西藏蟾蜍消化系统组织学观察

对西藏蟾蜍的消化系统进行了组织学观察.消化道可以分为口腔、咽、食道、胃、十二指肠、回肠和直肠;肝脏和胰腺为消化腺.胃壁由黏膜层、黏膜下层、肌肉层和外膜组成.黏膜层中含有许多胃腺,但胃腺的颈部和腺体部不明显.肌肉层发达,有内环外纵两层平滑肌.小肠壁由黏膜层、黏膜下层、肌肉层和外膜组成,十二指肠的黏膜下层缺失.在黏膜层的固有膜中有管状肠腺.肝脏分为左、中、右3叶,肝小叶界限不明显.胰腺中的腺泡由腺细胞围成.     

凹耳蛙消化道组织学和嗜银细胞形态观察

为了揭示凹耳蛙(Odorrana tormota)消化道的基本特征,运用石蜡切片法和龙桂开银浸法对凹耳蛙消化道组织学结构及嗜银细胞的形态与分布密度进行了观察。结果显示:①凹耳蛙的胃壁具明显的纵行皱襞和胃小凹,胃腺发达,小肠可分为十二指肠和回肠,杯状细胞分散在十二指肠上皮细胞之间,十二指肠中未见十二指肠腺分布。②凹耳蛙嗜银细胞见于消化道全长,呈毛笔头样、锥体形、梭形、椭圆形和长条形等;幽门腺上皮和十二指肠绒毛上皮中的嗜银细胞具指向腺泡腔或肠腔的突起,提示其可能具有腔分泌的功能。嗜银细胞的分布密度胃幽门部最高,十二指肠和胃体其次,食道最低。据此认为胃既是凹耳蛙的主要消化器官,也是消化道中主要的内分泌器官;十二指肠是凹耳蛙消化道中的主要吸收部位,同时也具有内分泌功能;消化道嗜银细胞具有内分泌的功能,还可能具有腔分泌的功能。     

泽陆蛙消化道组织学观察

采用解剖学和组织学的方法对泽陆蛙消化道各部分的形态和组织学结构进行了观察。泽陆蛙的消化道分为口腔、咽、食道、胃、十二指肠、回肠和大肠。各管壁都由黏膜层、黏膜下层、肌层和外膜组成。食道黏膜层有皱褶和纤毛,无杯状细胞;胃黏膜层有杯状细胞和胃腺,黏膜下层有血管分布;小肠具绒毛、杯状细胞和肠腺,大肠皱褶少,杯状细胞也少。     

版纳鱼螈消化道解剖学和组织学观察

对我国特有珍稀濒危两栖动物版纳鱼螈(Ichthyophis bannanicus)的消化道进行解剖和组织学观察.结果表明,版纳鱼螈消化道呈直管状,无盘曲;胃、肠分化明显,肠可分为十二指肠、空肠、大肠和直肠;黏膜上皮食管为复层柱状纤毛上皮,胃后段为单层柱状上皮,直肠为复层扁平上皮,其余均为复层柱状上皮;口咽腔黏膜含大量巨型杯状细胞,有单泡状颌间腺;食道中下段有团泡状食道腺;胃体部含大量单管状胃腺;十二指肠和空肠有单泡状肠腺,绒毛发达;口咽腔的黏膜下层不明显,食道和直肠的黏膜下层为疏松结缔组织,其余均为细密的结缔组织;肌层除口咽腔为骨骼肌外,其余均为内环外纵两层平滑肌,其中,在十二指肠和空肠的两肌层间有细密的结缔组织连接.     

