综述了生物医用铁系单质、合金、化合物、 磁性微球和免疫磁性微球的制备方法、性能和应用,并对其进行了评述。
The progress in preparation and application of iron metal or its alloy nano-materials , iron compound nano-materials and iron composite nano- materials are reviewed.
实验结果表明,纤维素磁性微球作为性能优良的新型磁性载体,更适于目的蛋白的免疫磁性分离。
The result suggested that MCMS were much more suitable for purification of aim proteins than other microspheres and showed an extensive application foreground for immunomagnetic separation.
因此,自70年代以来,磁性微球作为一种新型的功能材料,在细胞分离、蛋白质提纯、免疫测定和靶向药物等诸多领域有着广阔的应用前景。
Therefore, since 1970's, as a new type of functional material, it has gained broad applications in cell separation, protein purification, immunoassays, immobilized enzyme and target delivery of drug.
本项目把磁性微球固定在有良好的生物相容性的碳纤维表面,制备出免疫吸附磁性涂层碳纤维载体。
In this project, magnetic microspheres were fixed on the surface of the good biocompatibility carbon fibers to prepare immunoadsorption magnetic coated carbon fiber carrier.
方法:以同位素标记的单克隆抗体和微球的结合率为指标。用均匀设计法研究影响免疫磁性微球构建的因素。
Methods: What determines the binding percent of monoclonal antibodies to make magnetic beads is studied by uniform design methods, isotope marked antibody's binding percent as the criteria.
方法:以同位素标记的单克隆抗体和微球的结合率为指标。用均匀设计法研究影响免疫磁性微球构建的因素。
Methods: What determines the binding percent of monoclonal antibodies to make magnetic beads is studied by uniform design methods, isotope marked antibody's binding percent as the criteria.
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