• Applied Microscopy
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• 제25권1호
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• pp.48-64
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• 1995

Ultrastructure of nerves and their associated cells in the bronchiolar epithelium of the human fetal lung were studied with ultrastructural and immunohistochemical methods. The neuroendocrine cells were scattered along the basal part of non-ciliated respiratory epithelium and appeared as single cell (solitary neuroendocrine cell) or groups (neuroepithelial bodies). The solitary neuroendocrine cells were devoid of any detectable innervation, while the neuroepithelial bodies were associated with nerve ending containing morphologically afferent (sensory) and efferent (motor) intraepithelial terminals. The afferent nerve endings contained abundant mitochondria with long cristae. The efferent nerve endings were characterized by the presence of synaptic vesicles. Both types of nerve endings formed synaptic junction between nerve endings and neuroepithelial bodies cells. Serial sections of the intraepithelial nerves revealed that both morphologically afferent and efferent types of nerve endings may be formed by the same nerve fiber. By immunohistochemistry, bombesin and serotonin were localized in solitary neuroendocrine cells and neuroepithelial bodies of human fetal lung from various prenatal age groups. These results suggest that the neuroepithelial bodies cells of the human fetal lung have neuroreceptor function.

• Journal of Korean Biological Nursing Science
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• 제8권1호
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• pp.39-48
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• 2006

Purpose: To see the effects of capsaicin on the peripheral nerve damage of intervibrissal fur in mature rats, Method: 24 female mature rats($200{\sim}250g$) are divided to 3 groups and compared with each other. Immunofluorescence dye using CGRP and PGP antibodies was performed and 8 weeks after administration of capsaicin with control group. Result: The immunopositive reaction against PGP and CGRP was reduced by the damage of epidermal and dermal endings in unmyelinated sheath and thin myelinated sheath and the group after 8weeks showed distinct positive reaction of PGP and CGRP than the group after 4 weeks which means the recover of nerves. Conclusion: As a result, capsaicin influenced on pain-related neurotransmitter like CGRP when administerd to mature rats and even though it caused the damages on unmyelinated sheath and thin myelinated sheath, the damaged nerves recovered after 8 weeks. Also the research about sensory nerve endings scattered over middle dermal and deep epidermal layers such as lanceolate, merkel reticular, Ruffini endings should be studied when the research of the inner conical body is performed. Further studies are necessary about the toxicity and effect of capsaicin on the peripheral nerve endings.

• The Korean Journal of Physiology and Pharmacology
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• 제21권2호
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• pp.145-152
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• 2017

Remote ischemic preconditioning (RIPC) is an intrinsic phenomenon whereby 3~4 consecutive ischemia-reperfusion cycles to a remote tissue (non-cardiac) increases the tolerance of the myocardium to sustained ischemia-reperfusion induced injury. Remote ischemic preconditioning induces the local release of chemical mediators which activate the sensory nerve endings to convey signals to the brain. The latter consequently stimulates the efferent nerve endings innervating the myocardium to induce cardioprotection. Indeed, RIPC-induced cardioprotective effects are reliant on the presence of intact neuronal pathways, which has been confirmed using nerve resection of nerves including femoral nerve, vagus nerve, and sciatic nerve. The involvement of neurogenic signaling has been further substantiated using various pharmacological modulators including hexamethonium and trimetaphan. The present review focuses on the potential involvement of neurogenic pathways in mediating remote ischemic preconditioning-induced cardioprotection.

• The Journal of Korean Physical Therapy
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• 제15권2호
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• pp.12-18
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• 2003

Proprioception can be defined as a specialized variation of touch that encompasses the sensation of joint movement(kinesthesia) and joint position(static joint position sense). Several types of joint and muscular mechanoreceptors provide proprioceptive information for joint stability. Joint mechanoreceptors have been classified into four types based of activation characteristics : Ruffini endings, Pacinian corpuscles, Golgi tendon organlike endings, free nerve endings. The paper review the morphology, distrubution, function of mechanoreceptors in shoulder joint.

