• Journal of Dental Anesthesia and Pain Medicine
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• 제17권3호
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• pp.191-198
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• 2017

Background: For peripheral nerve regeneration, recent attentions have been paid to the nerve conduits made by tissue-engineering technique. Three major elements of tissue-engineering are cells, molecules, and scaffolds. Method: In this study, the attachments of nerve cells, including Schwann cells, on the nerve conduit and the effects of both growth factor and adhesion molecule on these attachments were investigated. Results: The attachment of rapidly-proliferating cells, C6 cells and HS683 cells, on nerve conduit was better than that of slowly-proliferating cells, PC12 cells and Schwann cells, however, the treatment of nerve growth factor improved the attachment of slowly-proliferating cells. In addition, the attachment of Schwann cells on nerve conduit coated with fibronectin was as good as that of Schwann cells treated with glial cell line-derived neurotrophic factor (GDNF). Conclusion: Growth factor changes nerve cell morphology and affects cell cycle time. And nerve growth factor or fibronectin treatment is indispensable for Schwann cell to be used for implantation in artificial nerve conduits.

• 대한기계학회:학술대회논문집
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• 대한기계학회 2007년도 춘계학술대회B
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• pp.2941-2946
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• 2007

A model of the cardiovascular system coupling cell, hemodynamics and autonomic nervecontrol function is proposed for analyzing heart mechanics. We developed a comprehensive cardiovascular model with multi-physics and multi-scale characteristics that simulates the physiological events from membrane excitation of a cardiac cell to contraction of the human heart and systemic blood circulation and ultimately to autonomic nerve control. Using this model, we delineatedthe cellular mechanism of heart contractility mediated by nerve control function. To verify the integrated method, we simulated a 10% hemorrhage, which involves cardiac cell mechanics, circulatory hemodynamics, and nerve control function. The computed and experimental results were compared. Using this methodology, the state of cardiac contractility, influenced by diverse properties such as the afterload and nerve control systems, is easily assessed in an integrated manner.

• 대한본초학회지
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• 제20권4호
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• pp.121-132
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• 2005

Objectives : Siegesbeckiae Herba's effect on the protection of nerve cells was tested, and the effects were compared between Siegesbeckia glabrescens Makino, the state of which is spica imported from China, and original Korean leaves of it. Methods : After damaging nerve cells by exposing them on NMDA (N-methyl-D-aspartic acid) and KA(kainic acid), Siegesbeckiae Herba's effect on cell death, inhibition rate, glutamate separation, and ROS(reactive oxygen species) production were examined. Results : 1. Siegesbeckiae Herba inhibited the cell death exposed to NMDA. 2. Siegesbeckiae Herba inhibited the amount of glutamate separated from nerve cells exposed to NMDA. 3. Siegesbeckiae Herba inhibited the production of ROS induced by NMDA. 4. Siegesbeckiae Herba did not inhibit the cell death exposed to KA. 5. Chinese Siegesbeckiae Spica had no inhibition effect on cell death. Conclusions : Siegesbeckiae Herba was effective in inhibiting the death of nerve cells exposed to NMDA, and in protecting nerve cells from various damages in nerve cell diseases. Because Chinese Siegesbeckiae Spica did not show such effects, it is necessary to closely examine those effects according to the used parts.

• 대한한의학회지
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• 제33권3호
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• pp.133-146
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• 2012

