希望对正进行心血管组织工程研究的战友有用。
The use of animal models in developing the discipline of cardiovascular tissue engineering.
血管组织工程利用工程学原理和技术为防治心血管疾病提供新的思路和手段。
Vascular tissue engineering apply the theory and technique of engineering to provide a new ideal and approach to the prevention and cure of cardiovascular disease.
探讨血管重建与血管组织工程的基础问题,对心血管疾病的防治有重要意义。
The basic studies on vascular remodeling and vascular tissue engineering are very important for cardiovascular disease.
丝管是通过将蜡模浸入水化的丝蛋白溶液中制成的,有许多组织工程应用,如血管移植和神经导引。
Silk tubes, made by dipping a wax mold in aqueous silk solution, have a number of tissue engineering applications like blood vessel grafts and nerve guides.
组织工程学长期以来希望能构建新的器官以取代损坏的肝脏、血管以及其他人体器官。
Tissue engineering has long held promise for building new organs to replace damaged livers, blood vessels and other body parts.
目的:探讨组织工程血管全生物支架的免疫原性的检测方法。
Objective: To detect the immunogenicity of the bioscaffold used in building tissue engineered blood vessels.
组织工程学的兴起为血管移植物的来源提供了一条崭新的思路。
The development of tissue engineering provides a new approach for the source of vascular grafts .
其他的讨论将集中于在治疗性血管生成的新的组织工程干细胞为基础的方法的兴趣。
Additional discussion will focus on a renewed interest in therapeutic angiogenesis by tissue engineering or stem cell-based approaches.
组织工程可能最终能应用于各种组织的重建,如肝、小肠、心血管结构、神经和软骨。
Tissue engineering may eventually be applied to the regeneration of diverse tissues such as the liver, small intestine, cardiovascular structures, nerve, and cartilage.
应用于组织工程,例如皮肤替换、骨替换以及人造血管和瓣膜的替换,就是胶原的重要用途之一。
This article reviews the main applications of collagen in tissue engineering including skin replacement, bone substitutes and artifical blood vessels and valves.
结论:所培养的血管内皮细胞和平滑肌细胞为研究组织工程血管提供了细胞来源。
CONCLUSION: Vascular endothelial cells and smooth muscle cells are important cell sources for tissue engineering vessel.
目的筛选适合于组织工程血管构建的可降解基质材料及最佳的接种培养方式。
Objective To select degradable materials and best seeding method for tissue engineering blood vessel.
生长因子具有促进细胞增殖,组织或血管的修复和再生的作用,是组织工程的三个主要研究方面之一。
Growth factors have such functions as promoting proliferation of cells, rehabilitation and regeneration of tissues and organs, which has become one of the three major studies on tissue engineering.
目的探索体外构建组织工程血管及细胞种植的方法。
Objective To study the method of tubular scaffold and the application of dynamic implantation and culture in vascular tissue engineering.
目的观察兔骨髓诱导的内皮细胞用纤维蛋白胶接种到骨组织工程支架上,在体外人工骨血管化效果。
Objective To observe angiogenesis of induced endothelial cells in demineralized bone matrix scaffold seed by fibrin sealant in vitro.
目的为培养组织工程化血管的实验研究提供细胞来源。
Objective To provide cells resource for experimental study on vascular tissue engineering.
结论应用生物反应器可构建具有良好弹性的组织工程化血管。
Conclusion Blood vessel with good elasticity can be constructed in a bioreactor using tissue engineering approach.
阐述电纺支架在软骨、骨、血管、心脏、神经等组织工程领域的应用。
The electrospun scaffolds were applied to the cartilage, bone, blood vessel, heart, and nerve tissue engineering fields.
本发明公开了一种组织工程血管体外构建方法及所采用的装置。
The present invention discloses the method and apparatus for externally constructing blood vessel tissue engineering.
移植治疗无菌性角膜溃疡术后,1~2周有新生血管侵入组织工程角膜基质植片边缘,植片为灰白色半透明状;
From the 1st week to the 2nd week after transplantation, the implant's margin of tissue engineering cornea stromas were invasioned by new vessels and became grey and semitransparent;
本研究为组织工程血管的异种移植提供了可靠方法学的依据,对组织工程血管的成功构建具有十分重要的意义。
Meanwhile the research provides a potential way for heterogenic transplantation of blood vessel tissue engineering, and is also important to succeed construct tissue-engineered blood vessel.
目的:研制适合于组织工程血管体外构建的生物反应器。
Objective to develop a new bioreactor for tissue-engineering vascular construction in vitro.
热点项目包括心肌组织的组织工程模型、三叶瓣、细胞型的心脏泵及血管移植物。
Active programs include tissue engineering models for cardiac muscle tri - leaflet valves cell-based cardiac pumps and vascular grafts.
临床上需要各种口径大小的血管作为手术修补材料或者其他自体或者异体甚至组织工程组织的滋养血管。
Vessel with various diameters is needed as repair material, autograft or allograft, even nutrient vessel for engineering tissues in clinic.
为组织工程化骨的血管神经化研究提供了一种新的方法。
And it providing a new method for the investigation of vascularization and neurotization of bone tissue engineering.
目的探讨磁共振灌注成像在组织工程骨血管化监测中的应用价值。
Objective To assess the diagnostic value of perfusion weighted MR imaging technique in monitoring vascularization of tissue engineered bone.
目的探讨磁共振灌注成像在组织工程骨血管化监测中的应用价值。
Objective To assess the diagnostic value of perfusion weighted MR imaging technique in monitoring vascularization of tissue engineered bone.
应用推荐