and aspartate from trigeminal spinal sensory nucleus. Release of excitatory amino acids(EAAs) was induced by electrical stimulation of oral mucosa with innocuous or noxious stimuli. Capsaicin($10{\mu}M$), KR-25018($10{\mu}M$), shogaol($10{\mu}M$), ruthenium red and capsazapine were added to perfusion solution to observe the changes in EAA release, and glutamate and aspartate were determined by HPLC. Release of glutamate and aspartate from trigeminal sensory nucleus was increased by noxious stimulation of oral mucosa, but innocuous stimulation did not affect on the release of EAA Capsaicin and KR-25018 increased the release of glutamate and aspartate, and effect of KR-25018 on release of EAA was more potent than capsaicin. But shogaol had a weak effect on release of EAA. Effect of capsaicin and KR-25018 was partially blocked by capsaicin antagonists, ruthenium red and capsazepine.

• The Korean Journal of Physiology
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• 제28권1호
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• pp.105-111
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• 1994

The present study was carried out to determine the effects of intracisternal administration of three doses of bombesin $(0.001,\;0.01\;and\;0.1\;{\mu}g)$ on afferent somatosensory transmission in single neurons of the spinal trigeminal nucleus of anesthetized rats. Lower doses $(0.001\;{\mu}g)$ of bombegin did not change the afferent sensory transmission. Medium doses $(0.01\;{\mu}g)$ of bombesin significantly (p p<0.01) facilitated afferent sensory transmission in the 6 to 30 min post-drug period, but higher doses $(0.1\;{\mu}g)$ inhibited responsiveness of spinal trigeminal neurons in the 16 to 35 min post-drug period. The results indicate that endogenous bombesin-like peptide present in the spinal trigeminal nucleus may participate in the processing of the somatosensory information arising from the face.

• Journal of Korean Neurosurgical Society
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• 제65권5호
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• pp.640-651
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• 2022

Clinical studies on neuromodulation intervention for trigeminal neuralgia have not yet shown promising results. This might be due to the fact that the pathophysiology of chronic trigeminal neuropathy is not yet fully understood. Chronic trigeminal neuropathy includes trigeminal autonomic neuropathy, painful trigeminal neuropathy, and persistent idiopathic facial pain. This disorder is caused by complex abnormalities in the pain processing system, which is comprised of the affective, emotional, and sensory components, rather than mere abnormal sensation. Therefore, integrative understanding of the pain system is necessary for appropriate neuromodulation of chronic trigeminal neuropathy. The possible neuromodulation targets that participate in complex pain processing are as follows : the ventral posterior medial nucleus, periaqueductal gray, motor cortex, nucleus accumbens, subthalamic nucleus, globus pallidus internus, anterior cingulate cortex, hypothalamus, sphenopalatine ganglion, and occipital nerve. In conclusion, neuromodulation interventions for trigeminal neuralgia is yet to be elucidated; future advancements in this area are required.

• Applied Microscopy
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• 제25권1호
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• pp.1-14
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• 1995

The purpose of this study was to investigate the main sensory trigeminal nucleus in the aging rat brain by means of electron microscope. Male Sprague-Dawley rats, two (control group) and thirty six (aging group) months of age, were used. These animals were sacrificed by perfusion fixation with 2.5% glutaraldehyde-2.0% paraformaldehyde (0.1M phosphate buffer, pH 7.4) under sodium pentobarbital. The objective area was punched out with a sharp-edged metal cylinder of 0.8 mm in diameter. These blocks of tissue were then washed in 0.1M phosphate buffer, postfixed in 2% osmium tetroxide, dehydrated in a graded series of ethyl alcohol, and embedded in Epon 812. Thin sections were cut with Super Nova ultramicrotome, pick up on grids and double stained with lead citrate and uranyl acetate, and observed in JEOL 100B electron microscope. The results were as follows: 1. In the control group, the neuronal cell body of the main sensory trigeminal nucleus was filled with nucleus, Golgi complex, Nissl substance, mitochondria, microfilaments and microtubules. However, few Nissl substances are seen in neuronal cell body. Axoaxonic synapse, axodendritic synapse, axosomatic synapse, axospinous synapse, myelinated and unmyelinated nerve fibers were well organized around cell bodies. Neurons with abnormal changes were not seen. 2. In the aging group, the neuronal cell body of the main sensory trigeminal nucleus contained large number of lipofuscin granules, dense body and swollen mitochondria. Terminal boutons contained glycogen, crystal-like vesicle and membranous indicating first signs of degeneration. The dendrites were found to be in synaptic contact with altered axon terminals. Frequently axons filled with dark axoplasn and splitted myelin sheath were noticed.

