为确定药物对温氏附红细胞体病的体外杀灭效果,在70 mL RPMI-1640培养液中添加30 mL新生牛血清,2.0 g葡萄糖,0.20 g NaHCO3,37℃,体积分数为0.05的CO2条件下,进行了咪唑苯脲、磷酸伯氨喹、盐酸多西环素、敌百虫、延胡索酸泰妙菌素、依...为确定药物对温氏附红细胞体病的体外杀灭效果,在70 mL RPMI-1640培养液中添加30 mL新生牛血清,2.0 g葡萄糖,0.20 g NaHCO3,37℃,体积分数为0.05的CO2条件下,进行了咪唑苯脲、磷酸伯氨喹、盐酸多西环素、敌百虫、延胡索酸泰妙菌素、依沙吖啶、三氮眯、大蒜素注射液等8种药物对温氏附红细胞体的体外药物杀灭试验。结果表明,咪唑苯脲、磷酸伯氨喹的杀灭效果最好,且在有效浓度范围内对红细胞的影响较轻微;敌百虫、依沙吖啶的杀灭效果也很好,但是对红细胞的损伤较咪唑苯脲和磷酸伯氨喹重。因此,治疗温氏附红细胞体病应首选咪唑苯脲或磷酸伯氨喹,其次为敌百虫和依沙吖啶。展开更多
In this paper, we report fabrication of the bimetallic Janus microsphere, a magnesium microsphere with a silver surface coating, through thermal evaporation technique. Because of the Janus structure, this micromotor c...In this paper, we report fabrication of the bimetallic Janus microsphere, a magnesium microsphere with a silver surface coating, through thermal evaporation technique. Because of the Janus structure, this micromotor can be propelled in two different directions by the surface silver or magnesium ‘engine' and hydrogen peroxide or water fuel. In addition, due to the bactericidal property of silver, this autonomous micromotor is capable of killing bacteria in solution. As compared to the static one, the micromotor is able to kill the bacteria at a much faster rate(about nine times of that of the static one),demonstrating the superiority of the motion one. We thus believe that the micromotor shown in the current study is potentially attractive for the environmental hygiene applications.展开更多
文摘为确定药物对温氏附红细胞体病的体外杀灭效果,在70 mL RPMI-1640培养液中添加30 mL新生牛血清,2.0 g葡萄糖,0.20 g NaHCO3,37℃,体积分数为0.05的CO2条件下,进行了咪唑苯脲、磷酸伯氨喹、盐酸多西环素、敌百虫、延胡索酸泰妙菌素、依沙吖啶、三氮眯、大蒜素注射液等8种药物对温氏附红细胞体的体外药物杀灭试验。结果表明,咪唑苯脲、磷酸伯氨喹的杀灭效果最好,且在有效浓度范围内对红细胞的影响较轻微;敌百虫、依沙吖啶的杀灭效果也很好,但是对红细胞的损伤较咪唑苯脲和磷酸伯氨喹重。因此,治疗温氏附红细胞体病应首选咪唑苯脲或磷酸伯氨喹,其次为敌百虫和依沙吖啶。
基金supported by the National Natural Science Foundation of China(Grant No.21304064)the Natural Science Foundation of Jiangsu Province(Grant No.BK20130292)+2 种基金a Project Funded by the Priority Academic Program Development of Jiangsu Higher Education Institutions(PAPD)the Fund for Excellent Creative Research Teams of Jiangsu Higher Education Institutionsthe project-sponsored by SRF for ROCS,SEM
文摘In this paper, we report fabrication of the bimetallic Janus microsphere, a magnesium microsphere with a silver surface coating, through thermal evaporation technique. Because of the Janus structure, this micromotor can be propelled in two different directions by the surface silver or magnesium ‘engine' and hydrogen peroxide or water fuel. In addition, due to the bactericidal property of silver, this autonomous micromotor is capable of killing bacteria in solution. As compared to the static one, the micromotor is able to kill the bacteria at a much faster rate(about nine times of that of the static one),demonstrating the superiority of the motion one. We thus believe that the micromotor shown in the current study is potentially attractive for the environmental hygiene applications.