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脂质体导向给药治疗缺血性心脏病的可行性研究(Ⅰ) 总被引:2,自引:0,他引:2
本工作在离体大鼠心肌细胞、离体灌流大鼠和家兔心脏模型上,对脂质体作为药物载体导向治疗缺血性心脏病的可行性进行了基础研究。结果表明,心肌细胞可通过融合(Fusion)、内吞(Endocytosis)、吸附(Adsorption)和磷脂分子交换(Exchange)四种方式与脂质体相互作用。细胞摄取脂质体的方式主要取决于脂质体的理化性质。缺氧改变了心肌细胞对脂质体的摄取方式并增加其摄取能力。缺血心肌组织对脂质体、尤其对带正电荷脂质体的摄取显著增加。其摄取量按序为缺血-再灌注区>梗塞边缘区>非缺血区>梗塞区。上述实验结果提示:脂质体作为药物载体可将药物输送到缺血心肌组织和心肌细胞内。 相似文献
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将选择性5-HT2C受体激动剂类减肥药绿卡色林分子中的仲胺转化成氨基甲酸酯类前药,设计合成了13个氨基甲酸酯类化合物.新化合物的结构经核磁共振波谱、红外光谱及高分辨质谱确证.通过体外代谢稳定性实验,筛选出半衰期长且可通过代谢持续产生绿卡色林的新化合物6b.对化合物6b的大鼠减肥药理实验结果表明,在日剂量相同的条件下,化合物6b给药1次/d比绿卡色林给药2次/d的减肥效果略好. 相似文献
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This paper reports the basic research on the possibility of using targeting treatment for ischemic heart disease with liposome as drug carrier. Studies have been performed on isolated rat cardiomyocytes, or isolated perfused rat and rabbit hearts. Results show that cardiomyocytes may interact with liposome through fusion, endocytosis, adsorption and molecular exchange of phospholipid. Forms of cellular uptake of liposome depend chiefly on the physicochemical properties of liposomes. Anoxia changes the pattern of liposome uptake by cardiomyocytes and increases uptake of liposomes. Uptake of liposomes, especially of positively charged liposomes by ischemic myocardium is significantly increased. The quantity of increase of liposome uptake is in the following order: ischemia-reperfusion area>peripheral area of the infarct>non-ischemic area>infarcted area. The above results indicate that liposome as drug carrier might promote the delivery of drug into ischemic myocardium and cardiomyocytes. 相似文献
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Studies on the isolated rat heart perfusion model have proved that perfusion with high Ca_(2+) (4.5 mmol/L), high K~+ (8.7 mmol/L) or tree radical generating system (FRGS) significantly increases myocardial uptake of liposomes. Intravenous injection of liposomes covalently combined with antibody of rat myocardial cells obviously elevates the target action of liposomes to myocardium. Liposome-carried SOD for treatment of rat myocardial ischemia-repertusion injury is much more effective than simple SOD. The results evidence that the liposome as drug carrier for treatment of ischemic heart diseases shows a broad prospect for its clinical use. 相似文献
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