The Mechanical and In vitro Release Properties of Diazepam from Tablets Containing Fluid Bed Dried and Lyophilized Cocos nucifera Microcrystalline Cellulose

Asian Journal of Research in Medical and Pharmaceutical Sciences Pub Date : 2019-07-01 DOI:10.9734/AJRIMPS/2019/V7I330120

N. Nwachukwu, S. Ofoefule

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引用次数: 1

Abstract

Aim: This study aimed to evaluate the mechanical and in vitro release properties of diazepam from tablets containing fluid bed dried and lyophilized microcrystalline cellulose (MCC) obtained from the matured fruit husks of Cocos nucifera (CN). Study Design: Method of experiment. Place and Duration of Study: Department of Pharmaceutical Technology and Industrial Pharmacy, University of Nigeria, Nsukka from March 2015 to September, 2016 Methods: Dried CN fruit husks were digested in sodium hydroxide to obtain alpha (α) cellulose which on hydrolysis with mineral acid (Hydrochloric acid) solution gave CN-MCC. The dry MCC obtained by either fluid bed or lyophilized drying of the wet CN-MCC were coded MCCF-Cocos and MCCL-Cocos respectively. Both MCCs were used in the formulation of diazepam tablets at 20, 30 and 40% w/w. Avicel PH 102 (AVC-102), was used as comparing standard. The tablets were evaluated for physical and dissolution properties using standard methods. Results: Results show the tablets passed the British Pharmacopoeia specifications for weight uniformity, crushing strength, disintegration time, friability and dissolution. Diazepam tablets containing MCCL-Cocos (coded DCL) were mechanically stronger than those containing MCCF-Cocos (coded DCF). Disintegration time was in the order of DCF > DCL tablets while friability was in the order of DCL < DCF tablets. Diazepam tablets containing AVC-102 (coded DAV) were mechanically stronger than DCL and DCF tablets. The dilution potential was in the order DAV > DCL > DCF. More than 80% of the diazepam content was released from DAV, DCL and DCF tablets. Conclusion: Generally, DAV, DCL and DCF tablets met the British Pharmacopoeia limits for mechanical properties and in vitro drug release with DCL tablets showing significantly (P = .05) superior mechanical properties while DCF showed faster drug release.

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含床干和冻干椰子微晶纤维素片地西泮的力学和体外释放特性

目的:考察从成熟的椰子果皮中提取的流化床干燥和冻干微晶纤维素(MCC)片对地西泮的力学性能和体外释放性能。研究设计:实验方法。研究地点和时间:2015年3月- 2016年9月尼日利亚大学制药技术与工业药学系，Nsukka。方法:将干燥的CN果壳在氢氧化钠中消化得到α (α)纤维素，该纤维素经无机酸(盐酸)溶液水解得到CN- mcc。湿法CN-MCC的流化床干燥和冻干干燥得到的干式MCC分别编码为MCCF-Cocos和mcl - cocos。两种mcc分别以20、30和40% w/w配制地西泮片。以Avicel PH 102 (AVC-102)作为比较标准。采用标准方法测定其物理和溶出度。结果:所制片剂重量均匀性、粉碎强度、崩解时间、脆度、溶出度均符合英国药典标准。含有mcl - cocos(编码DCL)的地西泮片机械强度高于含有MCCF-Cocos(编码DCF)的地西泮片。崩解时间以DCF > DCL片为序，脆性以DCL < DCF片为序。含AVC-102(编码DAV)的地西泮片机械强度高于DCL和DCF片。稀释电位为:DAV > DCL > DCF。地西泮在DAV、DCL和DCF片中的释放量均超过80%。结论:DAV片、DCL片和DCF片的力学性能和体外释放度均符合英国药典标准，DCL片的力学性能明显优于DCF片(P = 0.05)， DCF片的释药速度更快。

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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Asian Journal of Research in Medical and Pharmaceutical Sciences

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