生物活性材料

作为一种新型的生物活性材料，生物活性玻璃（Bioactiveglasses，BGs）由于其优良的生物相容性和骨修复功能而得到了广泛的研究。

As novel bioactive materials , bioactive glasses have been widely studied for its biocompatibility bone regeneration ability .

成骨细胞在生物活性材料中黏附性能研究进展

Advance in Research of Osteoblast Adhesion to Bioactive Materials

介绍了用电沉积技术获得羟基磷灰石（HAP）涂层、Ni-HAP、Ni-P-HAP复合镀层等医用生物活性材料的制备的具体方法。

The preparative methods of medical active biomaterials : hydroxyapatite ( HAP ), Ni HAP coating and Ni P HAP coating etc. by electrodeposition technique are introduced .

明胶-CaO-SiO2-TiO2生物活性材料的制备与研究

Preparation and study of gelatin-CaO-SiO_2-TiO_2 bioactive hybrid

本文就穿孔修复材料，特别是生物活性材料，如三氧化矿物凝聚体（MTA）、磷酸钙骨水泥、羟基磷灰石等在临床的应用进展作一综述。

This article summarizes the progress about repairing materials used in perforation , especially biological active materials , such as MTA , Calcium phosphate cement ( CPC ), Hydoxylatite ( HA ) and so on .

结论：应用缓降解BMG修复喉缺损，重建喉功能，既可恢复喉的外形，又可恢复喉的功能，是目前最为理想的新喉再造的生物活性材料和手术选择。

Conclusion : Applying delayed degradation BMG to repair the laryngeal defect not only rebuild the laryngeal external form , but also recover the laryngeal function . It is an ideal bioactivity material and best choice for the new larynx rebuilding in the operation now .

溶胶-凝胶法制备明胶-硅氧烷杂化生物活性材料

Preparation of gelatin - siloxane hybrids through sol - gel method

用于组织损伤修复和组织工程的可降解生物活性材料；

Biodegradation and bioactivity materials for tissue repairing and tissue engineering ;

生物活性材料义眼台在眼整形中的应用

Use of bioactive material as artificial eye seat in eye plastic

具有柔韧性的有机/无机生物活性材料研究现状及进展

Progress in research and development of flexible and bioactive organic / inorganic hybrids

新型生物活性材料的设计和研究进展

Design and Research Progress of the Novel Bioactive Material

结论固骼生是一种理想的替代骨移植修复骨缺损的高生物活性材料。

Conclusion NovaBone , which can substitutes for bone transplant , is an ideal material with high biological activity .

结论：该种无机纳米复合材料可用于口腔修复和制备新型无机/有机纳米复合生物活性材料。

Conclusions : The nano-composite can be used for oral and dentistry surgery and making novel inorganic / organic biomedical composite .

目的：采用可降解的生物活性材料钙磷陶瓷人工骨置于膜管内、骨断端间。观察其引导性骨再生的效果，探讨机理。

To observe the result and explore the mechanism of guided bone regeneration with polylactic acid membrane plus tricalcium phosphate ceramics .

在钙磷酸盐基础上设计生物活性材料有望发展出高性能临床应用的硬组织修复材料。

The design of biomaterials based on calcium phosphate is a prospective way to develop high-performance hard tissue repair materials for clinical treatment .

随着生活水平的日趋提高，人们对生物活性材料应用到生活中的要求也越来越迫切。

More urgent requirement that bioactive materials can be applied to human living activities has been brought about with the enhancement of living standard .

本研究可为设计以多肽为基础的生物活性材料提供新的研究思路，也为开发以及应用人工类胶原生物材料提供研究基础。

Moreover , this study provided new insights in designing other peptide-based bioactivity materials , and provided research foundation for developing artificial collagen-like biological materials .

具有与天然骨相似力学性能的有机-无机杂化材料是近年来发展的一种新型生物活性材料。

Organic-inorganic hybrids developed in recent years have been a new type of bioactive materials with mechanical properties analogous to those of the natural bones .

医用钛基生物活性材料发挥了钛及其合金优异的力学性能，同时又具有良好的生物活性。

Ti-based bioactive materials for biomedical combine the mechanical properties of Ti and its alloys , and their bioactivities offered by new techniques and methods are favorable .

本课题旨在研制成一种能达到牙齿仿生学要求的并应用于临床的牙科修复性纳米羟基磷灰石复合生物活性材料，通过检测其机械性能，为临床应用提供实验依据。

This study aims to develop into a dental restorative and bioactive composite NHA materials which can reach the teeth bionics and be used for the teeth restorative .

为了在体外使生物活性材料表面上形成羟基磷灰石，这个溶液不仅可以用于评价人工材料的生物活性，而且还能在仿生的条件下在各种材料表面上形成羟基磷灰石。

This fluid can be used for not only evaluation of bioactivity of artificial materials in vitro , but also coating of apatite on various materials under biomimetic conditions .

生物活性材料植入动物体骨内后，材料表面会形成一层磷灰石层，它与骨组织的无机成分相似，故称为类骨磷灰石，它对骨键合界面的形成起了非常重要的作用。

Bone-like apatite , similar to inorganic components of bone , would form on the surface of biomaterials after biomaterials were implanted into animals , including in osteo tissue and non-osteo tissue .

在骨缺损修复材料的应用上，已从惰性材料发展到生物活性材料；在操作技术上，则从创伤性手术向微创技术发展。

Nowadays , with the development of biomaterial science , the bone defects repair materials developed from the traditional mechanical fixation to biomaterial implantation and the technique of surgery developed from traumatic to minimal invasive technology .

有鉴于此，本研究力图发展一种具有如下特性的新型骨修复材料：可注射，可在位固化形成三维多孔结构，可实现与其它生物活性材料的原位复合。

So the aim of present study is to develop a novel bone repair material which could inject from a syringe and get a porous structure after setting , as well as compound in situ with other bioactive materials .

随着嗅觉机理研究的不断深入以及现代生物医学传感技术的不断进步，人们模仿嗅觉感知气味的机理，以生物活性材料作为敏感元件，耦合各种二级换能器，构建了多种仿生嗅觉传感器。

With the progress of research on olfactory mechanisms and the advancements of modern biomedical sensing technologies , by imitating the biological mechanisms of olfaction , many types of biomimetic olfactory-based biosensors have been developed by the combination of olfactory functional components with various secondary sensors .

羟基磷灰石（HA）是一种生物活性陶瓷材料，为目前齿科和骨科所常用的替代材料。

Hydroxyapatite is a sort of biological active ceramics as a likable alternative material of dentistry and bone .

结论生物活性陶瓷材料均有不同程度的Ca、P离子释放，细胞外基质及Ca、P离子可提高成骨细胞活性，异位骨形成及ALP活性。

Conclusion The bioactive ceramics can release Ca , P , . ion . Extracellular matrices and this ion may increase activation of osteoblast and ALP , and induce ectopic bone formation .

羟基磷灰石（HAP）作为最有代表性的生物活性陶瓷材料，在材料及近代生物医学工程学科领域一直受到人们的密切关注。

As the most representative biomaterials , hydroxyapatite ( HAP ) has been of great interest in the fields of materials and neoteric biomedicine engineering science .

生物活性陶瓷材料表面碳酸羟基磷灰石形成及其微观结构的研究

Microstructure and Formation of HCA on the Surface of Bioactive Ceramics

CFRC/HAP生物活性复合材料及其生体适应性

Cfrc / hap bioactive composite material and their bio compatibility