本文采用分光光度法测定水中目的物肝素浓度来计算吸附量,结果表明,半交联壳聚糖珠对肝素有较好的吸附效果。
The maximum adsorption of heparin sodium solution was determined by spectrophotometry . The results showed that semi crosslinked chitosan resius have a good adsorption properties for heparin.
采用枸橼酸钠和肝素两种抗凝剂,对79例正常人和36例病人的红细胞沉降率进行了测定。
Methods Erythrocyte sedimentation rate of 79 normal controls and 36 patients was determined with sodium citrate and heparin.
将该方法应用于肝素钠注射液浓度的测定,结果令人满意。
The method has been applied to determine the heparin sodium injection solution with satisfactory results.
然后,分别进行“配对差异”试验和“剂量效应”试验以及肝素干扰LAP测定的浓度范围的评价。
The "paired difference" experiment and "dose-response" experiment were determined. LAP concentration range of heparin interference was evaluated.
方法:对比测定了30例肝素锂抗凝血浆和血清标本的28项生化检验指标。
Methods Opposite test 28 biochemical index of 30 anticoagulant blood plasma with heparin Lithium and blood serum.
动物实验方面,采用胶原酶合肝素复制大鼠脑出血模型。测定大鼠脑含水量、血浆生化等指标。
In experiment, the rat models of AICH was created by collagenase with heparin, the brain water content and plasma biochemical index were observed.
目的测定低分子肝素的分子量及其分布。
OBJECTIVE To determine the molecular weight and molecular weight distribution of low molecular weight heparin (LMWH).
目的:测定肝素及其类似物中游离和结合硫酸根含量。
Objective: To determine the content of free and linked sulfate content of heparin and heparin-like materials.
本文对肝素的结构和性能,肝素化聚合物的研究进展,以及肝素化聚合物的表征和抗凝血性能的测定进行了扼要综述。
The structure and properties of heparin, the research advance of heparinized polymer, the characterization and antithrombogenic of title polymer have been reviewed.
结论:本文实验方法可以用于肝素类样品游离和结合硫酸根的测定。
Conclusion: This HPAEC method could be used to determine the content of free and linked sulfate of heparin-like materials.
目的从不同来源制备硫酸乙酰肝素(HS),并测定其理化性质。
PurposeTo prepare heparan sulfate (HS) from different sources, and to determine their physicochemical properties.
通过活化部分凝血激酶时间(APTT)的方法测定肝素铁纳米粒的抗凝血活性。
The anticoagulant activity of iron heparin nanoparticles were tested by activated partial thromboplastin time (APTT) assay.
通过活化部分凝血激酶时间(APTT)的方法测定肝素铁纳米粒的抗凝血活性。
The anticoagulant activity of iron heparin nanoparticles were tested by activated partial thromboplastin time (APTT) assay.
应用推荐