首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到19条相似文献,搜索用时 125 毫秒
1.
对1例成体黑熊脾脏组织结构进行光镜扫描和透射电镜观察。黑熊脾脏被膜较厚、表面被覆间皮。脾实质可分为白髓,红髓和边缘区三部分。白髓脾小结较大,淋巴细胞密集,红髓脾窦丰富,脾索及边缘区含大量巨噬细胞。结果表明:黑熊脾与一些哺乳动物的脾脏结构基本相似,亦属于有血窦脾,具有较强的免疫功能。  相似文献   

2.
采用毒性实验方法,用不同浓度的汞离子(Hg2+)、铬离子(Cr6+)分别处理黄鳝(Monopterusalbus),经1、2、4、8 d后,通过光镜观察黄鳝脾组织结构及免疫细胞数量的变化。结果表明,对照组黄鳝脾被膜较薄,未见明显的小梁,实质由红髓和白髓构成。白髓中淋巴细胞聚集成群,未见明显脾小结,但可见动脉周围淋巴鞘。红髓由脾索与脾窦组成。脾中有椭圆体,其末端向脾髓开放。黑色素巨噬细胞中心形成。经两种重金属离子分别染毒后的黄鳝脾与对照组相比,组织结构表现出相似的变化,即随着重金属离子浓度的增加和染毒时间的延长,脾组织中的黑色素巨噬细胞中心逐渐增大、增多,最后减少;黑色素巨噬细胞先增加后减少。淋巴组织逐渐松散,排列稀疏混乱,淋巴细胞界限逐渐不清晰,呈退化趋势,数量先增加后减少。粒细胞数量的变化趋势与淋巴细胞一致。红血细胞大量破坏,血窦扩张。  相似文献   

3.
应用光学显微镜和透射电镜对斑马鱼(Danio rerio)脾的显微与超微结构进行了观察。光镜结果表明,斑马鱼的脾主要由脾髓和网状组织两部分构成,脾髓分布于整个脾,分为白髓和红髓,但界限不明显,呈混合分布。红髓染色相对较浅,占脾实质的大部分区域,主要由密集的红细胞构成,可见脾窦结构,脾索结构不明显。白髓染色较深,主要由密集的淋巴细胞构成,淋巴细胞的胞核染色较深,呈深紫色。经Gordon-Sweet银染显示网状纤维后,可清晰观察到脾小结,从而可清晰区分红髓与白髓,脾小结与哺乳动物的类似,主要是由密集的淋巴细胞构成。酸性磷酸酶染色可见斑马鱼脾内有大量吞噬性细胞存在。电镜结果显示,红髓分布有不同类型的红细胞、血小板和浆细胞,白髓分布有淋巴细胞、巨噬细胞、单核细胞、嗜中性粒细胞、浆细胞和网状细胞,淋巴细胞胞质内含有多泡体,这可能与淋巴细胞发挥免疫功能有着密切联系。斑马鱼脾与大多数硬骨鱼相似,未观察到椭球这一特殊结构。  相似文献   

4.
应用光学显微镜和透射电镜对斑马鱼(Daniorerio)脾的显微与超微结构进行了观察。光镜结果表明,斑马鱼的脾主要由脾髓和网状组织两部分构成,脾髓分布于整个脾,分为白髓和红髓,但界限不明显,呈混合分布。红髓染色相对较浅,占脾实质的大部分区域,主要由密集的红细胞构成,可见脾窦结构,脾索结构不明显。白髓染色较深,主要由密集的淋巴细胞构成,淋巴细胞的胞核染色较深,呈深紫色。经Gordon-Sweet银染显示网状纤维后,可清晰观察到脾小结,从而可清晰区分红髓与白髓,脾小结与哺乳动物的类似,主要是由密集的淋巴细胞构成。酸性磷酸酶染色可见斑马鱼脾内有大量吞噬性细胞存在。电镜结果显示,红髓分布有不同类型的红细胞、血小板和浆细胞,白髓分布有淋巴细胞、巨噬细胞、单核细胞、嗜中性粒细胞、浆细胞和网状细胞,淋巴细胞胞质内含有多泡体,这可能与淋巴细胞发挥免疫功能有着密切联系。斑马鱼脾与大多数硬骨鱼相似,未观察到椭球这一特殊结构。  相似文献   

5.
植物血凝素对兴国红鲤头肾和脾脏的比较组织学研究   总被引:5,自引:0,他引:5  
PHA注射前后兴国红鲤头肾和脾脏结构基本相同。红鲤头肾有被膜,为淋巴样组织,由许多血管,血窦和淋巴索组成,脾脏是实质性器官,淋巴细胞聚集成团,有弥散的胰腺组织渗入,注射PHA后头肾和脾脏内的大淋巴细胞,小淋巴细胞,巨噬细胞以及原始型细胞显著增加,而粒细胞数量变化不明显。  相似文献   

