评估聚环氧乙烷作为片剂和挤出成型材料的潜在用途。

AAPS pharmSci Pub Date : 2004-04-14 DOI:10.1208/ps060215
João F Pinto, Kathrin F Wunder, Andrea Okoloekwe
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引用次数: 0

摘要

本研究旨在评估聚环氧乙烷(PEO)作为片剂和挤出物基质成型材料的潜在用途。对原材料的粒度、粒度分布和形状进行了表征。通过在 13 和 38 兆帕下直接压缩聚环氧乙烷、模型药物(盐酸普萘洛尔)和乳糖的混合物,制备了直径为 2 毫米和 10 毫米的片剂。在这些混合物中加水(16%-43%),然后在配有不同模具(直径 1、3、6 和 9 毫米,长度 4 毫米)的柱塞挤压机中挤出。分别对片剂和挤出物的压缩或挤出功、松弛度、拉伸强度、易碎性和药物释放进行了表征。两种聚醚砜都很容易制成片剂,而且具有不同的特性。观察到一些松弛现象,特别是在含有较多 PEO 的片剂中。药物的释放发生在基质溶胀之后,释放量在 10% 到 70% 之间,在大片剂中观察到了准零阶释放。只有含 16%至 50%水量的 PEO 制剂才能进行挤压。可以观察到塞子和挤出物的径向和轴向松弛。此外,不同的挤出曲线反映了不同配方的不同行为。模型药物的释放方式与片剂相同。通过直接压制,可以生产片剂,也可以用含有 PEO 的不同配方的挤出物生产挤出物或颗粒。片剂和颗粒具有不同的特性,取决于所考虑的 PEO。不同 PEO 配方的挤压尤其复杂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of the potential use of poly(ethylene oxide) as tablet- and extrudate-forming material.

The purpose of this study was to assess the potential use of poly(ethylene oxide) (PEO) as matrix-forming material for tablets and extrudates. Raw materials were characterized for size, size distribution, and shape. Tablets with 2- and 10-mm diameter were prepared by direct compression at both 13 and 38 MPa from mixtures with poly(ethylene oxide)s, a model drug (propranolol hydrochloride), and lactose. To these mixtures water was added (16%-43%) prior to extrusion in a ram extruder fit with different dies (1-, 3-, 6-, and 9-mm diameter and 4-mm length). Tablets and extrudates were characterized for work of compression or extrusion, respectively, relaxation, tensile strength, friability, and drug release. Both PEOs produced tablets easily and with different properties. Some relaxation was observed, particularly for tablets with higher amounts of PEOs. Release of the drug occurred after swelling of the matrix, and between 10% and 70% drug released, a quasi zero-order release was observed for large tablets. Extrusion was possible for formulations with PEO only with amounts of water between 16% and 50%. Both radial and axial relaxation of both plugs and extrudates were observed. Moreover, different extrusion profiles reflected the different behaviors of the different formulations. The model drug was released in the same fashion as observed for the tablets. It was possible to produce tablets by direct compression and extrudates or pellets from those extrudates from different formulations with PEO. Tablets and pellets have shown distinct properties depending upon the PEO considered. Extrusion was particularly complex with different formulations with PEO.

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