Arima H, Kondo T, Irie T, Uekama K
Faculty of Pharmaceutical Sciences, Kumamoto University, Japan.
J Pharm Sci. 1992 Nov;81(11):1119-25. doi: 10.1002/jps.2600811116.
To improve the rectal delivery of ethyl 4-biphenylylacetate (EBA), a prodrug of the anti-inflammatory drug 4-biphenylylacetic acid (BPAA), the use of highly water-soluble 2-hydroxypropyl-beta-cyclodextrin (HP-beta-CyD) and heptakis(2,6-di-O-methyl)-beta-cyclodextrin (DM-beta-CyD) was investigated and compared with the use of the parent beta-cyclodextrin (beta-CyD). Among the three beta-CyDs, HP-beta-CyD was best at improving the rectal bioavailability of EBA in rats after single and multiple administrations of oleaginous suppositories (Witepsol H-5) containing the complexes. To gain insight into the enhancing effect of beta-CyDs, the absorption behaviors of EBA (observed by monitoring BPAA as an active metabolite of EBA) and beta-CyDs themselves were examined in vitro, in situ, and in vivo. The in situ recirculation study revealed that the complexed form of EBA was less absorbable from the rectal lumen in the solution state, but this disadvantageous effect of beta-CyDs was compensated in part by the inhibition of the bioconversion of EBA to BPAA. When beta-CyDs were coadministered with EBA in vivo, however, rather high amounts of HP-beta-CyD (approximately 26% of dose) and DM-beta-CyD (approximately 21% of dose), compared with beta-CyD (approximately 5% of dose), were absorbed from the rat rectum. Thus, the enhancement of rectal absorption of EBA in vivo can be explained by the facts that the hydrophilic beta-CyDs increased the release rate of EBA from the vehicle and stabilized EBA in the rectal lumen and that the drug was partly absorbed in the form of the complex.(ABSTRACT TRUNCATED AT 250 WORDS)
为提高抗炎药物4-联苯乙酸(BPAA)的前体药物4-联苯乙酸乙酯(EBA)的直肠给药效果,研究了高水溶性的2-羟丙基-β-环糊精(HP-β-CyD)和七(2,6-二-O-甲基)-β-环糊精(DM-β-CyD)的应用,并与母体β-环糊精(β-CyD)的应用进行比较。在这三种β-环糊精中,HP-β-CyD在单次和多次给予含复合物的油性栓剂(Witepsol H-5)后,对提高大鼠体内EBA的直肠生物利用度效果最佳。为深入了解β-环糊精的增强作用,对EBA(通过监测其活性代谢物BPAA来观察)和β-环糊精本身的吸收行为进行了体外、原位和体内研究。原位再循环研究表明,EBA的复合形式在溶液状态下从直肠腔的吸收性较差,但β-环糊精的这种不利影响部分被EBA向BPAA生物转化的抑制所补偿。然而,当β-环糊精在体内与EBA共同给药时,与β-CyD(约占剂量的5%)相比,相当大量的HP-β-CyD(约占剂量的26%)和DM-β-CyD(约占剂量的21%)从大鼠直肠吸收。因此,EBA在体内直肠吸收的增强可解释为亲水性β-环糊精提高了EBA从载体中的释放速率并使其在直肠腔内稳定,以及药物部分以复合物形式被吸收。(摘要截断于250字)