• Korean Journal of Acupuncture
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• 제17권1호
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• pp.101-121
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• 2000

The purpose of this morphological studies was to investigate the relation to the meridian, acupoint and nerve. The common locations of the spinal cord and brain projecting to the the gallbladder, GB34 and common peroneal nerve were observed following injection of transsynaptic neurotropic virus, pseudorabies virus(PRV), into the gallbladder, GB34 and common peroneal nerve of the rabbit. After survival times of 96 hours following injection of PRV, the thirty rabbits were perfused, and their spinal cord and brain were frozen sectioned($30{\mu}m$). These sections were stained by PRV immunohistochemical staining method, and observed with light microscope. The results were as follows: 1. In spinal cord, PRV labeled neurons projecting to the gallbladder, GB34 and common peroneal nerve were founded in thoracic, lumbar and sacral spinal segments. Densely labeled areas of each spinal cord segment were founded in lamina V, VII, X, intermediolateral nucleus and dorsal nucleus. 2. In medulla oblongata, The PRV labeled neurons projecting to the gallbladder, GB34 and common peroneal nerve were founded in the A1 noradrenalin cells/C1 adrenalin cells/caudoventrolateral reticular nucleus, rostroventrolateral reticular nucleus, medullary reticular nucleus, dorsal motor nucleus of vagus nerve, nucleus tractus solitarius, raphe obscurus nucleus, raphe pallidus nucleus, raphe magnus nucleus, gigantocellular nucleus, lateral paragigantocellular nucleus, principal sensory trigeminal nucleus and spinal trigeminal nucleus. 3. In Pons, PRV labeled neurons were parabrachial nucleus, Kolliker-Fuse nucleus and cochlear nucleus. 4. In midbrain, PRV labeled neurons were founded in central gray matter and substantia nigra. 5. In diencephalon, PRV labeled neurons were founded in lateral hypothalamic nucleus, suprachiasmatic nucleus and paraventricular hypothalamic nucleus. 6. In cerebral cortex, PRV labeled neuron were founded in hind limb area.This results suggest that PRV labeled common areas of the spinal cord projecting to the gallbladder, GB34 and common peroneal nerve may be first-order neurons related to the somatic sensory, viscero-somatic sensory and symapathetic preganglionic neurons, and PRV labeled common area of the brain may be first, second and third-order neurons response to the movement of smooth muscle in gallbladder and blood vessels.These PRV labeled neurons may be central autonomic center related to the integration and modulation of reflex control linked to the sensory system monitoring the internal environment, including both visceral sensation and various chemical and physical qualities of the bloodstream. The present morphological results provide that gallbladder meridian and acupoint may be related to the central autonomic pathways.

• International Journal of Oral Biology
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• 제30권2호
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• pp.71-76
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• 2005

The mesencephalic trigeminal nucleus (Mes V) contains cell bodies of primary afferent sensory neurons that relay proprioceptive information from the periodontium and masticatory muscles and function as typical sensory neurons or potentially as integrative interneurons. In the present study, we studied these two potential functions using combined experimental approaches of retrograde labeling and whole cell patch clamp recording. Mes V neurons that presumably originate from periodontal nerve fibers in subsets of Mes V nucleus were identified by retrograde labeling with a fluorescent dye, DiI, which was applied onto inferior alveolar nerve. These cells were elliptical perikarya shaped cells about $40{\mu}m$ in diameter. In these neurons, we measured high voltage-activated calcium channel (HVACC) currents. $GABA_B$ agonist, baclofen, inhibited calcium currents, and the HVACC currents inhibition by baclofen was voltage-dependent, exhibited prepulse facilitation, indicating that it was mediated by $G_i/_G_o$ protein. Taken together, our results demonstrate that Mes V neurons not only have cell bodies originating from periodontium, but also receive synaptic inputs including GABAergic neurons suggesting that Mes V neurons function as both primary sensory neurons and integrative interneurons.

• Journal of Oral Medicine and Pain
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• 제30권1호
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• pp.87-106
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• 2005

