The properties of important tissue engineering materials when planted into the body, such as polyhydroxyalkylester, polyanhydride, polyamide, were reviewed in detail.
采用系统分析、建立数学模型等方法探讨了骨组织工程材料快速成形的材料体系、实现原理、成形机理等。
This paper summarized capabilities of HA and different species of its composite. At last, it dealt with a expectation of the development of tissue engineering materials.
本文综述了羟基磷灰石与胶原、 聚乳酸、 壳聚糖及丝素蛋白复合材料的性能和国内外相关研究成果,并简述了组织工程材料的发展趋势。
Using Schwann cells for association culture with tissue engineering materials and fabricating artificial nerve to repair injured peripheral nerves have extensive applied prospect.
应用许旺细胞与组织工程材料联合培养,构建人工神经修复周围神经损伤,具有广阔的应用前景。
This course is an introduction to principles of materials science and cell biology underlying the design of medical implants, artificial organs, and matrices for tissue engineering.
这门课程是介绍以应用于组织工程学中设计医疗植体、人工器官和基质为主的材料科学和细胞生物学。
The material is expected to be a good candidate for bone-repairing and bone tissue engineering scaffold materials.
此材料可望成为优异的骨修复材料及骨组织工程支架材料。
Objective: To evaluate the feasibility of collagen materials as scaffolds for tissue engineering of tooth.
目的:评价胶原类材料作为牙齿组织工程研究的支架材料的可行性。
Skin replacement products are the most advanced, with several tissue-engineering wound care materials currently on the market worldwide.
皮肤替代产品最为成熟,最近有好几个组织工程(产商)将在全球市场经营这些材料。
Objective To reconstruct corneal epithelium in vitro by tissue engineering technique and provide effective method and materials for clinical transplantation.
目的利用组织工程技术体外重建角膜上皮组织,为眼表重建提供良好的移植材料及方法。
The class is intended to inspire molecular design of new biological materials for a broad range of applications, from bioelectronics and molecular computing to tissue engineering.
此课程的目的在于开辟新型生物材料分子设计的新领域,从生物电子学和分子计算到组织工程。
The results showed, in addition to PLA, PGA, PLGA and other synthetic polymers, some natural biomaterials are also ideal scaffolds materials for bone tissue engineering.
结果表明,除了人工合成的聚合物类材料之外,一些天然生物材料也可作为骨组织工程理想的支架材料。
Objective To study the outcome of repair of nerve defects with tissue engineering artificial nerve, which was composed of compound of Schwann cells and biodegradable materials.
目的研究雪旺细胞和生物降解支架材料复合后构建成的组织工程化人工神经修复神经缺损的效果。
This article has reviewed the biological function of materials mostly used in neural tissue engineering.
本文就几种比较典型的神经组织工程生物材料的生物功能性进行综述。
CONCLUSION: Both of sintered bone and lyophilized collagen membrane are expected to be the materials for scaffolds in periodontal tissue engineering.
结论:煅烧骨和冻干胶原膜均有望成为牙周组织工程支架材料。
Objective To select degradable materials and best seeding method for tissue engineering blood 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。
Electrospinning is one of the most effective methods to produce tissue engineering scaffold materials.
静电纺丝技术是制备组织工程支架材料最有效的方法之一。
The properties of PHA were improved after modification, which would widen its application in the fields of tissue engineering and medical materials.
展望了改性后的PHA在组织工程及医用材料中的应用。
This paper introduced plasma and grafting methods of surface modification of materials and the application in tissue engineering.
文章从等离子体改性、接枝改性等方面论述了组织工程材料的表面改性方法及其在组织工程中的应用。
This article reviews the current state of tissue engineering heart valve and discusses its necessity, feasibility and prospects about implanting materials, seeded cells and animal experiments.
本文综述近年来组织工程心脏瓣膜研究进展情况,并从基质材料、种植细胞及动物实验各方面探讨构建组织工程心脏瓣膜的必要性、可行性及前景。
The results provides a theoretical and experimental basis for the materials using for tissue engineering, tissue repair, wound dressings and drug delivery.
本研究结果为该材料用于组织工程、组织修复、伤口敷料和药物载体提供了理论和实验依据。
Both the surface engineering and structure engineering are necessary and neither of them can be negligible to the design of polymer skeletal materials for tissue engineering.
对于可促进组织生长的聚合物骨架材料的结构设计,必须同时兼顾材料的表面工程和结构工程,二者必不可少且不可分割。
Injectable scaffold materials of tissue engineering can rehabilitate or cure bone lack and bone abnormality in unharmful or tiny harmful way.
可注射性骨组织工程支架材料,可通过非侵害或微创伤方式达到修复和治疗骨缺损和骨畸形的目的。
Porous scaffold plays an important role in tissue engineering and polymers are the main materials for manufacturing scaffolds.
多孔支架是组织工程的重要要素,高分子材料是制作支架的主要材料。
These results suggest that PLA-heparin polymer would be useful in blood contacting materials, especially in scaffold materials in cardiovascular tissue engineering.
由此可建议,PLA 肝素聚合体对于与血液相接触的材料是有用的,特别是可以用于心血管组织的支架材料中。
Rapid prototyping(RP)processes are widely used in tissue engineering. Customized manufacturing and high controllability of scaffold materials and structures can be achieved by RP processes.
快速成形(RP)工艺可实现个性化制造和可控的材料、结构组成,因此在组织工程中得到广泛应用。
Objective To forecast the possibility of new cartilage formation by tissue engineering approach with observation of the cartilage cell proliferation on two difference materials.
目的了解两种材料表面软骨细胞的增殖特性预测形成组织工程化关节软骨的可能性。
These materials provided abundant staple for the fabrication of artificial nerve and made basis for using tissue engineering based artificial nerve to repair injured peripheral nerves.
这些支架材料为人工神经的构建提供了丰富的原料,为应用组织工程化人工神经修复受损的周围神经奠定了基础。
These materials provided abundant staple for the fabrication of artificial nerve and made basis for using tissue engineering based artificial nerve to repair injured peripheral nerves.
这些支架材料为人工神经的构建提供了丰富的原料,为应用组织工程化人工神经修复受损的周围神经奠定了基础。
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