6.
鲤鱼和鲫鱼脾脏显微结构和亚显微结构的研究   总被引:7,自引:0,他引:7  
鲤鱼和鲫鱼的脾脏中都没有小梁,其红髓和白髓是混合的。脾脏中都有椭圆体,其末端向脾髓开放。脾髓的纤维网眼中缺乏血管壁,椭圆体毛细血管中的血液可直接流入脾髓网状结缔组织的腔隙中。腹腔注射墨汁的鲫鱼,2小时后即可在椭圆体的巨噬细胞中看到碳粒的积累,可见脾脏的过滤作用主要在椭圆体中进行。在注射墨汁的鲫鱼脾脏中,黑色素巨噬细胞中心比未经注射鱼的脾脏明显,且数量增多,它和哺乳动物淋巴结和脾脏中的生发中心结构和功能都不相同。  相似文献   

7.
鳗鲡肝脏,脾脏显微与超微结构   总被引:2,自引:1,他引:1  
郭琼林  卢全章 《动物学报》1994,40(2):125-130
经光镜和电镜观察发现:鳗鲡肝脏的肝小叶不规则。肝细胞胞质内翕含多种细胞器及包含和,胆小管由2-4个肝细胞围成,相邻肝细胞间有连接复合体封闭胆小管。血窦为有孔型,孔处无隔膜,内有巨噬细胞。窦周隙明显,未见贮脂细胞。肝猾胆小管腔与窦周隙面伸出许多指状微绒毛。脾脏内白髓中淋巴细胞聚集成群,无未见明显脾小结,淋巴鞘,红髓由脾索与脾窦组成,动脉分支末端(壁厚的毛细血管)可开放于红髓,无明显巨噬细胞中心,脾窦  相似文献   

8.
为区分黄颡鱼(Pelteobagrus fulvidraco Richardson)、瓦氏黄颡鱼(Pelteobagrus vachelli Richardson)及其杂交种,前期研究构建了一个YY超雄黄颡鱼的BAC文库并筛选到了一个包含性别连锁标记Pf62-Y的BAC克隆。研究对该BAC克隆进行测序并鉴定到了一个新基因Inad-like,而且Inad-like的外显子序列在X和Y染色体上基本一致。通过黄颡鱼Inad-like的外显子序列及序列的保守性我们设计引物在瓦氏黄颡鱼中扩增获得了其部分内含子序列。通过内含子序列比对,发现瓦氏黄颡鱼比黄颡鱼少了一个DNA片段。基于黄颡鱼和瓦氏黄颡鱼的显著遗传差异,设计了一对引物,该引物在黄颡鱼和瓦氏黄颡鱼基因组中分别扩增出1908和1178 bp DNA片段,而且在杂交黄颡鱼中同时扩增出这两个DNA片段。总之,这个新的遗传标记提供了一种稳定、高效识别黄颡鱼及其与瓦氏黄颡鱼杂交种的方法。  相似文献   

9.
利用石蜡切片法对中华花龟的心脏、肝脏、脾脏、肺和肾脏等组织器官进行了组织学观察.结果显示心肌的特点是暗带较窄,心肌纤维束状排列.肝脏分3叶,肝实质内结缔组织少,肝小叶分界不清楚.脾脏分被膜和实质两部分,实质由白髓和红髓构成,白髓包括椭球周围淋巴鞘(PELS)和动脉周围淋巴鞘(PALS),红髓由脾索和脾窦组成,未发现淋巴小结和生发中心.肺一对,为长形扁平囊,肺泡囊状,肺泡内可见管壁的结节状膨大.肾脏由肾小体、颈段、近曲小管、中间段、远曲小管和收集管6部分构成,肾小体由肾小球和肾小囊组成,在肾小体附近可见致密斑样结构.  相似文献   

10.
本文报告了树鼩脾脏的光、电镜组织结构。脾实质内中央动脉周围的淋巴鞘明显,它是由小梁动脉周围密集的淋巴组织延续而来。中央动脉常有分支从淋巴小结中央穿过。胞体较大的巨核细胞单个或2—4成群散在于实质内。观察得知树鼩脾具有与人类及大多数哺乳类动物,如灵长目猴等脾脏相似的组织结构,又有啮齿目大白鼠脾内常见的巨核细胞。说明树鼩脾不仅是重要的免疫器官,具有生成血小板的功能,且为研究树鼩的免疫功能及分类提供形态学资料。  相似文献   

