blood compatibility studies 血液共容性试验
Blood compatibility testing 血液兼容性试验
Blood Compatibility of polymer materials 第八章
the blood compatibility 血液相容性
Blood compatibility of titanium oxide film was investigated through in vitro and in vivo experiments.
通过体内和体外实验,研究了氧化钛薄膜的血液相容性。
参考来源 - 改善热解碳人工心脏瓣膜材料血液相容性的研究Blood compatibility of titanium oxide film was investigated through in vitro and in vivo experiments.
通过体内和体外实验,研究了氧化钛薄膜的血液相容性。
参考来源 - 改善热解碳人工心脏瓣膜材料血液相容性的研究While recent experimental studies on surface-grafted zwitterionic biomaterials have proved good blood compatibility, the validity of this hypothesis still needs to be testified from the interactions between zwitterionic surface and biosystem on the sub-molecular level.
以这一假说为指导合成出的一系列表面接枝两性离子生物材料也已经为实验所证实具有优良的不凝血性能。 但是,“维持正常构象假说”是否正确,尚未从两性离子材料与生物体系相互作用的分子层次的机制上给出证明。
参考来源 - 分子动力学模拟研究两性离子结构对聚13丙氨酸(PolyAlanine13)肽链在水溶液中天然行为的维持·2,447,543篇论文数据,部分数据来源于NoteExpress
N-Hexanoylchitisan membrane has the best blood compatibility.
已酰化壳聚糖膜具有良好的血液相容性。
The rutile Ti-O film has the similar blood compatibility compared with the low temperature isotropic pyrolytic carbon.
金红石型氧化钛薄膜具有与热解碳相当的血液相容性。
The results of blood compatibility show that: (1) heparin can maintain the structures of hemocyte and plasma proteins.
抗凝血生物材料血液相容性研究表明:(1)肝素对维持血细胞及蛋白正常结构的功效显著。
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