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多孔淀粉负载青蒿素微球的溶出、生物利用度和组织分布研究
引用本文:赵雪,杨逢建,葛云龙,王玲玲,李汶罡,邓怡平,赵修华. 多孔淀粉负载青蒿素微球的溶出、生物利用度和组织分布研究[J]. 植物研究, 2019, 39(4): 604-612. DOI: 10.7525/j.issn.1673-5102.2019.04.015
作者姓名:赵雪  杨逢建  葛云龙  王玲玲  李汶罡  邓怡平  赵修华
作者单位:东北林业大学, 哈尔滨 150040
基金项目:黑龙江省林业科技项目(逊克)(HLJXK01);青蒿素及其衍生物抗肿瘤及其功能机制的研究(2572016AA37)
摘    要:探讨多孔淀粉负载青蒿素微球(ART-PS)在体外溶出实验中,相比于青蒿素原药的溶出效果以及在大鼠体内的生物利用度和组织分布规律。在体外溶出实验中,分别在水、人工胃液和人工肠液三种溶出介质中,与青蒿素原药的溶出效果进行比较分析。在体内生物利用度实验中,通过对18只大鼠分别灌胃青蒿素原药与多孔淀粉负载青蒿素微球后,检测不同时间点的血药浓度,考察药物在大鼠体内的吸收和代谢差异。在组织分布规律的研究中,对98只大鼠分别灌胃多孔淀粉负载青蒿素微球和青蒿素原药,在不同时间点检测大鼠心、肝、脾、肺、肾、脑,共6个组织器官中的药物浓度。多孔淀粉负载青蒿素微球的体外溶出率在水、人工胃液、人工肠液中分别是青蒿素原药的4.04、3.59和3.82倍。多孔淀粉负载青蒿素微球在大鼠体内的血药浓度明显高于青蒿素原药,生物利用度提高为青蒿素原药的2.90倍。在组织分布的结果中,多孔淀粉负载青蒿素微球和青蒿素原药都主要分布在心脏和肝脏中,其中多孔淀粉负载青蒿素微球在不同时间各个组织中的相应含量都比原药高。多孔淀粉负载青蒿素微球相比于青蒿素原药,在体外的溶出效果更好,在体内的吸收释放效果更佳,在各组织器官中的药物含量明显高于原药,为解决青蒿素因难溶于水而在实际应用中受限提供了重要的理论依据。

关 键 词:青蒿素  溶出  生物利用度
收稿时间:2019-01-24

Dissolution,Bioavailability and Tissue Distribution of Artemisinin Microspheres Loaded With Porous Starch
ZHAO Xue,YANG Feng-Jian,GE Yun-Long,WANG Ling-Ling,LI Wen-Gang,DENG Yi-Ping,ZHAO Xiu-Hua. Dissolution,Bioavailability and Tissue Distribution of Artemisinin Microspheres Loaded With Porous Starch[J]. Bulletin of Botanical Research, 2019, 39(4): 604-612. DOI: 10.7525/j.issn.1673-5102.2019.04.015
Authors:ZHAO Xue  YANG Feng-Jian  GE Yun-Long  WANG Ling-Ling  LI Wen-Gang  DENG Yi-Ping  ZHAO Xiu-Hua
Affiliation:Northeast Forestry University, Harbin 150040
Abstract:To investigate the dissolution effect of artemisinin microspheres(ART-PS) loaded with porous starch in vitro compared with artemisinin, bioavailability and tissue distribution in rats, in the in vitro dissolution experiment, the dissolution effect of artemisinin was compared with that of artemisinin in water, artificial gastric juice and artificial intestinal fluid. In the in vivo bioavailability experiment, 18 rats were given artemisinin raw drug and porous starch loaded artemisinin microspheres respectively, and the blood drug concentrations at different time points were detected to investigate the differences in drug absorption and metabolism in rats. In the tissue distribution, the drug contents in heart, liver, spleen, lung, kidney and brain of 98 rats were detected at different points in time by gavage of porous starch loaded artemisinin microspheres and artemisinin active drugs. The dissolution rates of artemisinin microspheres loaded with porous starch in vitro were 4.04, 3.59 and 3.82 times higher than those of artemisinin in water, artificial gastric juice and artificial intestinal fluid, respectively. The blood content of artemisinin microspheres loaded with porous starch in rats was significantly higher than that of artemisinin, and the bioavailability was 2.90 times higher than that of artemisinin. In the results of tissue distribution, artemisinin microspheres loaded with porous starch and artemisinin active drugs were mainly distributed in the heart and liver, and the corresponding content of artemisinin active starch active microspheres in different tissues at different times was higher than that of active drugs. Compared with artemisinin, artemisinin microspheres loaded with porous starch have better dissolution effect in vitro and better absorption and release effect in vivo. The drug content in various tissues and organs is significantly higher than that of the original drug, providing an important theoretical basis for solving the limitation of artemisinin in practical application due to its insoluble in water.
Keywords:artemisinin  dissolution  bioavailability  
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