11.
Spleens of three species of Antarctic seals with different diving habits (Weddell seal, crabeater seal, and fur seal) have been studied with histological, histochemical, and electron microscopic methods. The spleens can be classified as nonsinusoidal, with capsule and trabeculae rich in innervated smooth muscle cells. The trabecular system is particularly well developed in the deep- and long-diving Weddell seal. As in other mammals the pulp can be divided into white and red pulp. In the white pulp, periarteriolar lymphatic sheaths and secondary lymphatic nodules occur; both are surrounded by a marginal zone rich in macrophages and eosinophils. The nodules can be observed frequently, which is in accordance with abundance of plasma cells in the red pulp. Well-developed white pulp and numerous plasma cells and eosinophils obviously reflect a high load of nematodes, which have mainly been found in lung and stomach. Additionally, in the red pulp morphological evidence for the following functions has been found: destruction of erythrocytes, erythropoiesis, and thrombopoiesis. In respect to blood flow through the red pulp, we interpret our observations in the following way: terminal branches of arterioles open into the space between the fibroblastic reticulum cells; blood draining from here is collected into pulp veins, which are mainly found near the trabeculae. Thus, the seals have an open vascular compartment in their spleens, as also occurs in the cat. The red pulp is innervated by numerous nerve fibers that seem to include both cholinergic and adrenergic ones. The target cells of these fibers seem to be the fibroblastic reticulum cells, whose state of contraction may influence the direction of blood flow through the red pulp.  相似文献   

12.
We describe the structure of the spleen of the African lungfish Protopterus annectens in freshwater conditions, and after 6?months of aestivation. The spleen is formed by cortical tissue that surrounds the splenic parenchyma. The cortex is a reticulum that contains two types of granulocytes, developing and mature plasma cells, and melanomacrophage centres (MMCs). The parenchyma is divided into lobules that show a subcapsular sinus and areas of red pulp and white pulp. Red pulp contains vascular sinuses and atypical cords formed by delicate trabeculae. White pulp also contains vascular sinuses and cords. Structural data indicate that red pulp is involved in erythropoiesis, destruction of effete erythrocytes, and plasma cell differentiation. White pulp appears to be involved in the production of immune responses. Macrophages and sinus endothelial cells constitute the reticulo-endothelial system of the spleen. After aestivation, the number of MMCs increases, and spleen tissue is infiltrated by lymphocytes, granulocytes, and monocytes. Also, white pulp is reduced, and sinus endothelial cells undergo vacuolar degeneration. Lungfish spleen shares structural characteristics with secondary lymphoid organs of both ectothermic and endothermic vertebrates, but appears to have evolved in unique ways.  相似文献   

13.
14.
A study of pathways of lymphocyte migration through mouse spleen revealed lymphatic channels closely following arteries in trabeculae and white pulp. Because there is no detailed record of the layout of deep splenic lymphatics in the mouse, or other species, we present our observations in this paper, relating our findings to normal migratory pathways of lymphocytes through the spleen. Lymphatics draining the spleen are so inconspicuous that they often are not mentioned in anatomical discussions. The data presented clearly demonstrate 1) the existence and layout of deep lymphatic vessels in the mouse spleen, and 2) that migrating lymphocytes exit white pulp via these lymphatic vessels. CD4+ and CD8+ T cell subsets migrated proximally along the central artery from distal (dPALS) to proximal periarterial lymphatic sheaths (pPALS) and exited via deep lymphatic vessels that originate there. B cells migrated from dPALS to enter lymphatic nodules (NOD), thus segregated from T cells. B cells then migrated toward and exited via deep lymphatics. The appearance of labelled lymphocytes in lymph coincided with their disappearance from white pulp compartments. Labelled T cells were observed in splenic lymphatics as early as 1 hr after intravenous infusion but took, on average, about 6 hr. B cells took somewhat longer. Thus T and B cells entered and left white pulp through shared pathways, but took divergent intermediate routes through dedicated zones, pPALS for T cells, NOD for B cells.  相似文献   

15.
为了考察力竭追赶训练对中华倒刺鲃(Spinibarbus sinensis)和岩原鲤(Procypris rabaudi)幼鱼呼吸循环系统和力竭运动后代谢特征的影响, 在(25±0.5)℃条件下, 将2种实验鱼各60尾 [体重分别为(28.36±0.08) g和(19.53±0.13) g]随机等分成对照组和训练组, 训练组进行1次/d共21d的力竭追赶训练。随后测定各组实验鱼的心脏和鳃指数、血液指标以及力竭运动后过量耗氧(Excess post-exercise oxygen consumption, EPOC)。结果发现: 2种鱼心脏指数、鳃指数、血红蛋白含量和红细胞数目在各自对照组和训练组之间都没有显著性差异; 岩原鲤对照组的鳃指数显著低于中华倒刺鲃对照组(P<0.05), 但心脏指数、血红蛋白含量和红细胞数目与中华倒刺鲃对照组无显著性差异。中华倒刺鲃训练组的运动前代谢率、运动代谢峰值、峰值比率、代谢恢复速率与其对照组没有显著差异, 但运动后恢复时间和过量耗氧显著大于对照组(P<0.05); 岩原鲤训练组的运动前代谢率显著低于其对照组(P<0.05), 但运动代谢峰值、峰值比率、运动后恢复时间、过量耗氧、代谢恢复速率与其对照组没有显著性差异。岩原鲤对照组的运动前代谢率、运动代谢峰值、过量耗氧和代谢恢复速率分别显著低于中华倒刺鲃对照组(P<0.05), 但峰值比率和运动后恢复时间与中华倒刺鲃对照组无显著性差异。研究表明: (1)力竭追赶训练对中华倒刺鲃和岩原鲤幼鱼的呼吸和循环系统参数没有产生显著性影响; (2)力竭追赶训练显著提高了中华倒刺鲃幼鱼的无氧代谢能力; (3)中华倒刺鲃幼鱼力竭运动前后代谢率显著高于岩原鲤幼鱼, 这可能与其较为活跃的习性有关。  相似文献   

