开发具有改善的溶解性能和药代动力学行为的美洛昔康盐，用于改善胃动力障碍大鼠的状况。

Development of meloxicam salts with improved dissolution and pharmacokinetic behaviors in rats with impaired gastric motility.

机构信息

Department of Pharmacokinetics and Pharmacodynamics School of Pharmaceutical Sciences, University of Shizuoka, 52-1 Yada, Suruga-ku, Shizuoka, 422-8526, Japan.

出版信息

Pharm Res. 2013 Feb;30(2):377-86. doi: 10.1007/s11095-012-0878-2. Epub 2012 Sep 15.

DOI:10.1007/s11095-012-0878-2

PMID:22983645

Abstract

PURPOSE

Because of its poor solubility in acidic solution, oral absorption and efficacy of meloxicam (MEL) may be reduced in severe pain patients with impaired gastric motility. The present study aimed to develop salt forms to overcome these drawbacks.

METHOD

Upon MEL salt screening with eight counterions, five MEL salts were obtained. The physicochemical properties of these MEL salts were characterized with a focus on morphology, crystallinity, thermal behavior, dissolution, and chemical/photo-stability. Pharmacokinetic profiling of an orally administered MEL salt was also carried out in both normal rats and rats treated with propantheline for the suppression of gastric motility.

RESULTS

Dissolution behaviors for all obtained MEL salts were markedly better than that of crystalline MEL; in particular, the initial dissolution rate of arginine MEL dihydrate (MEL/Arg) was ca. 14-fold higher than that of crystalline MEL. MEL/Arg was found to be chemically and physically stable. There was ca. 18-fold reduction of AUC(0-4) for orally dosed crystalline MEL (1.0 mg-MEL/kg) in propantheline-treated rats compared with that in normal rats. In contrast, there was only a ca. 3-fold difference in AUC(0-4) between normal and propantheline-treated rats after oral administration of MEL/Arg (1.0 mg-MEL/kg).

CONCLUSION

From these findings, MEL/Arg may provide improved oral absorption in severe pain patients.

摘要

目的

由于在酸性溶液中的溶解度较差，因此在胃动力受损的严重疼痛患者中，美洛昔康（MEL）的口服吸收和疗效可能会降低。本研究旨在开发盐形式以克服这些缺点。

方法

在对八种抗衡离子进行 MEL 盐筛选后，获得了五种 MEL 盐。这些 MEL 盐的物理化学性质是通过重点关注形态，结晶度，热行为，溶解和化学/光稳定性来进行表征的。还在正常大鼠和用丙胺太林抑制胃动力的大鼠中进行了口服 MEL 盐的药代动力学研究。

结果

所有获得的 MEL 盐的溶解行为均明显优于结晶 MEL；特别是精氨酸 MEL 二水合物（MEL/Arg）的初始溶解速率约为结晶 MEL 的 14 倍。发现 MEL/Arg 在化学上和物理上均稳定。与正常大鼠相比，在给予丙胺太林的大鼠中，口服给予结晶 MEL（1.0 mg-MEL/kg）的 AUC（0-4）减少了约 18 倍。相比之下，在口服给予 MEL/Arg（1.0 mg-MEL/kg）后，正常大鼠和给予丙胺太林的大鼠之间的 AUC（0-4）仅相差约 3 倍。

结论

从这些发现来看，MEL/Arg 可能会改善严重疼痛患者的口服吸收。

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开发具有改善的溶解性能和药代动力学行为的美洛昔康盐，用于改善胃动力障碍大鼠的状况。

Development of meloxicam salts with improved dissolution and pharmacokinetic behaviors in rats with impaired gastric motility.

机构信息

出版信息

PURPOSE

METHOD

RESULTS

CONCLUSION

目的

方法

结果

结论

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