氯氮䓬的快速水解可能会影响慢性渗透微泵研究的结果。

The rapid hydrolysis of chlordiazepoxide to demoxepam may affect the outcome of chronic osmotic minipump studies.

机构信息

Department of Psychopharmacology, Faculty of Science, Utrecht Institute for Pharmaceutical Sciences, Utrecht University, Sorbonnelaan 16, 3584 CA Utrecht, The Netherlands.

出版信息

Psychopharmacology (Berl). 2010 Mar;208(4):555-62. doi: 10.1007/s00213-009-1752-8.

DOI:10.1007/s00213-009-1752-8

PMID:20066402

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2813522/

Abstract

BACKGROUND

In chronic studies, the classical benzodiazepine chlordiazepoxide (CDP) is often the preferred drug because, unlike other benzodiazepines, it is soluble in water. However, rapid CDP hydrolysis in solution has been described. This would diminish plasma levels in chronic minipump studies and introduce the corelease of active compounds.

METHODS

Therefore, the present study aimed to explore the putative hydrolysis of CDP in aqueous solution over time and to identify the hydrolysis products. Moreover, we aimed to characterize the hydrolysis products for their in vitro (3H-flunitrazepam binding and oocyte electrophysiology) and in vivo (stress-induced hyperthermia paradigm) GABAA receptor potency.

RESULTS

CDP in solution hydrolyzed to the ketone structure demoxepam which was confirmed using mass spectrometry. The hydrolysis was concentration dependent (first-order kinetics) and temperature dependent. CDP exerted greater potency compared to demoxepam in vitro (increased activity at GABAA receptors containing α1 subunits) and in vivo (stress-induced hyperthermia), although 3H-flunitrazepam binding was comparable.

CONCLUSIONS

The classical benzodiazepine CDP is rapidly hydrolyzed in solution to the active compound demoxepam which possesses a reduced activity at the GABAA receptor. Chronic studies that use CDP in aqueous solution should thus be interpreted with caution. It is therefore important to consider drug stability in chronic minipump applications.

摘要

背景

在慢性研究中，经典的苯二氮䓬类药物地西泮（CDP）通常是首选药物，因为与其他苯二氮䓬类药物不同，它可溶于水。然而，已有报道称 CDP 在溶液中会迅速水解。这将降低慢性微量泵研究中的血浆水平，并导致活性化合物的共同释放。

方法

因此，本研究旨在探讨 CDP 在水溶液中随时间可能发生的水解，并鉴定水解产物。此外，我们旨在表征水解产物的体外（3H-氟硝西泮结合和卵母细胞电生理学）和体内（应激诱导性发热模型）GABAA 受体效力。

结果

溶液中的 CDP 水解生成酮结构的去甲西泮，这一点通过质谱得到了证实。水解是浓度依赖性（一级动力学）和温度依赖性的。与去甲西泮相比，CDP 在体外（在含有α1 亚基的 GABAA 受体中增加活性）和体内（应激诱导性发热）具有更高的效力，尽管 3H-氟硝西泮结合相似。

结论

经典苯二氮䓬类药物 CDP 在溶液中迅速水解生成活性化合物去甲西泮，其在 GABAA 受体上的活性降低。因此，使用水溶液中的 CDP 进行慢性研究时应谨慎解读。因此，在慢性微量泵应用中考虑药物稳定性非常重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7ddb/2813522/8bcdd169514f/213_2009_1752_Fig1_HTML.jpg

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氯氮䓬的快速水解可能会影响慢性渗透微泵研究的结果。

The rapid hydrolysis of chlordiazepoxide to demoxepam may affect the outcome of chronic osmotic minipump studies.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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