亚东鲑消化系统的形态学和组织学观察

亚东鲑消化系统包括消化道和消化腺。消化道分为明显的食道、胃和肠等。食道粘膜为复层上皮,其中含有杯状细胞和味蕾,胃、肠粘膜为单层柱状上皮,其中散布较多的杯状细胞。消化腺包括肝脏和胰腺,肝小叶分界明显,胰腺外分泌部由腺泡组成,内分泌部即胰岛分散存在于外分泌部之间。     

波纹唇鱼消化系统的组织学

采用组织切片技术,研究了波纹唇鱼消化系统的组织结构,并描述了该鱼消化系统的形态构造。波纹唇鱼隶属隆头鱼科,为肉食性无胃鱼类。波纹唇鱼消化道包括口咽腔、食道、小肠、直肠和肛门。口咽腔内具有发达的颌齿和咽齿。肠道短而粗,在体腔内形成一个弯曲,比肠长0.43±0.02;食道的黏膜褶皱、黏膜下层、环肌层和纵肌层发达。小肠的黏膜下层、环肌层、纵肌层、浆膜层比直肠更薄。小肠前部的黏膜下层、浆膜层比小肠后部更厚。小肠黏膜层中的吸收细胞密度少于直肠,杯状细胞密度高于直肠。波纹唇鱼的口腔和舌的黏膜上皮为复层扁平上皮,有大量圆形黏液细胞存在。口腔和舌上有味蕾。食道黏膜层发达,基部有一种"凹"型结构,大量的巨型黏液细胞分布其中,该结构具有外分泌腺的结构特征,其"凹"型结构的开口在食道腔。小肠和直肠的微绒毛为单层柱状上皮组织,其间分布有3种杯状细胞,黏膜下层还分布有许多细胞质被染成红色的嗜酸性颗粒细胞。小肠前部黏膜上皮下含有脂肪颗粒,直肠上皮层中也含有被伊红染成红色的嗜酸性颗粒细胞。食道与小肠,小肠与直肠交界处存在瓣膜,瓣膜内的肌肉层均为横纹肌组成。肛门的黏膜层含有大量的椭圆形黏液细胞。波纹唇鱼的消化腺由肝胰脏和胆囊组成,肝脏分三叶,呈枫叶状,比肝胰脏重为1.5%±0.2%;胰脏沿肝血管弥散性分布在肝脏内,胆囊呈椭圆形,体积较大。并讨论了波纹唇鱼肠道的分段、消化道的组织特点与食性的关系等问题。       

基于12S rRNA基因序列探讨凹耳蛙(无尾目,蛙科)的分类地位

为探讨凹耳蛙Rana tormotus的分类地位,测定了凹耳蛙线粒体12S rRNA基因序列,并从GenBank中下载了蛙科33种蛙的同源序列进行分析,用BI法、NJ法和MP法构建分子系统树.结果表明:3种树拓扑结构基本一致,都显示凹耳蛙与长吻胡湍蛙Huia nasica亲缘关系最近,凹耳蛙与长吻胡湍蛙相聚后再与臭蛙Odorrana组成单系群,而与湍蛙Amolops亲缘关系较远.据此,支持将该蛙从湍蛙属划出,并建议归入臭蛙属.     

石磺消化系统的组织学观察

对石磺消化系统各部分结构进行组织学观察.石磺的消化系统由消化道和消化腺两部分组成.消化道包括口、食道、贲门胃、幽门胃、中肠和后肠,不具吻;消化腺包括肝胰腺、唾液腺和肛门腺.在光学显微镜下,消化道由粘膜层、粘膜下层、肌层和外膜4层组成;肌层主要为环肌,粘膜层主要为柱状细胞.肝胰腺甚为发达,组织结构显示肝胰腺由很多分支的腺管组成,腺管由腺细胞、分泌细胞等组成.唾液腺和肛门腺发达.     