삼차신경계의 일차연접부위에서 구강 및 악안면 영역의 저역치기계자극수용기에서 유래하는 감각정보의 전달 및 처리 기전을 이해하고자, 고양이 콧수염에서 유래하는 들신경섬유를 사용하여 단일축삭 내 기록법에 의해 HRP를 표식한 후, 삼차신경중간핵에서 시편을 제작하고 표식종말에 대한 연속절편을 형성하였다. 총 30개의 표식 신경종말을 대상으로 전자현미경을 이용하여 삼차신경중간핵에서의 신경섬유 종말 및 연접이전축삭종말의 미세구조적 특징, 발현빈도, 연접양식 등을 분석하여 다음과 같은 결과를 얻었다. 1. 표식종말은 직경 45$\sim$55 ㎚의 균일한 형태의 밝고 둥근 모양의 연접소포를 함유하고 있었으며, 가지돌기와는 연접이후 치밀질이 잘 발달되어 있고, 연접틈새가 크며, 여러 곳에서 넓은 연접구조를 보이는 비대칭연접을, 다형의 연접소포를 함유하는 비표식 축삭종말과는 연접이후 치밀질이 뚜렷하게 발달되지 않으며, 연접면적이 좁은 대칭연접을 형성하였다. 2. 각 표식종말은 인접한 신경구조물들과 최소 1개에서부터 최대 15개까지 신경연접을 형성하여 단위 표식종말 당 평균 4.77$\pm$3.37개의 신경연접이 관찰되었으며, 5개 이상의 신경구조물들과 연접을 형성하는 비교적 복잡한 연접양상이 다수의 표식종말(46.7%, n=14)에서 관찰되었다. 3. 표식종말이 세포체와 직접 연접하는 양상은 관찰되지 않았으며, 가지돌기와는 단위 표식종말 당 1.83$\pm$1.37개의 신경연접을 형성하였다. 가지돌기와 연접을 이루는 표식종말의 대부분(85.0%)은 원위부 가지돌기인 가지돌기체와 연접을 이루었으며(n=47, 1.57$\pm$1.38/1 bouton), 근위부 가지돌기(n=6, 0.20$\pm$0.41/1 bouton)나 가지돌기 가시(n=2, 0.07$\pm$0.25/1 bouton)와 연접을 이루는 경우는 드물었다. 4. 표식종말의 76.7%(n=23)에서 다양한 형태의 연접소포를 함유하는 축삭종말인 p-ending과 축삭사이연접을 형성하였으며 (2.93$\pm$2.36/1 bouton), p-ending이 표식종말 및 이에 연접하는 가지돌기와 동시에 연접을 형성하는 연접세동이도 60.0% (n=18)에서 관찰되었다. 이상의 결과를 종합하여 보았을 때, 고양이 콧수염에서 유래하는 들신경섬유 종말은 삼차신경중간핵에서 특징적인 연접양상을 나타내었으며, 이는 감각정보의 분별, 통각의 정동반응 등 복잡한 감각정보의 처리에 관여하는 삼차신경중간핵의 기능과 밀접한 상관관계가 있는 것으로 사료되며, 향후 신경종말의 미세구조에 대한 정량적인 분석과 연접이전 억제에 관여하는 신경전달물질의 동정 등 생리학적인 기능에 대한 더욱 광범위한 연구가 필요하리라고 사료된다.

• International Journal of Oral Biology
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• 제31권4호
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• pp.113-118
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• 2006

In the primary sensory neuron of the mesencephalic trigeminal nucleus (MTN), the peripheral axon supplies a large number of annulospiral endings surrounding intrafusal fibers encapsulated in single muscle spindles while the central axon sends only a few number of synapses onto single ${\alpha}-motoneurons({\alpha}-MNs)$. Therefore, the ${\alpha}-{\gamma}$ linkage is thought to be very crucial in the jaw-closing movement. Spike activity in a ${\gamma}-motoneuron\;({\gamma}-MN)$ would induce a large number of impulses in single peripheral axons by activating many intrafusal fibers simultaneously, subsequently causing an activation of ${\alpha}-MNs$ in spite of the small number of synapses. Thus, the activity of ${\gamma}-MNs$ may be vital for modulation of jaw-closing movements. Independently of such a spindle activity modulated by ${\gamma}-MNs$, somatic depolarization in MTN neurons is known to trigger the oscillatory spike activity. Nevertheless, the trafficking of these spikes arising from the two distinct sources of MTN neurons is not well understood. In this short review, switching among multiple functional modes of MTN neurons is discussed. Subsequently, it will be discussed which mode can support the ${\alpha}-{\gamma}$ linkage. In our most recent study, simultaneous patch-clamp recordings from the soma and axon hillock revealed a spike-back-propagation from the spike-initiation site in the stem axon to the soma in response to a somatic current pulse. The persistent $Na^+$ current was found to be responsible for the spike-initiation in the stem axon, the activation threshold of which was lower than those of soma spikes. Somatic inputs or impulses arising from the sensory ending, whichever trigger spikes in the stem axon first, would be forwarded through the central axon to the target synapse. We also demonstrated that at hyperpolarized membrane potentials, 4-AP-sensitive $K^+$ current ($IK_{4-AP}$) exerts two opposing effects on spikes depending on their origins; the suppression of spike initiation by increasing the apparent electrotonic distance between the soma and the spike-initiation site, and the facilitation of axonal spike invasion at higher frequencies by decreasing the spike duration and the refractory period. Through this mechanism, the spindle activity caused by ${\gamma}-MNs$ would be safely forwarded to ${\alpha}-MNs$. Thus, soma spikes shaped differentially by this $IK_{4-AP}$ depending on their origins would reflect which one of the two inputs was forwarded to the target synapses.