组织工程学

  • 网络tissue engineering
组织工程学组织工程学
  1. bFGF在骨组织工程学中的研究进展

    Advances in research of bFGF in bone tissue engineering

  2. 近年来,随着细胞生物学、生物材料科学、化学及工程学突飞猛进的发展和各学科间的交叉渗透组织工程学(TissueEngineering)作为一门新兴边缘学科应运而生,并得到了迅猛发展。

    In recent years , because of the enormous development and intersection between cytobiology and biomaterial engineering science , tissue engineering has forged ahead rapidly as a novel frontier science .

  3. 他们称这项技术为3D生物打印,而它也成为组织工程学新兴领域的热门分支。

    They called it 3-D bioprinting , and it is a red-hot branch of the burgeoning field of tissue engineering .

  4. 结论:NC可作为牙周骨组织工程学中的细胞载体;

    Conclusions : NC can act as the candidate of bone graft material in bone tissue-engineering of periodontal regeneration .

  5. 随着生命科学和材料科学的发展,组织工程学(TE)已逢勃兴起并取得可喜的成绩。

    With the development of life science and material science , tissue engineering ( TE ) has been growing and has made a great achievement .

  6. 骨髓MSCs体外培养成功,为今后利用自体间充质干细胞通过组织工程学方法修复软骨、骨、肌肉系统的组织缺损奠定了基础。

    The success of culture MSCs in vitro will be useful for repairment of cartilage , skeletal tissue defects by tissue engineering technique in the future .

  7. 细胞外基质(ECM)研究是组织工程学的重要部分,即是重要基础研究内容,又是研究细胞外基质的替代物课题。

    Research of extracellular matrix ( ECM ) is an important subject in tissue engineering , and also a problem of succedaneum of ECM ( SECM ) .

  8. 结论Bio-GuideR○及国产胶原膜能够维持MSC的生长与繁殖,在组织工程学领域,是一种有潜力的载体材料。

    Conclusion Bio Guide R ○ and Collagen membrane can support the growth and stimulate the proliferation of MSC in vitro and thus , are potential carriers for the delivery of cells in tissue engineering fields .

  9. 目的:分离、纯化胎鼠皮肤间充质干细胞(MSCs),在体外培养、扩增并促其成骨分化,为骨组织工程学研究与骨质疏松症的细胞学治疗提供一种可能。

    Objective The characteristics of the proliferation and differentiation of fetus mice skin MSCs were observed in order to provide an ideal method for bone tissue engineering science and treatment for osteoporosis .

  10. 我们以往的研究表明,直接在心肌梗塞(myocardialinfarction,MI)动物的心脏缺血区注射胚胎干细胞(embryonicstemcells,ESCs)可以提高其心肌功能,干细胞组织工程学可以使组织再生、修复。

    Our previous findings demonstrated that directly injecting embryonic stem cells ( ESCs ) into ischemic region of the heart improved cardiac function in animals with experimental myocardial infarction ( MI ) . Tissue engineering with stem cells may provide tissue creation and repair .

  11. 目的评价膀胱无细胞基质移植物(BAMG)作为组织工程学细胞载体的可行性。

    Objective To evaluate the feasibility of bladder acellular matrix graft ( BAMG ) used as cell carrier for tissue engineering in rabbits .

  12. 目的了解WO-1在体外环境中对人成骨细胞增殖、分化的影响,为骨组织工程学研究提供更多的方法。

    Objective To investigate the effect of WO-1 on the proliferation and differentiation of human embryonic osteoblasts ( HEO ) and to provide research methods of bone tissue engineering .

  13. 颌骨缺损修复的组织工程学研究现状

    The recent study on the tissue engineering of jaw defects reconstruction

  14. 神经、骨及软骨组织工程学研究进展

    Progress in tissue engineering research on nerve , bone and cartilage

  15. 软骨细胞移植的载体与软骨组织工程学进展

    The Development of the Chondrocyte Transplanta-tion and the Engineered Cartilaginous Tissue

  16. 组织工程学的兴起有望解决这个难题。

    Tissue engineering has being desired to deal with the puzzle .

  17. 脂肪干细胞在牙周组织工程学中的应用前景

    Potential applications of adipose tissue-derived stem cells in periodontal tissue engineering

  18. 神经干细胞修复面神经损伤的组织工程学研究

    Tissue Engineering Technique Research in Neural Stem Cells Repairing Facial Nerve Defect

  19. 提示,这一新的组织工程学方法具有一定的指导意义及实用性。

    The results suggest that tissue engineering method is practical .

  20. 骨组织工程学种子细胞研究进展

    Progress in seeding cell study of bone tissue engineering

  21. 应用组织工程学技术修复关节软骨缺损

    Repair of articular cartilage defects by tissue engineering technology

  22. 新兴的组织工程学方法能有效地提高治疗效果。

    The application of tissue engineering principles could significantly improve the treatment effect .

  23. 组织工程学&现代生物生命科学的前沿

    Tissue Engineering : Leading Edge of Modern Bio-life Science

  24. 种植骨髓基质细胞的骨组织工程学研究

    Bone tissue engineering seeded with bone marrow stromal cells

  25. 种子细胞的体外培养、扩增是组织工程学研究中最基础的工作。

    Seed cells amplification in vitro is the most basic tissue engineering work .

  26. 运用组织工程学原理构建许旺细胞三维培养体系

    Study of development of Schwann cells culture system for three-dimensional modeling with tissue engineering

  27. 组织工程学技术在矫形外科中的应用

    Application of tissue engineering technology in orthopedic surgery

  28. 组织工程学的临床应用要求

    The standard of clinical application of tissue engineering

  29. 组织工程学椎间盘种子细胞三维培养的实验研究

    The Study of Adult Degeneration Disc Seed Cells Culture in Intervertebral Disc Tissue Engineering

  30. 生物功能表面的构筑在组织工程学中占有非常重要的地位。

    The architecture of biologic functional surface is very important in tissue engineering science .