血睾屏障

xuè ɡāo pínɡ zhànɡ
  • blood-testis barrier
血睾屏障血睾屏障
  1. 结论VC患儿机体免疫功能降低,可能是破坏血睾屏障的原因之一。

    Conclusion The immune function of the children with VC is reduced , which may be one of the reasons that destroyed the blood-testis barrier .

  2. 抗精子抗体(AsAb)是血睾屏障被各种机制破坏,导致精子免疫性抗原暴露于免疫系统诱发免疫反应而产生。

    The formation of antisperm antibodies ( AsAb ) results from the disruption of the blood-testis barrier by a variety of mechanisms , which leads to exposure of immunogenic sperm antigens to the immune system and initiates an immune response .

  3. 结论:VC患者机体免疫功能降低,可能是破坏血睾屏障、损害睾丸致睾酮降低的原因之一;

    Conclusion : The immune function of the male with VC is reduced , which may be one of the reasons that destroyed the blood testis barrier and damaged testis function and reduced testosterone .

  4. 棉酚对大鼠血睾屏障影响的研究

    Studies on the effect of gossypol on blood-testis barrier in rats

  5. 微波辐射家兔阴囊对血睾屏障的影响

    Effect of blood testis microwave Irradiation on scrotum in rabbits

  6. 间质细胞毛细血管结构紧密的连续型,参与构成血睾屏障。

    Capillaries belonged to continuous ones , which mainly composed the structure of blood-tests barrier .

  7. 多药耐药基因在睾丸恶性肿瘤血睾屏障中的作用研究

    Research on the function of multidrug resistance gene ( MDR1 ) in blood-testis barrier of testis malignant tumor

  8. 北京黑猪精小管内支持细胞发育及血睾屏障建立的超微结构研究

    Ultrastructural studied on supporting cells development and establishment of the blood-testis barrier in the seminiferous tubules of Beijing black boar

  9. 微波对大鼠血睾屏障影响的近期和远期效应观察

    Studies on the short term and long term effects of the influence of microwave irradiation on the blood-testis barrier of rat testes

  10. 睾丸温度为44℃时,支持细胞膜受到损伤,这可能对血睾屏障构成威胁。

    When the temperature elevated to 44 ℃, cytomembrane ( cell memrane ) of sertoli cell was injured , which might endanger the blood testis barrier .

  11. 结论为微波加热家兔睾丸升温到40℃~42℃时,微波对血睾屏障基本没有影响。

    The results showed that no influence was exerted on blood testis , when temperature of scrotum rose to 40 ℃ and 42 ℃ with microwave irradiation .

  12. [结论]Sertoli细胞双室培养模型可模拟体内状态的血睾屏障,为体外研究雄性生殖毒性机制提供一个合适模型。

    [ Conclusion ] The dual-chamber culture system of Sertoli cells could mimic the blood testis barriers in vivo , and it could be used as a suitable model in reproductive toxicology .

  13. 药物动态监测结果表明:奥硝唑能透过血睾屏障,在睾丸和附睾中累积,这种累积与给药的时效呈正相关,附睾对奥硝唑的累积量高于睾丸。

    Dynamic monitoring of drug show that ornidazole can through blood-pancreatic barrier and accumulated in epididymis and testes . This accumulation and administration was positive correlation . Cumulant in epididymis was higher than testes .

  14. 血睾屏障是睾丸中用于保护生殖细胞不受自身免疫系统及血液中有害分子伤害的生理性屏障,由相邻支持细胞间连续的紧密连接组成。

    BTB is composed by continuous tight junctions between adjacent Sertoli cells at the basal compartment of the seminiferous tubule . It is an important physiological structure that can protect germ cells from autoimmune system of host and harmful molecules in blood .

  15. 100kV/m辐射组的损伤较400kV/m辐射组稍轻,辐射后14d支持细胞、生精上皮以及血-睾屏障的损伤已基本恢复。

    The injuries of 100kV / m irradiation groups were less severe than the 400kV / m groups , in which the damages to the Sertoli 's cells , the seminiferous epithelium and blood-testis barrier recovered to some extent 14 days after the irradiation .

  16. 电磁脉冲辐射对小鼠睾丸血-睾屏障的影响

    Radiation effects of electromagnetic pulses on mouse blood - testis barrier

  17. 说明该自来水有机提取物能通过血-睾屏障,干扰生精细胞正常发育。

    It indicated that the organic extracts from drinking water could pass through the blood testicle barrier and induce abnormalities in spermatogenic cells .

  18. 方法常规HE染色和硝酸镧示踪电镜技术观察400kV/m电磁脉冲辐射后2~48h内小鼠睾丸血-睾屏障结构和通透性的动态改变;

    Methods Routine HE staining and lanthanum tracing electron microscopy were used to observe the influence of 400 kV / m electromagnetic pulse irradiation on mouse blood-testis barrie within 2 ~ 48 h.

  19. ~3H&川芎嗪还大量分布于肺脏并可透过血脑、血睾屏障稳定而持久地存在;

    It was also distributed in the brain , the lung and the testis .

  20. 脑、眼、性腺亦含有一定的放射性,表明纳米颗粒Fe2O3可通过血脑、血睾等屏障。

    There is some radiation in brain , eyes and gonad , which indicates nano-Fe 2O 3 may pass through blood brain barrier , blood testis barrier .