16.
鳗鲡肝脏、脾脏显微与超微结构   总被引:27,自引:0,他引:27  
郭琼林  卢全章 《动物学报》1994,40(2):125-130
经光镜和电镜观察发现:鳗鲡肝脏的肝小叶不规则。肝细胞胞质内富含多种细胞器及包含物。胆小管由2—4个肝细胞围成,相邻肝细胞间有连接复合体封闭胆小管。肝血窦为有孔型、孔处无隔膜,内有巨噬细胞。窦周隙明显,未见贮脂细胞。肝细胞向胆小管腔与窦周隙面伸出许多指状微绒毛。脾脏内白髓中淋巴细胞聚集成群,未见明显脾小结、淋巴鞘。红髓由脾索与脾窦组成,动脉分支末端(壁厚的毛细血管)可开放于红髓,无明显巨噬细胞中心。脾窦及脾小动脉内皮细胞通常为长杆状、沿血管纵向平行排列。脾窦为有孔型,孔处可见薄的隔膜。脾小动脉内皮外为2—5层平滑肌(多数为纵行)。  相似文献   

17.
Summary The distribution of primary visceral afferents to the spleen of the guinea pig was studied after injections of wheat-germ agglutinin conjugated to horseradish peroxidase (HRP) into the left dorsal root ganglia at levels T7–T12. After anterograde transport of the tracer, labeled fibers were found in the nerves around the splenic artery in the hilus region and in the splenic parenchyma. The majority of labeled fibers in the spleen were detected in the white pulp. HRP-positive fibers were also observed in the red pulp and in the trabeculae. The distribution of the HRP-labeled fibers was in part similar to those of substance P-immunoreactive and calcitonin gene-related peptide-immunoreactive nerve structures. The results show that the anterograde tracing technique can be used successfully to investigate splenic primary afferent innervation.  相似文献   

18.
A histological study of the spleen of the Brown-headed cowbird, Molothrus ater, is presented. One of the most striking differences from the mammalian spleen is the lack of trabeculae and of smooth muscle in the capsule which would suggest that the spleen is not an organ of storage or pumping of blood. Without trabeculae to foster the close association of the major arteries and veins, these vessels take separate courses. Their support is provided by elaboration of the collagenous and reticular fibres of the stroma. A peculiar ovoid structure, the ampulla, carries the blood from the terminal arterioles of the white pulp to both the sinusoids and the reticular cords of the red pulp so that both open and closed circulations are seen but the open circulation predominates. The ampulla has perforated walls consisting of a simple cuboidal endothelium surrounded by a dense reticular sleeve. Leucocytes were seen passing through the holes in the walls of the ampullae by diapedesis. It is suggested that the ampullae may be contractile and act as sphincters controlling the flow of blood through the spleen. The major functions of the spleen appear to be haemopoiesis, production of antibodies, and filtration of blood.  相似文献   

19.
Józef  Dulak 《Journal of Zoology》1990,221(3):489-498
The spleen of the yellow-bellied toad, Bombina variegata , consists of distinct white and red pulps. The well-developed white pulp is formed by a large central lymphocytic region around the numerous blood vessels and by its smaller peripheral ramifications, both surrounded by the more or less developed connective tissue boundary layer. Large peripheral sinuses of the white pulp, filled mostly with lymphocytes, are usually present at the inner side of this boundary. At the outer side of the boundary layer, the lymphocytic marginal zone is often observed. This zone merges into the erythrocyte-rich red pulp formed by cellular cords and small venous sinusoids.
The structure of the spleen of Bombina variegata differs considerably from the spleens of other anuran species studied so far. The highly developed white pulp and its distinct separation from the red pulp may be connected with the important role of the spleen as the main secondary lymphoid organ of B. variegata. The splenic compartmentalization makes the yellow-bellied toads a useful model for experimental immunobiological studies.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号