大唾液腺

  • 网络major salivary glands
大唾液腺大唾液腺
  1. Leptin及Lep-R可能参与调节胎儿大唾液腺和胃肠的发育及功能活动。

    Leptin and leptin receptor may be involved in fetal major salivary glands and gastrointestinal development and the functional regulation .

  2. 观察瘦素(Leptin,Lep)和瘦素受体(Leptinreceptor,Lep-R)在人胎儿大唾液腺内的表达、分布和发育规律。

    To observe the expression , distribution and developmental regularities of leptin and leptin receptor in fetal major salivary glands .

  3. 探讨胎儿大唾液腺内的Leptin和Lep-R与大唾液腺发育的关系及意义。

    To approach the meaning and relationship of leptin and leptin receptor in fetal major salivary glands and the development of major salivary glands .

  4. 人胎儿大唾液腺内NT-3的表达及意义

    The expression and significance of NT-3 in the major salivary glands of the human fetus

  5. 胎儿大唾液腺内有Leptin和Lep-R表达,主要定位于导管上皮细胞胞质内,并呈现出一定的发育规律。

    Leptin and leptin receptor were present in fetal major salivary glands , they were localized principally in the epithelial cytoplasm of the ducts and showed a certain developmental regularity .

  6. 先天性大唾液腺缺失

    Congenital absence of major salivary glands

  7. 发生于小唾液腺的肿瘤有52例,大唾液腺的肿瘤有47例;腮腺是最常见的部位。

    52 cases located in minor salivary glands , and 47 cases in major salivary glands , parotid gland is the most common organ .

  8. 口腔癌大部分发生于口腔(唇部除外),占总数78.4%,其他依次为大唾液腺、上颌窦、颈、咽、唇部。

    Most oral cancers occur in the oral cavity ( excluding lip ), accounting for 78.4 % of the total , followed by the major salivary glands , maxillary sinus , neck , throat , lips .

  9. 结果:①在HE染色切片中,13周时胎儿大唾液腺中可见分支细胞索和端芽,其细胞排列密集,部分细胞索内出现管腔。

    Results ( 1 ) In tissue sections with HE staining , branched cellular twigs and terminal buds which cell arranged densely were seen in major salivary glands of the 13-week fetus , and some of the cellular twigs had a lumen .

  10. 结论:①在胎儿大唾液腺发育过程中,先出现分支细胞索和端芽,随后发育形成有腔的导管结构,再依次分化为小叶间导管、纹状管、闰管和腺泡。

    Conclusion ( 1 ) In developing human fetal major salivary glands , branched cellular twigs and terminal buds were found at first , then they developed into the formation of ducts which had a lumen and differentiated successively into interlobular , striated and intercalated ducts and acini .

  11. hAECs与SD大鼠唾液腺细胞用双室装置进行共培养。

    HAECs were co-cultured with SD rat salivary gland cells using a double chamber system .

  12. bFGF及其受体FGFRS在成年大鼠唾液腺中的免疫组化定位和mRNA表达

    Immunohistochemical localization and mRNA expression of basic fibroblast growth factor ( bFGF ) and FGF receptors in rat salivary glands

  13. 抗体能抑制~3H-QNB与大鼠唾液腺膜蛋白的结合,不抑制~3H-QNB与大鼠心肌的结合,也不抑制~3H-PZ与大鼠大脑皮质膜蛋白结合。

    In radioligand binding assay of receptors , monoclonal antibody inhibited the binding of 3H-QNB to muscarinic receptor in rat salivary gland , but not in rat heart , and could not inhibit the binding of 3H-PZ to rat brain cerebral cortex membrane protein .

  14. 并与大熊猫的唾液腺的组织结构进行了比较研究。

    The microstructure of the red panda has been compared with that in the giant panda .

  15. SD大鼠和Beagle犬大唾液腺的形态学观察

    Morphological Study on Salivary Gland in SD Rat and Beagle Dog

  16. 大的腺体,如胰腺或大的唾液腺,是由管道或小袋的复杂结合组成的。

    Large glands , such as the pancreas or the large salivary glands , consist of complicated combinations of tubes or little sacs .