药代动力学
最大值
体内分布
化学
药理学
加药
组织分布
口服
吸收(声学)
分布(数学)
多酚
抗氧化剂
生物化学
医学
内科学
物理
数学分析
体外
数学
声学
作者
Swapna Maity,Anindita Ukil,J. R. Vedasiromoni,Pritha Das
出处
期刊:International Journal of Pharmacology
[Science Alert]
日期:2006-02-15
卷期号:2 (2): 240-246
被引量:5
标识
DOI:10.3923/ijp.2006.240.246
摘要
The present study was conducted to investigate the absorption, distribution and pharmacokinetics of TFDG in mice for which it was labeled with 125I. For comparison, the radiolabeled polyphenol was given either along with Black Tea Extract (BTE) or as pure TFDG. Following intravenous (5 mg kg-1) or intragastric (500 mg kg-1) administration, plasma and tissue levels were quantified by radioactive counting and the results were analysed by the SPSS program. Although lower than intravenous dosing, maximum plasma concentration (Cmax) for TFDG was achieved at 6 h post-oral dosing with an AUC0-α of 504.92 g min L-1, which was 20 fold higher than that for i.v. dosing. Maximum radioactivity (42%) was recovered in kidney following i.v., administration, whereas for oral administration maximum radioactivity (0.07%) was recovered in liver as revealed by tissue distribution studies. Uptake of TFDG was > 4-fold more efficient in hepatocytes than in non parenchymal cells. However, TFDG showed better absorption by various organs as well as by liver cells when given along with BTE. Moreover, a second equal administration of TFDG after 6 h interval enhanced tissue levels of radioactivity above those after a single administration. These results point towards a wide distribution of 125I-TFDG in mouse organs and suggest that frequent consumption of black tea may be better for increased systemic availability of polyphenols.
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