• 한국가구학회지
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• 제19권2호
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• pp.106-110
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• 2008

This paper investigated and validated the mechanisms and principles for constructing reticular structure of plant fiber through frothing solution approach. After process, plant fibers became low-density reticular-structured block with all properties meeting Chinese standards for cushion packing materials. The bonds between fibers acted as knots in a truss and were strong enough to keep space occupied by bubbles in the frothing solution from shrinking in the subsequent draining process. The formation of the reticular structure depends mainly on the pressure difference between inside and outside bubble, the effect of surface adsorbent force on bubble film, and hydrogen bond among fiber hydroxide.

• Animal cells and systems
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• 제4권4호
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• pp.353-359
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• 2000

Location of the neurons in the lateral reticular nucleus projecting to dorsal horn of the cervical, thoracic, or lumbar spinal cord was investigated in the rat using the technique of retrograde transport of horseradish peroxidase. The projection was bilateral with ipsilateral predominance. Neurons projecting to the cervical spinal cord were located near the medial, dorsal, and lateral perimeter of the magnocellular division of the lateral reticular nucleus, whereas cells projecting to the thoracic and lumbar spinal cord were localized in the medial and dorsal boundaries of the magnocellular division. The labeled neurons were distinctly multipolar in shape and measured approximately 10-15 $\mu m$ in their greatest transverse diameter. A few neurons were also observed in the subtrigeminal nucleus, whereas few cells were in the parbocellular division. These observations provide an anatomical substrate for the functional implication of the lateral reticular nucleus in the regulation of spinal nociceptive transmission and vascular hemodynamics via the descending pathway into the spinal cord.

• 한국동물학회지
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• 제38권3호
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• pp.375-381
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• 1995

쥐에 sodium selenite 를 피하주사하여 연수에 분포하는 아연이 풍부한 뉴런의 세포체 위치를 autometallography 방법으로 조사하였다. 표지된 세포체의 분포양상은 앞쪽 부위에서 뒤쪽 부위까지 다양하였다. 표지된 세포체는 C1 adrenaline cells, gigantocellular reticular uncleus, inferior olive, paragigantocellular uncleus, prepositus hypoglossal uncleus, raphe obscurus uncleus, 및 reticular uncleus 부위에 나타났다.

• 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.

• Animal cells and systems
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• 제2권1호
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• pp.139-144
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• 1998

I examined the projection of glutamatergic neurons in the lateral reticular nucleus into ansiform (crus l and ll) and paramedian lobules in the rat cerebellum using immunocytochemical methods with antiserum against glutamate combined with WGA-HRP histochemistry. The projections of glutamatergic neurons from the lateral reticular nucleus to crus l were most extensive in number among the three injection cases and the majority of projections originated at the dorsal to dorsomedial region of the ipsilateral magnocellular nucleus. Glutamate-immunoreactive cells projecting to crus ll were less extensive in number than those projecting to crus l and were mainly localized at the dorsomedial portion of the ipsilateral magnocellular nucleus. Double-labelled neurons projecting to crus l or crux ll were also located at ipsilateral subtrigeminal as well as contralateral magnocellular nuclei. Glutamatergic neurons projecting to paramedian lobules were moderate in number and mainly located at the dorsal area of the ipsilateral magnocellular nucleus. A few double-labelled cells were also found at ipsilateral subtrigeminal or contralateral magnocellular nuclei. The present study suggests that glutamate-immunoreactive neurons at the dorsal to dorsomedial magnocellular division of the lateral reticular nucleus may participate in the excitatory control of target neuronal activities at ipsilateral, posterior hemispheric lobules of the rat cerebellum.

• Journal of Yeungnam Medical Science
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• 제39권4호
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• pp.332-335
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• 2022

We report on changes in the ascending reticular activating system (ARAS) concurrent with the recovery of impaired consciousness following rehabilitation and cranioplasty in a patient with traumatic brain injury (TBI), which were demonstrated on diffusion tensor tractography (DTT). A 34-year-old male patient was diagnosed with a traumatic intracerebral hemorrhage after falling from a height of approximately 7 m and underwent a right frontoparietotemporal decompressive craniectomy and hematoma removal. At 5 months after onset, when starting rehabilitation, the patient showed impaired consciousness, with a Glasgow Coma Scale (GCS) score of 4. Comprehensive rehabilitative therapy was provided until 14 months after onset, and his GCS score improved to 8. Cranioplasty was performed using auto-bone at 14 months after onset. One month after cranioplasty, his GCS score improved to 12. On the 15-month DTT, the deviated lower dorsal ARAS was restored on both sides, and the right side had become thicker. The right lower ventral ARAS was reconstructed, and increased neural connectivity of the upper ARAS was detected in both the prefrontal cortices. Thus, changes in the ARAS were demonstrated in a patient with TBI during recovery of consciousness following rehabilitation and cranioplasty.