不同物种雄性鸣声刺激下雌性凹耳蛙脑组织中ZENK的表达

通过免疫组化SABC法,研究在背景噪音刺激、雄性凹耳蛙(Odorrana tormota)声音刺激以及雄性大绿臭蛙(O. graminea)声音刺激下ZENK蛋白在雌性凹耳蛙脑部的表达。结果显示,上述三种声音刺激下雌性凹耳蛙的端脑、间脑和小脑区域均未发现ZENK蛋白的阳性细胞。在雄性凹耳蛙声音刺激下,雌性凹耳蛙中脑的视顶盖、脚间核、中脑深部核、被盖、半环隆枕以及延脑的孤束核、中缝核、网状核、网状结构、上橄榄核部位均有阳性细胞分布,在大绿臭蛙声音刺激下,这些部位的阳性细胞数量明显减少。本实验中ZENK蛋白阳性细胞表达部位的一部分是位于与两栖类处理听觉信息有关的中脑半环隆枕、被盖以及延脑的上橄榄核,由此可推断,在雌性凹耳蛙ZENK蛋白与听觉信息处理有着密不可分的联系。     

黑麂肝、小肠和大肠的组织学结构及Ghrelin的分布

研究了成年雌性黑麂(Muntiacus crinifrons)的肝、小肠和大肠的组织学结构及Ghrelin的分布。采用H.E染色法观察组织学结构,免疫组化PV-9000两步法并结合DAB显色技术确定Ghrelin的分布。结果表明,黑麂的肝组织分为被膜、肝小叶、肝中央静脉、门管区等结构。被膜为浆膜结构,肝小叶不明显。肝细胞以中央静脉为中心,呈放射状排列。肝血窦的形状不规则。肠黏膜上皮为单层柱状上皮,小肠、盲肠和结肠的黏膜肌层很薄,管壁皱襞与肠绒毛等形态在消化道各部也存在差异。免疫组化结果显示肝细胞中有Ghrelin阳性细胞的表达;在肠道,免疫阳性细胞在十二指肠、空肠、回肠、盲肠和直肠的黏膜、黏膜下层和肌层均有分布,尤其在肠绒毛上皮和黏膜下层分布较多。黑麂肝、小肠和大肠结构与哺乳动物基本相似,但无十二指肠腺;Ghrelin阳性细胞在肝、小肠和大肠均有分布,这表明Ghrelin可能对消化有一定的调节作用。     

食蚊鱼消化系统的组织学观察

食蚊鱼的消化道由口咽腔、食道、肠和肛门组成。口咽腔内有味蕾分布。食道粘膜为复层扁平上皮,粘膜内有粘液细胞。肠可分为前后两段,皱襞高度、肌层厚度有差异。消化腺包括肝脏和胰腺。肝小叶不明显,雌雄肝脏的显微结构不同。胰腺呈弥散型,一部分分布在肝脏内,另一部分和消化道伴生。讨论了食蚊鱼消化系统的特点与食性的关系。     

Morphology of the digestive system in carnivorous freshwater dourado Salminus brasiliensis

The digestive system of teleost shows remarkable functional and morphological diversity. In this study, the digestive tract and accessory organs of dourado Salminus brasiliensis are characterized using anatomical, histological, histochemical and immunohistochemical analyses. The existence of taste buds bordered by microridges in the oesophagus of dourado was recorded for the first time, thus showing that the species drives food intake by either swallowing or rejecting the food item. The Y-shaped stomach of dourado consisted of cardiac, cecal and pyloric regions with tubular gastric glands registered solely in the cardiac and cecal segments. The intestine is a short N-shaped tube with two loops, an intestinal coefficient of 0.73. The structure of pyloric caeca is similar to that of the intestine wall, comprising tunica mucosa, tela submucosa, tunica muscularis and tunica serosa layers. Histochemical analyses revealed an increased incidence of goblet cells from the midgut to the hindgut segment. A well-developed enteric plexus of scattered nerve cell and fibres are found along the digestive tract, and the calcitonin gene-related peptide (CGRP) immunoreactive neurons and fibres were identified in the myenteric plexus from the oesophagus to the hindgut. The exocrine pancreas appears diffuse in the mesentery around the stomach, intestine and also reaches the liver, and the endocrine pancreas is organized as a few islets of Langerhans. The liver comprises three distinct, asymmetric lobes, and the portal triad arrangement was registered in this tissue.     

