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 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。
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。
Objective to reconstruct tissue engineered cartilage using temperature responsive chitosan hydrogel, which were prepared as scaffold materials.
目的验证自行制备的温敏性壳聚糖水凝胶作为软骨细胞支架材料构建组织工程化软骨的可行性。
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。
BACKGROUND: it is necessary for proper selection of repair methods and scaffold materials to understand repair methods of facial nerve injury and features and benefits of various scaffolds.
背景:了解面神经损伤的修复方法,以及各种组织支架的特性与优势,对于修复方法与材料的合理选择是十分必要的。
OBJECTIVE:To prepare human articular cartilage acellular matrix so as to provide a methodological basis for further study of articular cartilage acellular matrix as cell scaffold materials.
目的:制备人关节软骨脱细胞基质,为进一步研究关节软骨基质作为细胞外支架材料提供方法学资料。
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。
Micro and nano structured surfaces of scaffold materials have important effects on cells adhesion and proliferation, and there is great application of nano structure materials in this field.
组织工程支架材料表面的微观和亚微观结构对细胞的黏附与生长有很重要的影响,纳米结构材料的应用为该结构展现了较广阔的前景。
Conclusions: the inorganic active element induced bone scaffold materials possess preferable cellular affinity, which could be the high potential scaffold material of bone tissue engineering.
结论:无机活性诱导元素骨组织工程支架材料具有良好的细胞亲和性,是一种较为全面的极具潜力的骨修复材料。
A series of biodegradable crosslinked NVP scaffold materials were prepared by radical polymerization of the biodegradable crosslinking agents and NVP using azoisobutyronitrile (AIBN) as initiator.
本研究的核心是利用该交联剂与N-乙烯基吡咯烷酮(NVP)进行交联共聚反应,制得目前国内外最新型的组织工程支架材料。
Conclusion Application of the bio-derived materials is a trend in the fabricating scaffold of the tissue engineered peripheral nerve.
结论生物衍生材料已经成为周围神经组织工程支架预构的趋势之一。
The bone tissues in the simple scaffold group mainly concentrated on the surface of materials, which sucked little.
单纯支架组骨组织大多集中于材料表面,材料吸收少。
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。
Nanometer ha with the characteristics of nanometer materials and ha itself is fit for the study of scaffold for engineering bone.
纳米级羟基磷灰石既具有纳米材料的特性,又具羟基磷灰石本身的特性,适于骨组织工程支架材料的构建。
Nanometer ha with the characteristics of nanometer materials and ha itself is fit for the study of scaffold for engineering bone.
纳米级羟基磷灰石既具有纳米材料的特性,又具羟基磷灰石本身的特性,适于骨组织工程支架材料的构建。
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