• 대한정형외과스포츠의학회지
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• 제4권1호
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• pp.29-35
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• 2005

목적: 전방십자인대 내에 기계적 수용체의 존재가 밝혀지면서 전방십자인대는 신경근육의 조절에 관여하는 기능이 있는 것으로 추측되어왔다. 하지만, 기계적 수용체의 존재에도 불구하고 전방십자인대의 말단 신경수용체로부터 대뇌피질까지의 구심성 체성감각신경로는 아직 명확히 밝혀지지 않았다. 강력한 신경친화성 표지자이며 신경연접을 건너 분열, 확산하는 pseudorabies virus(PRV)를 이용하여 전방십자인대의 구심성 체성감각신경로를 추적하고자 하였다. 대상 및 방법: PRV를 쥐의 전방십자인대에 주입한 후 약 6-7일간 신경엽접을 건너 확산하도록 허용한 후 각각의 쥐를 희생, 관류하였다. 대뇌와 척수를 체부로부터 분리하여 면역화학적으로 처리한 후 PRV의 존재여부를 확인하였다. 결과: PRV에 면역 활성화된 신경세포는 척수로부터 대뇌피질에 이르기까지 여러 위치에서 발견할 수 있었다. 특히, 뇌관의 망상활성계의 중뇌망상핵, 대뇌세포망상핵, 부거대세포망상핵, 거대세포망상핵에서 강한 양성표지반응을 보였다. 결론: 쥐의 전방십자인대의 신경말단은 척수, 뇌관 및 대뇌피질로 투사된다. 또한, 전방십자인대에 분포하는 신경말단으로부터의 대뇌피질로의 구심설 신경로에서 망상활성계가 중요한 역할을 담당할 것으로 추측된다.

• 대한소아치과학회지
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• 제21권2호
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• pp.439-455
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• 1994

생리적 치근 흡수가 뒤따르는 유치 치주인대의 신경분포 및 변화를 평가하기 위하여 생후 1, 2. 3. 4. 5개월된 개의 유치 치주인대와 9개월된 영구치 치주인대를 대상으로 neurofilament protein(NFP) 을 이용한 면역조직화학적 방법으로 관찰하여 다음과 같은 결과를 얻었다. ${\bullet}$ 유견 유치의 치주인대 신경분포는 치근단 1/3 부위에서 가장 밀집되어 있었으며 치근 중앙부로 향할수록 현저하게 감소되었으며 전체적으로 그 분포밀도 및 분지 정도는 영구치와 비교시 약한 양상을 나타냈다. ${\bullet}$ 구치부에 비해 전치부에서 신경분포가 보다 발달된 양상을 보였으며 구치 치근이개부 치주인대에서는 신경섬유가 관찰되지 않았다. ${\bullet}$ 유치근이 흡수됨에 따라 신경분포 정도도 감소되었으며 탈락시기의 치근 주위에서는 신경섬유를 관찰할 수 없었다. ${\bullet}$ 치은점막상피의 신경지배는 치아가 발육함에 따라 감소되는 양상을 나타내었으며 설측점막이 순측점막보다 더 발달된 신경분포 양상을 관찰할 수 있었다. ${\bullet}$ 유치 치주인대 신경말단 형태는 수지상의 신경말단 형태를 나타내고 있었으며 전형적인 Ruffini 신경말단은 거의 관찰할 수 없었다. 이상의 결과를 미루어 신경섬유의 분포는 기능과 밀접한 관계가 있는 것으로 생각되고 더우기 유치의 생리적 치근흡수에 따른 치주인대에 신경섬유의 분포 및 변화는 유치의 성장발육에 따른 하나의 변화라고 생각된다.

• Applied Microscopy
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• 제22권1호
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• pp.1-14
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• 1992