• 대한수의학회지
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• 제34권4호
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• pp.695-703
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• 1994

The development of reticulum in fetuses between 60, 90, 120 days of gestation and neonates of Korean native goats was investigated by light, scanning electron microscopy. The results were summarized as follows; 1. In the 60-day-old fetuses, the stomach was developed and differentiated into four compartments of rumen, reticulum, omasum, and abomasum. The reticular epithelial layers were differentiated into two zones; a small dark basal and a large light luminar zones. The wall of reticulum resembled that of the rumen except that the mucosa was in the cranio-dorsal region of the reticulum. 2. In the 90-day-old fetuses, the light luminar zone of the reticulum was about 10-16 times thicker than the dark zone. The outlines of the reticular ribs were visible. 3. In the 120-day-old fetuses, the wall of the reticlum had also increased in thickness. The reticular mucosa exhibited an irregular luminar surface and the invaginations had differentiated into large regularly arranged ones separated by 3-5 and small irregularly arranged ones. 4. In the neonate, the luminar surface of the reticular mucosa demonstrated clear furrows, at which the superficial cells of the light zone had undergone degenerative changes. 5. Scanning electron microscopic studies; In the 60-day-old fetuse, numerous microvilli were observed on the superficial epithelial layer of shape or dome like at 120 days. In the neonate, the reticular papillae liked the little finger.

• 대한감각통합치료학회지
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• 제13권2호
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• pp.75-84
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• 2015

목적 : 본 연구의 목적은 감각조절과 각성과의 신경학적인 메커니즘을 알아보는 것이다. 본 론 : 감각통합치료에서 아동의 적절한 각성유지는 중요한 이슈이다. 감각입력을 통한 각성 조절을 위해 둘레계 및 그물체는 중요한 관계가 있고, 특히 그물체에서 대뇌피질로 가는 오름그물활성계통은 주요 처리 경로이다. 이때 콜린성 뉴런 및 단가아민계 뉴런 집단 등에서 분비되는 다양한 신경전달물질이 영향을 미친다. 각성을 위한 메커니즘은 중추신경계 및 자율신경계 기능을 측정하는 뇌파나 피부전기반응 등으로 측정한다. 객관적 신경생리학적 측정을 통해 일반아동과 장애아동에서 중추신경계 및 자율신경계 기능이 차이가 있음이 보고되었다. 감각통합치료를 통해 장애아동에게 적절한 감각을 입력하는 것은 그물체와 둘레계, 대뇌피질을 활성화시켜 최적의 각성상태를 유지하도록 돕는다. 결 론 : 객관적 측정도구를 사용한 연구결과의 제시는 감각통합치료에 대한 근거기반 임상을 위한 기초자료가 된다.

• Applied Microscopy
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• 제11권1호
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• pp.39-50
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• 1981

성숙하고 정상인 포유류 6종의 동물들을 이용하여 위에 분포하는 비만세포의 형태와, 세포내 과립의 구조적 형태의 종간차이를 비교하고자 전자현미경으로 관찰을 하였다. 저자는 특히 관찰된 세포질내 과립을 편의상 다음과 같이 분류하였다. 1) 동질성 과립 (homogeneous granule, GR1) 2) 미세 입자과립 (particulate granule, GR2) a. 고전자밀도 미세 입자과립 (dark dense particulate granule, GR2-1) b. 중전자밀도 미세 입자과립 (less dense particulate graunle, GR2-2) 3) 망상구조과립 (reticular granule, GR5) a, 고전자말도 망상구조과립(dark dense reticular granule, GR5-1) b. 저전자밀도 망상구조과립(light dense reticular granule, GR5-2) 포유류인 염소, 개, 고양이, 햄스터에서는 대부분 세포질내 소기관중 골지체 및 사립체가 나타났으며 세포질내 과립의 대부분이 전자밀도가 높은 동질성인 것 (GR1)과 미세입자형으로 된 것 (GR2)이 나타났다. 그러나 Guinea pig에서는 망상구조형의 과립들 (GR5-1, GR5-2)이 나타났다. 또한 개와 Guinea pig 에서 과립의 한쪽이 함몰되었거나 반월형인 것이 나타났다. 위 결과로 보아 표유류 각 종 간의 비만세포, 세포내 과립은 형태학적으로 차이가 있음을 알 수 있으며, 이러한 차이는 아마도 종 간의 기능에 따른 과립의 구조적 차이와 구성성분 및 성숙도등과 상관관계가 있는 것으로 추측된다.

• 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.