Background: Most antitumor agents have the side effect of chemotherapy-induced peripheral neuropathy (CIPN). Cancer patients who take antitumor agents suffer from CIPN, but there is no known treatment for it. Unlike the central nerve system, the peripheral nerve can self-repair, and the Schwann cell takes this mechanism. Objectives: In this study, we researched the effect of YideungJetong-Tang (YJT) extract on taxol-induced sciatic nerve damage, through in vitro and in vivo experiments. Also, we studied the effect of YJT extract on neurite recovery and anti-inflammatory effect after compression injury of sciatic nerve in vivo. Methods: Vehicle, taxol and taxol+YJT were respectively applied on sciatic nerve cells of rat in vitro, then the cells were cultured. The sciatic nerve cells and Schwann cells were then observed using Neurofilament 200, Hoechst, ${\beta}$ -tubulin, S-$100{\beta}$, caspase-3 and phospho-Erk1/2. CIPN was induced by taxol into the sciatic nerve of rat in vivo, then YJT extract was taken orally. The axons, Schwann cells and neurites of the DRG sensory nerve were then observed using Neurofilament 200, ${\beta}$-tubulin, Hoechst, S-$100{\beta}$, phospho-Erk1/2 and caspase-3. YJT was taken orally after sciatic nerve compression injury, and the changes in axon of the sciatic nerve, Schwann cells and TNF-${\alpha}$ concentration were observed. Results: The taxol and YJT treated group showed significant effects on Schwann cell recovery, neurite growth and recovery. In vivo, YJT compared with control group showed Schwann cell structural improvement and axons recovering effect after taxol-induced Schwann cell damage. After sciatic nerve compression injury, recovery of distal axon, changes of Schwann cell distribution, and anti-inflammatory response were observed in the YJT. Conclusions: Through this study, we found that after taxol-induced neurite damage of sciatic nerve in vivo and in vitro, YJT had significant effects on sciatic nerve growth and Schwann cell structural improvement. In vivo, YJT improved recovery of distal axons and Schwann cells and had an anti-inflammatory effect.

• 전기의세계
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• 제28권8호
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• pp.66-71
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• 1979

This paper describes electrical analysis of the information processing of the nervous system. A general-purpose electrical neuronal model for simulating the electrical activity in a single nerve cell and in small groups of nerve cell has constructed. This model consists of two basic electronic modules to represent respectively a "cell body" and an "axon (with synapses)", together with various related appurtenances. The primary advantages of this method are; holistic view, actual physical representation of various electrical activities in a single nerve cell, display of the activity of all nerve cells flexibility with respect to network parameters. Moreover, this model can effectively help push forward our general ability to explore and conceptualize the electrical activity of interconnected networks of nerve cell behaving in concert. Also, this electronic module technique is the best of various means for this task of realistic representation of aggregates of neurons.gregates of neurons.

• 생명과학회지
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• 제12권3호
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• pp.306-316
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• 2002

흰쥐의 좌골신경을 절단한 후 혈관내에서 배양한 신경줄기세포를 이식하여 말초신경에서도 수초의 재생이 일어나는지를 형태 학적으로 규명하고 배양한 신경줄기 세포들로부터 분화한 Schwann cell들이 회복할 수 있는지를 조사하여 다음과 같은 결론을 얻었다. 이식한 20일 후 동맥내 배양한 신경줄기세포는 Schwann cell로 분화하여 신경섬유의 재생이 일어나기 시작하였다. Schwann cell은 증식 후 재수초화를 형성하기 위하여 다른 Schwann cell들로부터 여러 가지를 자극을 받고 있었으며 NGF 소견으로 볼 때 신경외막으로부터 기존의 Schwann cell로부터 신경줄기세포의 분화가 유도되었으며 PCNA 반응으로 볼 때도 기존의 신경섬유의 Schwann cell주위에서부터 증식이 일어났다. 미세구조적으로는 Schwann cell의 재수초화, 축삭내 사립체와 미세소관의 수의 증가를 관찰할 수 있었다.

• Journal of Korean Neurosurgical Society
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• 제37권1호
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• pp.70-72
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• 2005

Primary spinal cord lymphomas are rare, and are either extra-/intradural masses with leptomeningeal infiltration or intramedullary in nature. The authors present a patient with a diffuse large B-cell lymphoma involving the sacral nerve root, extension to extradural space, and the cranial nerve.

• Journal of the Korean Association of Oral and Maxillofacial Surgeons
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• 제33권3호
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• pp.227-237
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• 2007