Parenchyma of the cat pineal body consisted of pinealocytes and glial cells. The pinealocyte, predominant cell type, was characterized by having large mitochondria with pale matrix, abundant polyribosomes, moderately-developed Golgi apparatus, centrioles and occasional cilia. The pinealocyte had one thick and long cytoplasmic process at the one pole of the cell, and slender and shorter processes at the other pole, and in addition occasional short processes from the cell body. These processes contained longitudinally arranged microtubules, and a few mitochondria. Thick processes teminated as bulgings either in the intercellular process-rich area, or in the perivascular border which was formed by glial cell processes. These endings of pinealocyte processes had many small vesicles, mitochondria, and occasional dense bodies. Glial cells with abundant filaments of intermediate type and clear cytoplasmic matrix were fibrous astrocyte. Perikarya of the astrocytes had small and dense mitochondria, moderately developed Golgi apparatus, dense bodies and variable amount of intermediate filaments. Glial cell processes run through the intercellular spaces among the pinealocyte processes. Glial cell of protoplasmic type had no or a few filaments, but it had well-organized rough endoplasmic reticulum, dense mitochondria, well developed Golgi apparatus and many dense granules. Intercellular canaliculi formed by adjacent pinealocytes and glial cell processes were often noted. Within the parenchyma, sympathetic and parasympathetic axons and their endings were noted. These endings were present mostly in the intercellular spaces without having membrane specialization, however, in rare instances, ending with small clear and dense cored vesicles, and large dense cored vesicles formed specialized synapse with a pinealocyte process. Within the perivascular spaces nerve fibers and endings, Schwann cells and pericyte were noted. In rare case pinealocyte process penetrated into the perivascular space through the interuptions of glial border. These results suggest that pinealocyte of the cat has less significance in secretory function and is rather neural type of cell.

• Imaging Science in Dentistry
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• 제45권1호
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• pp.61-65
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• 2015

The mental foramen is a bilateral opening in the vestibular portion of the mandible through which nerve endings, such as the mental nerve, emerge. In general, the mental foramen is located between the lower premolars. This region is a common area for the placement of dental implants. It is very important to identify anatomical variations in presurgical imaging exams since damage to neurovascular bundles may have a direct influence on treatment success. In the hemimandible, the mental foramen normally appears as a single structure, but there are some rare reports on the presence and number of anatomical variations; these variations may include accessory foramina. The present report describes the presence of accessory mental foramina in the right mandible, as detected by cone-beam computed tomography before dental implant placement.

• 한국동물학회지
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• 제39권2호
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• pp.223-230
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• 1996

Fine structure of the neuromuscular junction in the venomous organ of the spider, Agelena li'mbutq, was studied using high magnification electron microscope. The motor nerve endings at neuromuscular contact area composed of neurons and neuroslial cells were located between musculature and extracellular sheath of the venom gBand. At the synaptic contact between a motor axon and a muscle fiber in the musculature, spherical synaptic vesicles were prominent in the nerve terminal. The sarcoplasm beneath the neuromuscular synapse has a granular appearance and lacks mvofilaments. And the main axon gives off a branch between the muscle fibers. The synaptic regions of this organ are located close to the myofilaments unlike to other chelicerate classes. Moreover the postsvnaptic complex of vesicles and membrane invasinations present in other synaptic legions are absent from these legions in this venomous organ.

• The Korean Journal of Pain
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• 제9권1호
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• pp.26-38
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• 1996

In a normal state, sympathetic efferent activity does not elicit discharges of sensory neurons, whereas it becomes associated with and excites sensory neurons in a pathophysiological state such as injury to a peripheral nerve. Although this sympathetic-sensory interaction is reportedly adrenergic, involved subtypes of adrenoreceptors are not yet clearly revealed. The purpose of this study was to determine which adrenorceptor subtypes were involved in sympathetic-sensory interaction that was developed in rats with an experimental peripheral neuropathy. Using rats that received a tight ligation of one or two of L4-L6 spinal nerves 10~15 days previously, a recording was made from afferent fibers in microfilaments teased from the dorsal root that was in continuity with the ligated spinal nerve. Electrical stimulation of sympathetic preganglionic fibers in T13 or L1 ventral root (50 Hz, 2-5 mA. 0.5 ms pulse duration, 10 sec) was made to see if the activity of recorded afferents was modulated. About half of afferents showing spontaneous discharges responded to sympathetic stimulation, and had the conduction velocities in the A-fiber range. Most of the sympathetically induced afferent responses were excitation. This sympathetically induced excitation occurred in the dorsal root ganglion (DRG), and was blocked by yohimbine (${\alpha}_2$ blocker), neither by propranolol ($\beta$ blocker) not by prazosine (${\alpha}_1$ blocker). The results suggest that after spinal nerve ligation, sympathetic efferents interact with sensory neurons having A-fiber axons in DRG where adrenaline released from sympathetic nerve endings excites the activity of sensory neurons by acting on 2-adrenoreceptors. This 2-adrenoreceptor mediated excitation of sensory neurons may account for sympathetic involvement in neuropathic pain.