生物材料的选择。
Collagen is taken as one of the most useful biomaterials.
胶原现已被视为最有用途的生物材料。
In this paper, the blood compatibility of biomaterials was summarized.
本文就生物材料的血液相容性进行了综述。
Numerical examples exhibit the multi-physical coupling phenomena of biomaterials.
数值例题展示了生物材料中的多物理耦合现象。
Composite biomaterials had better mechanical properties and suitable decomposable capability.
制备的复合材料有着较高的力学性能和合适的降解性能。
Therefore, collagen and its composites have been utilized widely for a long time as biomaterials.
胶原及其复合材料作为生物材料有广泛的用途。
They are used in the area of drug delivery, drug release, biomaterials and tissue engineering, et al.
这些聚集体被用在药物运输、药物缓释、生物材料及组织工程等领域。
One major such obstacle is the issue of preservation and storage of living biomaterials to clinicians.
然而,这些活体材料的保存和贮藏是临床应用的主要障碍之一。
The procedure with frozen-drying and chemistry were used to produce porous structure in the biomaterials.
采用快速冷冻干燥法和化学方法对生物材料进行制孔处理。
Microstructured biomaterials such as nacreous layer from mollusk shells receive much attention at present.
贝壳珍珠层作为一种典型的生物矿化材料而备受关注。
Improving mechanics performance of biomaterials as implants requires bioactive fiber for reinforcing composition.
生物材料为改善其作为植入体的力学性能需要生物活性纤维增强。
Topics include methods for biomaterials surface characterization and analysis of protein adsorption on biomaterials.
内容包括生医材料表面特性检测和蛋白质吸附于生医材料表面的分析。
Methods To use the Subcutaneous Implant Test and the MTT Assay to evaluate the toxicity gtade of seven biomaterials.
方法对七种生物材料分别用MTT比色法和软组织皮下埋植试验进行生物相容性测试。
To investigate the influence of Radix Stephaniae Tetradr ae (tetrandrine) -contained biomaterials on chondrocytes in vitro.
犤目的犦研究含粉防己碱生物材料对体外培养关节软骨细胞的影响。
For ordinary orbital fracture, the reparative operation will be completed through osteotomy, bone or biomaterials implanting.
普通眶周骨折:采取截骨、植骨或生物材料植入修复的手术方案。
A model for evaluating the platelet adhesion of biomaterials is presented based on the complex evaluation of fuzzy mathematics.
本文以模糊数学的综合评判方法,建立了评价生物材料血小板粘附性的模型。
This paper introduces the interaction between biomaterials and cells and several surface modification methods for biomaterials.
本文对生物材料与细胞相互作用及表面修饰的技术方法进行了介绍。
The recent developments of silk fibroin in configuration and as materials in biomaterials and in biomedicine have been reviewed.
综述了丝素蛋白质结构和其作为生物材料的最新研究进展。
Objective To summarize the latest developments in silk protein fiber as biomaterials and their applications in tissue engineering.
目的介绍并综合分析丝蛋白纤维生物材料的研究进展及其在组织工程中的应用。
It is considered that biomaterials favorable for cell growth and attachment will develop the research in tissue engineered tendon.
指出有利于细胞生长与粘附的生物材料的研制必将推动组织工程化肌腱的研究。
Conclusion cardiovascular biomaterials coated in HSA can effectively inhibit some bacterial adhesion to cardiovascular biomaterials.
结论用HSA预处理心血管生物材料可抑制某些细菌的黏附。
We think that the ideal bone repair material should be a composite of some kinds of biomaterials, which is similar to human bone tissue.
作者认为,将几类生物材料复合加工,研制出类似于人体骨组织的材料,将是今后骨修复材料的发展趋势。
But instead of using plastics, resins, and metals, bioprinters use special biomaterials that closely approximate functional, living tissue.
但生物打印机并不使用塑料、树脂和金属,它使用的是与活体组织类似的特殊生物材料。
In tissue engineering tissue are reconstructed by combining cells and biomaterials, that involves both cell differentiation and proliferation.
组织工程是通过细胞和生物材料的组合重建组织的,涉及细胞分化和细胞增殖。
To study the relationship between IOL biomaterials and visual acuity, anterior chamber inflammation and posterior capsule opacification (PCO).
研究人工晶体材料与术后视力、前房炎症反应以及后囊混浊的关系。
Biomaterials Survey: the composition and properties of selected biomaterials employed for the fabrication of permanent prostheses are summarized.
生物材料的寻找:在此摘要了被选用为制造永久弥补物的生物材料的成分和性质。
Tissue engineering and related biomaterials were introduced with points of view from the disciplinary fusion of material science and life science.
从材料科学与生命科学相融合的观点出发,介绍了组织工程及相关生物材料。
Medical biomaterials introduced in this paper, some medical equipments applied to clinical operations and their primary materials are also discussed.
本文除对医用生物材料作了简要叙述外,还详述了一些被成功运用于临床的医疗装备及其制造材料。
Our proven biomaterials are being used in a multitude of ways to improve the health, comfort and mobility of patients with a variety of health disorders.
我们的已获验证的生物材料,通过不同方式利来提高不同病症患者的健康、舒适度和机动性。
Of all kinds of metallic biomaterials, biomedical stainless steels are widely used in clinical field because of their excellent comprehensive properties.
在各类医用金属材料中,医用不锈钢因其优良的综合性能在临床及医疗领域得到了广泛应用。
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