Microglial cell activation is known to contribute to neuropathic pain following spinal sensory nerve injuries. In this study, I investigated its mechanisms in the case of trigeminal sensory nerve injuries by which microglial cell and p38 mitogen-activated protein kinase (p38 MAPK) activation in the medullary dorsal horn (MDH) would contribute to the facial pain hypersensitivity following mandibular nerve transection (MNT). And also investigated the changes of trigeminal ganglion neurons and ERK, p38 MAPK manifestations. Activation of microglial cells was monitored at 1, 3, 7, 14, 28 and 60 day using immunohistochemical analyses. Microglial cell activation was primarily observed in the superficial laminae of the MDH. Microglial cell activation was initiated at postoperative 1 day, maximal at 3 day, maintained until 14 day and gradually reduced and returned to the basal level by 60 days after MNT. Pain hypersensitivity was also initiated and attenuated almost in parallel with microglial cell activation pattern. To investigate the contribution of the microglial cell activation to the pain hypersensitivity, minocycline, an inhibitor of microglial cell activation by means of p38 MAPK inhibition, was administered. Minocycline dose-dependently attenuated the development of the pain hypersensitivity in parallel with inhibition of microglial cell and p38 MAPK activation following MNT. Mandibular nerve transection induced the activation of ERK, but did not p38 MAPK in the trigeminal ganglion. These results suggest that microglial cell activation in the MDH and p38 MAPK activation in the hyperactive microglial cells play an important role in the development of facial neuropathic pain following MNT. The results also suggest that ERK activation in the trigeminal ganglion contributes microglial cell activation and facial neuropathic pain.

• Restorative Dentistry and Endodontics
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• 제25권2호
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• pp.225-234
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• 2000

The purpose of this study was to investigate the distribution and fluorescene intensity of vasoactive intestinal polypeptide(VIP) immunoreactive cells in rat trigeminal ganglion after inferior alveolar nerve axotomy. The animals were divided into normal and two experimental groups. The experimental animals were sacrificed at 14th and 28th day after inferior alveolar nerve axotomy. The trigeminal ganglion was removed and immersed in the 4% paraformaldehyde-0.2% picric acid in 0.1M phosphate buffer. Serial frozon sections about $16{\mu}m$ in thickness were cut with a cryostat. The immunofluorescence staining was performed. The rabbit anti-VIP(1 : 8,000) was used as primary antibody and fluorescene isothiocynate(FITC)-conjugated anti-rabbit IgG(1 : 80) as secondary antibody. The slides were observed under confocal laser scanning microscope. Three-dimensional images were constructed from 9 serial images(each $1{\mu}m$ in thickness) made by automatic optical sectioning. Unprocessed optical sections were obtained and stored on a optical disk. Color picture were printed by a video copy processor. The results were as follows; 1. The appearance of VIP immunoreactive cells in the mandibular part of trigeminal ganglion was 8.79${\pm}$1.99% in normal group and 39.16${\pm}$5.62% in 14 days, 16.25${\pm}$2.39% in 28 days after inferior alveolar nerve axotomy groups. 2. The relative fluorescence intensity of VIP immunoreactive cell bodies in the mandibular part of trigeminal ganglion was 134.40${\pm}$10.39 in normal group and 192.88${\pm}$14.06 in 14 days, 143.10${\pm}$5.02 in 28 days after nerve axotomy groups. Therefore, the relative fluorescence intensity of 14 days after nerve axotomy group was 43.3% higher than intensity of normal group. 3. In optical single section analysis of VIP immunoreactive cell bodies, white cell bodies(moderate fluorescence intensity) were the most abundant in normal and 28 days after nerve axotomy groups. Whereas, in 14 days after nerve axotomy group, red cell bodies(high fluorescence intensity) were the most abundant. 4. In optical serial section analysis of VIP immunoreactive cell bodies, red cell bodies(high fluorescence intensity) were observed in a part of the 9 sections of normal and 24 days after nerve axotomy groups. Whereas, red cell bodies were observed in all of the 9 sections of 14 days after nerve axotomy group. 5. The results indicates that number and fluorescence intensity of VIP immunoreactive cells were increased in the mandibular part of trigeminal ganglion following inferior alveolar nerve axotomy.

• The Journal of Korean Physical Therapy
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• 제12권3호
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• pp.415-432
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• 2000

In mammals. axotomy of peripheral nerve leads to a complex. These events include swelling of cell body, disappearance of Nissl substance. Proximal and distal axon undergoes a variable deriable degree of traumatic degeneration and wallerian degeneration, respectively. Nerve injury may result in cell death or regeneration. Molecular changes include proliferation of Schwann cells, upregulation of neurotropism, neural cell adhesion molecules and cytokine. Also growth cone plays an essential role in axon guidance through interaction of cytoskeleton. We review cellular and molecular events after nerve injury and describe nerve regeneration and associated proteins.