• 대한수의학회지
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• 제31권1호
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• pp.19-26
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• 1991

한국산 고슴도치의 위점막에 분포하는 내분비세포에 대해 면역조직화학적으로 관찰하였던바, gastrin, somatostatin, 5-HT, glucagon, BPP, motilin, GIP 등 7종의 면역반응세포들이 동정되었으며, 이들 세포들의 부위별 분포와 출현빈도의 특정은 다음과 같다. Gastrin 면역반웅세포는 유문부에서만 아주 다수로 출현하였으며, somatostatin 면역반응세포는 유문부에서 다수, 분문부와 위저부에서는 중등도의 출현올 볼 수 있었다. 5-HT 면역반응세포는 분문부와 유문부에서 다수, 위저부에서는 중등도로 출현하였다. glucagon 면역반응세포는 위저부에서 소수로 그리고 유문부에서 극히 소수로 출현하였고, BPP 면역반응세포는 유문부에 다수로, 위저부에 중등도로 분문부에 소수로 분포하였다. motilin 면역반응세포는 유문부와 위저부에서 소수 또는 극소수로 출현하였으며, GIP 면역반응세포는 유문부에서만 소수의 분포를 볼 수 있었다.

• 대한수의학회지
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• 제30권4호
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• pp.373-381
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• 1990

한국산 고슴도치의 분문부와 위저부에 있어서 내분비세포를 전자현미경적으로 관찰하였던 바 EC, ECL, $D_1$, G 및 A-1ike 세포 등 5종의 세포가 동정되었다. EC 세포는 높은 전자밀도의 다형태성 과립을 가지며, 과립내에는 더 높은 천자밀도의 dense body가 보였고, 과립의 크기는 170~500nm였다. ECL 세포는 원형 또는 난원형의 과립을 가지며, 과립 내용물은 전자밀도가 높고 편재하거나 공포상으로 출현하였고, 과립의 크기는 220~450nm였다. $D_1$ 세포는 원형의 과립을 가지며, 과립의 전자밀도는 낮거나 중등도였고, 과립의 크기는 140~400nm였다. G 세포는 원형 또는 난원형의 과립을 가지며, 중등도의 전자밀도를 나다내는 과립은 내용물과 한계막 사이에 좁은 halo를 보였고, 과립의 크기는 200~400nm였다. A-like 세포는 원형의 과립을 가지며, 이들 과립은 높은 전자밀도를 나타내었고, 내용물과 한계막은 밀착하였으며, 과립의 크기는 170~260nm였다.

• 대한수의학회지
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• 제22권1호
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• pp.53-58
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• 1982

Stomachs from 3,354 fattening pigs were examined at slaughter during the period from September 1980 to August 1981. Pigs of both sexes and $Landrace{\times}Hampshire$ crossbreds were included in the present studies, and they weighed about 60-120kg. Gross pathologic alterations of the stomach were classified as normal, epitnelial change, erosion, ulcer and scar formation. Representative tissue sections were taken from the stomach lesions at random and fixed in 10% buffered formalin. Cut sections were stained with hematoxylin and eosin, and examined histopathologically. The results obtained in the present studies were as follows. 1. In the seasonal prevalence of gastric ulceration, severe ulceration with erosion was shown during the Autumn and Winter, whereas mild ulceration was mainly shown during the Spring and Summer. 2. Of the 3,354 stomachs of the pigs, 20.8% were found to be normal. Of the rest, 40% had epithelial changes, followed by erosion (24.7%), ulcer (13.6%) and scar formation (0.9%), respectively. 3. In the prevalence of ulcers in the different regions of the stomach, the fundic region had the highest rate (61.6%) of ulceration, followed by cardiac (21.7%), esophageal (15.0%) and pyloric region (1.7%). 4. The principal gross changes were severe epithelial changes with keratotic proliferation in the esophageal region, and in the fundic region severe folding of the stomach wall was covered with bloody mucous exudates. 5. Main histopathological changes were inflammatory cell infiltrations in most cases, hemorrhages in acute ulcers and prominent proliferation of granulation tissues in chronic ulcers.

• Fisheries and Aquatic Sciences
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• 제18권3호
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• pp.301-309
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• 2015

Chub mackerel, Scomber japonicus, larvae and juveniles were reared from hatching to 35 days after hatching (DAH), and the development of their digestive systems was histologically investigated. The larvae were initially fed on rotifers and Artemia nauplii starting around 19 DAH, and thereafter on Artemia nauplii, fish eggs, and a formulated feed mixture. The primitive digestive system differentiated at 3 DAH; the digestive tract was distinctively divided into the buccopharyngeal cavity, esophagus, stomach, air bladder, intestines, and rectum. The gastric gland and pyloric caeca first appeared at 5 and 7 DAH, respectively. The stomach was divided into cardiac, fundic, and pyloric regions in the preflexion phase. The number of gastric glands and pyloric caeca, as well as the volume of the gastric blind sac increased markedly, with development continuing into the juvenile stage. The precocious development of the digestive system during the larval period might be related to the early appearance of piscivory, which is able to support high growth potential. The organogenesis results obtained for this precocial species represent a useful tool to aid our understanding of the physiological requirements of larvae and juveniles to ensure optimal welfare and growth under aquaculture conditions, which will improve current rearing practices of this scombrid species.