结论猪松质骨支架具有骨组织工程支架材料结构特征。
Conclusion the porcine cancellous bone scaffold has the structural characteristics of tissue-engineering bone scaffold.
目的:探索胶原海绵作为骨组织工程支架材料的可行性。
Objective: To investigate the feasibility of collagen sponge as scaffold material in bone tissue engineering.
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。
The material is expected to be a good candidate for bone-repairing and bone tissue engineering scaffold materials.
通过人们的努力,目前已有多种骨组织工程支架材料问世。
A number of scaffolds have been fabricated by effort of scientists.
材料结构和性能符合非承力部位骨组织工程支架材料的要求。
These demonstrate that the composites obtained in this work can meet the requirements of bone tissue engineering scaffolds.
近年来,羊毛角蛋白作为骨组织工程支架材料的研究引起了学者们的关注。
In recent years, keratin has drawn great interest of researchers as scaffold material for bone tissue engineering.
目的研究仿生矿化的聚乳酸-羟基乙酸共聚物(PLGA)作为骨组织工程支架材料的可行性。
Objective To investigate the feasibility of using biomimetic mineralized PLGA as scaffold material in bone tissue engineering.
在适量的固相含量和生物玻璃的含量下,可制得孔结构满足骨组织工程支架材料要求的多孔陶瓷。
Porous ceramic with a pore structure meeting the requirements for the scaffold of bone tissue engineering could be prepared at suitable solid content and solid ratio.
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。
Injectable scaffold materials of tissue engineering can rehabilitate or cure bone lack and bone abnormality in unharmful or tiny harmful way.
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.
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。
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.
目的:应用纤维蛋白胶作为细胞支架进行兔骨髓基质细胞立体培养,探讨其作为新型骨组织工程支架材料的可行性。
AIM: to observe three-dimensional culture of rabbit marrow stromal cells (MSCs) in fibrin glue in vitro, and discuss the feasibility of the fibrin glue to be use as a kind of scaffold material.
骨组织工程研究领域中,支架材料与细胞的相互作用是主要的研究课题。
The study of scaffold material-cell interactions was the major subject in the field of bone tissue engineering.
寻找理想的支架材料是目前骨组织工程研究的热点之一。
To explore an ideal scaffold material is one of the hot topics on current bone tissue engineering.
本实验进行脱细胞骨基质制备,去除细胞成分,并进行形态学观察,为骨组织工程的新型天然支架材料提供依据。
This experiment prepares ACEM by removing cell components and carries morphologic study to provide foundation for new natural supporting material of 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。
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.
本文围绕作为组织工程骨支架材料之一的异种骨的免疫学及相关研究进展作一综述。
This article briefly reviews progress in immunology and related research of heterologous bone as scaffold material of bone tissue engineering.
结论具有类骨磷灰石涂层的PLGA具有更高的细胞亲和性,可望成为一类新的骨组织工程细胞支架材料。
Conclusion PLGA with a bone-like apatite coating has a good cell affinity. It is a hopeful new scaffold material to be used in bone tissue engineering.
目的探讨联合运用成骨细胞、珊瑚-羟基磷灰石(CHA)支架材料和自行研制的旋转式生物反应器在体外构建组织工程化骨的可行性。
Objective to study the feasibility of construction of the tissue engineered bone with coral-hydroxyapatite (CHA) scaffold and osteoblast in the self developed rotary bioreactor.
由于其具有天然的骨小梁结构,可降解,无免疫原性,是骨组织工程比较理想的支架材料,因此越来越受到重视。
It exhibits excellent biocompatibility, possesses a natural trabecular structure, biodegradability, no immunogenicity, so TBC is a ideal extracellular matrix material in bone 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。
CONCLUSION: Both of sintered bone and lyophilized collagen membrane are expected to be the materials for scaffolds in periodontal tissue engineering.
目的制备并检测CPC - PLGA复合物,为骨组织工程研究提供新的支架材料。
Objective Preparing and testing CPC-PLGA polymer tissue engineered bone, providing a new-type scaffold material for bone tissue Engineering.
生物衍生骨是天然生物组织经一系列理化方法处理而得,是理想的组织工程化骨的支架材料。
Bio - derived bone can be obtained from nature tissue by a serious of physical and chemistry method, so it is one of the best stand of tissue engineering.
支架材料是骨组织工程的核心内容和关键环节。
The scaffolds are the core content and key of the bone tissue engineering.
但是磷酸钙骨水泥作为骨组织工程应用的支架材料强度不足,而且孔隙率越高,孔径越大,强度越低,严重限制了该类材料的应用。
The higher the porosity is, the bigger the pores are and the lower the strength is. Because of all of above the material cannot be used widely.
应用骨组织工程技术修复大的骨缺损成为近年来的研究热点。而成骨细胞和支架材料在体外的复合,是组织工程研究的重点和难点之一。
Repairing main bone defect by bone tissue engineering has been one of popular studies currently, complex osteoblasts and scaffolds in vitro is important and difficult.
结论PLLA—PD XB复合材料具有优良的细胞亲和性,可望成为一类新的骨组织工程细胞支架材料。
Conclusion the PLLA-PDXB composite has a good cell affinity, and this kind of composite can hopefully become a new scaffold material to be used in the bone tissue engineering.
这种鸟巢状多孔hap材料在人工骨植入、骨组织工程支架、药物缓释载体领域有潜在的开发价值。
Therefore, this experiment synthetic porous HAP nest material has the potential development value in bone implanted, bone tissue engineering, drug delivery field.
交联的胶原及其仿生矿化形成的碳酸羟基磷灰石可使支架具有良好的生物学性能,有望成为广阔临床应用前景的骨组织工程植入材料。
The scaffolds could have good biological properties because of the cross-linked collagen and the mineralized hydroxyapatite, and be considered as a potential bone tissue engineering implant.
交联的胶原及其仿生矿化形成的碳酸羟基磷灰石可使支架具有良好的生物学性能,有望成为广阔临床应用前景的骨组织工程植入材料。
The scaffolds could have good biological properties because of the cross-linked collagen and the mineralized hydroxyapatite, and be considered as a potential bone tissue engineering implant.
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