微粒细胞

微粒细胞微粒细胞
  1. 聚乙烯微粒细胞因子与人工髋关节松动的相关性研究

    Relativity study during polyethelene debris cytokine and hip prosthesis loosening

  2. 的一个经历一个单电子转移黄素蛋白的例子是与微粒NADPH-细胞色素P450还原酶。

    An example of a flavoprotein undergoing a one-electron transfer is with the microsomal NADPH-cytochrome P450 reductase .

  3. 在此基础上,运用磁微粒扭转细胞测量系统(OMTC)测量SD大鼠原代气道平滑肌细胞的生物力学特性。

    On this basis , we measured the biomechanical properties of airway smooth muscle cells by using the optical magnetic twisting cytometry ( OMTC ) .

  4. 金纳米微粒辅助细胞激光热作用疗法研究

    Laser Irradiation Cell Photothermal Therapy Assisted by Gold Nanoparticles

  5. 软骨微粒脱细胞基质的制备及其特性

    Preparation and Characteristics of Cartilage Microparticle Acellular Tissue Matrix

  6. 软骨细胞与异体软骨微粒脱细胞基质体外相容性的研究

    Experimental study of compatibility between chondrocytes and allogenic cartilage microparticle acellular tissue matris in vitro

  7. 目的将软骨细胞与异体软骨微粒脱细胞基质相结合,构建组织工程软骨。

    Objective To construct tissue engineered cartilage by combining allogenic cartilage microparticle acellular tissue matrix and chondrocytes .

  8. 有时,新的病毒微粒在细胞里一次一个的生长,细胞仍然是活的。

    In other cases , the new virus particles bud off the cell one at a time , and the cell remains alive .

  9. 软骨微粒脱细胞基质干重密度为0.6547g/mL,湿重密度为1.0627g/mL,含水量为72%。

    The dry density of them was 0.6547 g / mL and the wet was 1.062 7 g / mL , and the content of water was 72 % .

  10. 目的:利用软骨微粒脱细胞基质这种新型支架材料及纤维蛋白胶,体外构建可塑形及具有良好生物相容性的组织工程化软骨。

    AIM : To establish engineered cartilage with good biocompatibility and plasticity in vitro with fibrin glue and a new material of stent made by cartilage microparticle acellular tissue matrix ( CMACTM ) .

  11. 方法利用氯化钾、去离子水、胰蛋白酶等试剂制备直径为0100~0154mm的软骨微粒脱细胞基质并寻找胰蛋白酶的最佳浓度及时间。

    Methods Microparticle acellular tissue matrix were prepared with Kcl , water and trypsin . The diameter of which were from 0.100 mm to 0.154 mm , meanwhile to find the best concentration of trypsin .

  12. 内皮衍生微粒诱导内皮细胞氧自由基产生损伤内皮功能

    Endothelium-derived microparticles induce endothelial cell superoxide generation and impair endothelial function

  13. 纤维蛋白胶塑形、异体微粒软骨脱细胞基质支架的人工软骨研究

    Artificial cartilage molded by fibrin glue and supported by allogenic cartilage microparticle acellular tissue matrix

  14. 阿托伐他汀钙抑制高糖诱导的人脐静脉内皮细胞内皮微粒释放及细胞凋亡

    Atorvastatin suppressed high glucose induced endothelial microparticles released and cell apoptosis in human umbilical vein endothelial cell

  15. 同种异体组织工程预定形态软骨的研究应用离心管技术以异体微粒软骨脱细胞基质为支架体外构建组织工程软骨

    Fabrication of allogenic cartilage in predetermined shapes with tissue engineering technique Experimental study of tissue engineered cartilage construction with scaffold of allogenic cartilage microparticle acellular tissue matrix

  16. 光学微操控已广泛应用于从胶体科学、物理学、生物学到医学等多个学科中,对微粒乃至活细胞进行操控。

    Optical micromanipulation is widely used in colloid science , physics , biology , medicine and many other fields to manipulate particles and ev ^ n living cells .

  17. 结果透射电镜观察显示:A组微粒皮边缘细胞损伤较轻;

    Results Transmission electron microscope examination revealed that the cellular injury at the edge of the micro-skin in machine-made group was mild compared with that in man-made group .

  18. 膜微粒子是细胞膜脱落下来形成的微粒样物质。多种细胞受到激活或者凋亡时产生膜微粒子并且释放到细胞外环境。

    Membrane microparticles are shed from the plasma membrane of most eukaryotic cells when these cells were undergone activation or apoptosis , and released into the extracellular environment .

  19. 雄黄纳米微粒对人白血病细胞株HL-60的诱导分化作用

    Differentiation of HL-60 cells induced by realgar nano-particles

  20. Genistein-磁性纳米微粒对人肝癌细胞中FAK表达的影响颗粒细胞性成釉细胞瘤

    Effects of Genistein-magnetic-nanoparticles on the Expression of FAK in Human Hepatocellular Carcinoma Cell line HepG_2

  21. Schatzlein及其同事将抗癌基因包装成非常小的纳米微粒仅被癌细胞摄取,而正常细胞不受影响。

    Schatzlein and colleagues packaged anti-cancer genes in very small particles that are only taken up by cancer cells , leaving healthy cells unharmed .

  22. 在基线水平,15例稳定的接受HF-HD的患者与5例对照组相比,CD14+CD16+细胞、内皮微粒和内皮祖细胞显著升高。

    At baseline , 15 stable patients on HF-HD as compared with five control subjects showed significant increases in CD14 + CD16 + cells , endothelial microparticles , and endothelial progenitor cells ( EPCs ) .

  23. CD14+CD16+细胞数目与内皮微粒和内皮祖细胞相关。

    The number of CD14 + CD16 + cells correlated with both endothelial microparticles and EPCs .

  24. 目的:研究帕米磷酸钠对聚乙烯微粒刺激破骨细胞功能的影响,探讨帕米磷酸钠防治人工关节无菌性松动的可能性。

    Objective : To investigate the effects of pamidronate on the osteoclasts activated by the polyethylene particles and explore the preventing effect of pamidronate on the aseptic loosening of prosthesis .

  25. 用酶法试剂盒测定两组微粒皮上清液中琥珀酸脱氢酶的活性;以3HTDR掺入法观察微粒皮细胞增殖情况。

    Succinic dehydrogenase activity in supernatant of cultivated cells was analyzed , and the cell proliferation of micro-skin was assessed by 3H-TdR .

  26. 方法将微粒皮机与人工剪制的微粒皮分成A、B两组,以透射电镜分别对两组微粒皮边缘细胞进行观察;

    Methods Micro-skin was produced either with the machine or by hand . Cells at the edge of micro-skin were observed by transmission electron microscope .