功能化碳酸钙作为一种新型药用辅料用于制备口腔分散片。

Functionalized calcium carbonate as a novel pharmaceutical excipient for the preparation of orally dispersible tablets.

机构信息

Department of Pharmaceutical Science Division of Pharmaceutical Technology, University Basel, Klingelbergstrasse 50, 4056 Basel, Switzerland.

出版信息

Pharm Res. 2013 Jul;30(7):1915-25. doi: 10.1007/s11095-013-1034-3. Epub 2013 Apr 19.

DOI:10.1007/s11095-013-1034-3

PMID:23604923

Abstract

PURPOSE

To overcome the limitation of insufficient hardness during the production of rapidly disintegrating orally dispersible tablets (ODTs). Furthermore, we investigated the properties and usefulness of functionalized calcium carbonate (FCC) as a new pharmaceutical excipient for the production of ODTs.

METHODS

A highly sensitive tensiometer-based method was developed to measure kinetics of weight loss during tablet disintegration. With this method we were able to determine the residence time of tablets placed on a basket immersed into a test medium. The shapes of tensiometer plots allowed us to categorize substances into four different types of disintegration.

RESULTS

At the same volume and hardness, the tablet formulations with FCC showed a significantly higher porosity (over 60%) than all other formulations. Residence time depended mainly on the tablet composition rather than on porosity. When combined with disintegrants, FCC formulations exhibited favorable disintegration properties, comparable to those of the marketed drug risperidone oro (disintegration time ca. 10 s).

CONCLUSIONS

Oral dosage forms--based on the new pharmaceutical excipient FCC--can be designed to have a short disintegration time combined with good mechanical strength. Due to these properties, FCC can be used for the preparation of ODTs.

摘要

目的

克服快速崩解口腔分散片（ODT）生产过程中硬度不足的限制。此外，我们研究了功能化碳酸钙（FCC）作为生产 ODT 的新型药物赋形剂的特性和用途。

方法

开发了一种基于高灵敏度张力计的方法来测量片剂崩解过程中的失重动力学。使用该方法，我们能够确定放置在浸入测试介质的篮中的片剂的停留时间。张力计图的形状使我们能够将物质分为四种不同类型的崩解。

结果

在相同的体积和硬度下，含有 FCC 的片剂配方显示出比所有其他配方更高的孔隙率（超过 60%）。停留时间主要取决于片剂的组成，而不是孔隙率。当与崩解剂结合使用时，FCC 配方表现出良好的崩解性能，可与市售药物利培酮口腔崩解片（崩解时间约为 10 秒）相媲美。

结论

基于新型药物赋形剂 FCC 的口服剂型可以设计成具有短的崩解时间和良好的机械强度。由于这些特性，FCC 可用于制备 ODT。

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功能化碳酸钙作为一种新型药用辅料用于制备口腔分散片。

Functionalized calcium carbonate as a novel pharmaceutical excipient for the preparation of orally dispersible tablets.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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