Microanatomy of the digestive system of Supachai's caecilian,Ichthyophis supachaii Taylor, 1960 (Amphibia: Gymnophiona)

The gross anatomy and microanatomy of the digestive system of Ichthyophis supachaii were investigated. The microscopic structures of the digestive system are similar to those in other caecilians. Functional and developing teeth are present in adults. The tongue contains the genioglossus muscle. The digestive tract is elongated and consists of the mucosa, submucosa, muscularis and adventitia/serosa. The oesophagus contains longitudinal folds and lacks oesophageal glands. We report for the first time the caecilian gastric rugae and specific localization of oxynticopeptic cells in the anterior gastric region. The intestinal folds are exclusively present in the anterior intestinal region. The liver comprises 30–40 incomplete hepatic lobes, lying in an imbricate manner. Each lobe is enveloped by haematopoietic tissue that produces and delivers blood cells into sinusoids. Hepatic parenchyma is organized into anastomosing, two‐cell‐thick plates, having sinusoids at the basal domain and bile canaliculi at the apical domain of hepatocytes. Pigment cells are scattered inside sinusoids. The pancreas contains pancreatic acini interspersed with islets of Langerhans. The gallbladder proper is thin and continuous with the cystic duct wall. Neutral and carboxylated acid mucosubstances are secreted along the digestive tract, while sulphated mucosubstances are not produced by the stomach and anterior intestinal regions.     

Microanatomy of the digestive tract and accessory organs of the Japanese flathead (Inegocia japonica Cuvier, 1829) (Scorpaeniformes,Platycephalidae)

The Japanese flathead, Inegocia japonica Cuvier, 1829 is a commercially important fish in small-scale coastal fisheries in Thailand; however, an explanation of its digestive biology is missing. This study describes the digestive tract and accessory organs of I. japonica, using morphological and histological methods. The fish (10 individual fish, 24.5 ± 0.98 cm in total length) were obtained from Libong Island, Thailand. Integrated morphological and histological data showed that the digestive tract was composed of oesophagus, stomach, pyloric caeca and intestine, with accessory organs. All digestive tracts consisted of four layers, including mucosa, submucosa, muscularis and serosa. Two stomach regions were identified (cardiac and pyloric stomachs). Several clusters of gastric glands were identified in the cardiac stomach. Each gland was a unicellular structure. The apical surface of this gland contained the vacuolar cell. The intestine was lined with a simple columnar structure with goblet cells that was similar to pyloric caecum. Goblet cells were rare in the anterior intestine, in contrast to the posterior intestine where goblet cells were abundant. The numerous of hepatocyte was mostly observed in the liver, whereas an exocrine acinar cell of pancreas was also identified. The results of our observations provided the first information of the digestive tract of I. japonica and can be applied to advanced study, such as physiology and histopathology.     

大鸨消化系统组织学观察

应用常规石蜡切片,H.E.染色,对3只大鸨消化系统组织结构进行了观察。结果表明,大鸨食管复层扁平上皮有化不明显,粘液腺十分丰富。腺胃内有发达的复管状腺和单管状腺,密集排列在胃壁内。腺胃乳头内有发达的粘液腺,开口于乳头顶部,复管状腺的集合窦则开口于粘液腺底部。肌胃粘膜内密布单管状腺,无粘膜肌。小肠内环肌发达,粘膜下层不明显,十二指肠处绒毛最高,分支最复杂,无十二指肠腺。盲肠前部具发达的绒毛,而中后部不明显,直肠绒毛发达,杯状细胞增多,盲肠与直肠粘膜下层较发达。肝、胰小叶界限不清。     

