目的筛选口服缓释地尔硫的生物粘附材料。
ObjectiveTo screen bioadhesive materials for oral sustained-release diltiazem.
目的制备一种新型生物粘附材料-壳聚糖-巯基醋酸偶合物,并对其结构进行分析。
Objective To prepare a new bioadhesive material-chitosan-thioglycolic acid conjugates from chitosan, and analysed the structure moreover.
结论:CP与HPC(或HPMC)作为粘附材料制备丁卡因口腔粘附片能获得良好效果。
Conclusion: the good effect can be obtained on the buccal adhesive tablets when using CP and HPC (or HPMC) as the adhesive materials.
方法采用正交设计方法,确定生物粘附材料羟丙甲纤维素、卡波姆的用量及配比与制剂体外释放度及粘附力的关系。
Method Orthogonal design is used to determine the relation of the amount as well as proportion of hydroxypropyl methylcellulose and Carbopol with in vitro release and adhesive force of the tablets.
但是,该方法是有缺点的,因为在聚合物材料上形成的金属膜不均匀,与金属膜的粘附以及金属膜沉积的重现性差。
However, it has the disadvantages in that the metal film formed on the polymer materials is not uniform and adhesion with the metal film and the reproducibility for metal film deposition are inferior.
止血纺织材料在液体中形成胶体颗粒并吸附激活血小板,参与止血过程,血小板粘附率约50%。
These hemostatic textile materials can form colloidal particles in liquids, absorb activated platelets and take part in hemostasia. The platelet adhesion rate of these materials is about 50%.
本文综述了生物材料作为细胞外基质,对细胞粘附、细胞生长及细胞凋亡的影响。
This article reviewed the effect of biomaterial as ECMs on the adhesion, proliferation and apoptosis of cells.
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。
A model for evaluating the platelet adhesion of biomaterials is presented based on the complex evaluation of fuzzy mathematics.
采用体外凝血时间测定和血小板粘附实验对材料的抗凝血性能进行评价,结果表明,被修饰PV C材料的抗凝血性能显著提高。
The antithrombogenicity was determined by clotting time measurement in vitro and platelet adhesion experiment. It is shown that the antithrombogenicity of modified PVC materials is increased greatly.
此外,还可在所述膨润土颗粒层外再粘附一层水溶性材料保护层。
Besides, a layer of water-soluble material protection layer also can be adhered on the exterior of the described bentonite granules layer.
复合脂肪源性干细胞后细胞向材料内部迁移,粘附,生长良好。
After integrated with ADSCs, cells migrated into the ACM and adhered to the surface of material and grew well.
介绍了氯乙烯系树脂在粘附性材料上的应用。
The applications of vinyl chloride series resins in adhesive materials are introduced in this article.
作者研究了该类止血材料对血小板粘附及体外血栓形成的影响。
In this paper, the effect of these materials on platelet and thrombus formation is studied.
过氧化钙系生化材料,对牙齿有更好的粘附作用,从而使得美白效果愈加突出。
Calcium peroxide is available biologically. This means that it adheres better to the tooth and has a more intensive effect.
这种新材料既不会粘附细胞和细菌,又提供了一个潮湿的环境,保证伤口呼吸并加速伤口愈合。
The resulting material was slick to cells and bacteria, and it kept a moist environment, allowed the wound to breathe and encouraged healing.
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。
It is considered that biomaterials favorable for cell growth and attachment will develop the research in tissue engineered tendon.
本发明的可显影含碘聚合物和可显影含碘聚合物栓塞材料,具有无毒性、不粘附、易操作、安全、有效,具有显影功能。
The developable iodic polymer and the embolic material thereof have the advantages of nontoxicity, inadhesion, easy operation, high safety and effectiveness, and the function of development.
研究结果表明,羟基磷灰石功能梯度材料的激光涂层具有良好的粘附性,且具有生物相容性。
The results show that the laser coating of functionally gradiant HAp on Ti substrate is good adhesion and biocompatibility.
本涂料粘附力佳,正常使用下不会侵蚀任何材料,能快速干燥。
This lacquer is well-bonding, does not attack the materials in common use, and dries quickly.
本文介绍了有关细菌在材料表面粘附的理论,材料表面自由能与细菌在材料表面粘附的关系。
Increasing the surface free energy can improve (decrease) the adhesion of some kinds of bacteria. At last, some methods of the surface modification are reviewed.
本产品采用国际流行之亚克力高弹性高分子材料及国外最新之助剂特殊配制,与PVC,木地板等具有良好的粘附力。
Instructions: The product adopts Alec macromolecule material and latest high-tech pigment from abroad, with special formula. It is well adhesive to PVC, wooden floor and etc.
本文通过电泳法研究了五种高分子材料表面对血浆蛋白的吸附,使用扫描电镜观察了材料表面的血小板粘附状况。
In vitro adsorption of plasma protein on five polymer surfaces was studied by electrophoresis. Adhesion of platelet on these polymer surfaces was observed by scanning electron microscopy.
只是轻轻混合直到所有材料都合并成一个光滑粘附在一起,但不要过于劳累。
Mix gently just until all ingredients are combined together into a smooth paste, but don't overdo.
体外培养的皮肤成纤维细胞成功种植在支架材料上,在材料上粘附、生长良好。
The skin fibroblasts seeded successfully and were able to attach, grow well on the scaffolds.
体外培养的皮肤成纤维细胞成功种植在支架材料上,在材料上粘附、生长良好。
The skin fibroblasts seeded successfully and were able to attach, grow well on the scaffolds.
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