Effect of dilution on compressibility of naproxen in acetonitrile studied by ultrasonic method

W. Marczak, T. Kowalska, M. Bucek, D. Piotrowski, M. Sajewicz
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引用次数: 3

Abstract

Naproxen, ibuprofen, and ketoprofen are non-steroidal anti-inflammatory drugs. All of them belong to chiral 2-arylpropionic acids (2-APAs). Chiral compounds may remain in a patient's body as two antimers, even if administered as a single one, due to transenantiomerization. That is dangerous if therapeutic enantiomer has a toxic antipode. Chromatographic data suggest that solutions of 5-(+)-naproxen in acetonitrile are stiffer than the pure solvent that favours oscillatory transenantiomerisation. Acoustic and volumetric studies of dilute solutions of naproxen in acetonitrile have been undertaken to verify that supposition. The molar adiabatic compressibility and volume depend linearly on the molar percent of naproxen at temperatures from 298.15 K to 313.15 K. Limiting partial compressibility of naproxen is close to zero and decreases slightly with increasing temperature. Thus, the compressibility of dilute solutions is mainly due to compressibility of acetonitrile, while naproxen is virtually incompressible. The hydrogen-bonded dimers of naproxen probably remain intact, even at infinite dilution.
用超声波法研究了稀释度对萘普生在乙腈中可压缩性的影响
萘普生,布洛芬和酮洛芬是非甾体抗炎药。它们都属于手性2-芳基丙酸(2-APAs)。手性化合物可能在患者体内作为两个对映体存在,即使作为一个给药,由于转对映异构。如果治疗性对映体有一个有毒的对映体,这是危险的。色谱数据表明,5-(+)-萘普生在乙腈中的溶液比纯溶剂更坚硬,有利于振荡转映异构化。对萘普生在乙腈中的稀释溶液进行了声学和体积研究,以验证这一假设。在298.15 ~ 313.15 K的温度范围内,萘普生的摩尔百分数与摩尔绝热压缩率和体积呈线性关系。萘普生的极限部分压缩性接近于零,随温度升高而略有下降。因此,稀溶液的可压缩性主要是由于乙腈的可压缩性,而萘普生实际上是不可压缩的。萘普生的氢键二聚体可能保持完整,即使在无限稀释下。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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