中华刺鳅消化系统形态与组织学研究

应用活体解剖和光镜技术对中华刺鳅消化系统形态与组织学特征进行了研究。结果显示:中华刺鳅属典型的无鳔管、有胃鱼类,消化道较短,约为体长的45%,整体呈“Z”字形。食道很短,后与胃相联,胃呈“V”型,胃分为贲门部、胃底部和幽门部,贲门胃自食道末端到胃的底部都具有丰富的腺组织分布,其长度也是胃部最长的,约占中华刺鳅消化管长度的23%。胃底部的肌肉发达较厚,但仅贲门部有丰富的腺组织。消化道各段在组织结构上差异显著。胃前,消化道肌肉层内环肌与外纵肌厚度之比自前向后逐渐增大,杯状细胞数量自前向后逐渐减少;胃后,肠道肌肉层内环肌与外纵肌厚度之比则逐渐减小,杯状细胞数量逐渐增多。消化腺分为肝脏和胰腺,肝脏与胰脏为独立的两个器官,胰脏分散分布于胃与肠道周围的系膜内,肉眼可见。未发现类似鲤科鱼类弥撒于肝脏或脾脏内的胰腺结构。中华刺鳅以日本沼虾和秀丽白虾为主要摄食对象,性凶猛,为典型的肉食性鱼类。     

Morphology of the exocrine glands of the frog skin

Frog skin contains three distinct types of exocrine glands: granular (poison), mucous, and seromucous. The granular gland forms a syncytial secretory compartment within the acinus, which is surrounded by smooth muscle cells. The mucous and seromucous glands are easily identifiable as distinct glands. The serous and mucous secretory cells are arranged in a semilunar configuration opposite the ductal end and are filled with granules. Within the acinus, located at the ductal pole of the gland, are distinct groups of cells with few or no granules in the cytoplasm. In both the mucous and seromucous gland there is a cell type with abundant mitochondria; the one in the mucous gland is located in the region adjacent to the secretory cells. The duct of these glands is two-layered, with the individual cells appearing morphologically similar to the layers of the skin epithelium as the duct traverses the skin. The duct appears to be patent throughout its length. The morphological heterogeneity and distinct distribution of the cell types within the gland acinus may be indicative of a functional heterogeneity that allows the production of distinctly different types of secretion from the same gland type, depending on the type of stimulus.     

Non-specific carboxylic esterase activity in the digestive tract of the perch, Perca fluviatilis L.

The distribution of non-specific carboxylic esterases (Ec 3.1.1) in the digestive tract of perch, Perca fluviatilis L., was investigated histochemically using 1-naphthyl acetate as the substrate. Strong enzymatic activity was present in the gastric glands and surface cells of the stomach, intestinal mucosa of the pyloric caeca, upper and middle intestine, pancreas (exocrine cells) and liver. The enzymatic activity in the lower intestine and rectum was weak. The activity was not demonstrated in the oesophagus or pyloric sphincter. In the intestine, the activity was localized in the columnar cells especially in the supranuclear cytoplasm. The enzymatic activity demonstrated in the digestive tract of perch using 1 -naphthyl acetate represents combined esterolytic and lipoproteolytic activity.     

A study of the histology and morphology of the digestive tract of the sea-bream, Sparus aurata

The anatomy and the histology of the digestive tract of young and adult sea-bream is described from studies using light and scanning electron microscopy. The dentition in the juvenile (25–30 mm long) comprises all canine-like teeth, to which plate teeth and transition elements are added in the adult.
The oesophagus shows a multi-layered mucosa in the upper part, and single-layered regions in the lower part. The multi-layered regions are formed by epithelial cells, mucus-secreting cells and by cells rich with eosinophilic granules.
The Y-shaped stomach, clearly distinguishable, has a single-layered columnar epithelium under which, in the cardiac and fundic portion, gastric glands, comprised of all similar cells, are present. The pyloric region is characterized by four caeca, to the base of which the ductus pancreaticus and the ductus hepaticus discharge.
The pancreas is composed of small masses spread along the upper intestine; in the adult, pancreatic infiltrations can be seen in the liver.
The intestine is short (relative length 0.5–0.6). The intestine epithelium consists of columnar cells intercalated with mucus-secreting cells. A funnel-like valve marks the passage to the intestine terminal region, characterized by a mucosa of cells with an abundance of vacuoles full of eosinophilic granules.