使用 PEG 8000 进行双螺杆熔融制粒:粘合剂粒度和加工温度对颗粒和片剂性能的影响

IF 4.2 2区 工程技术 Q2 ENGINEERING, CHEMICAL
Zoltán Márk Horváth, Liga Petersone, Valentyn Mohylyuk
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引用次数: 0

摘要

双螺杆熔融制粒(TSMG)是生产药品和营养保健品固体制剂的一种前景广阔的绿色技术方法。PEG 8000 是最常用的 TSMG 粘合剂之一。文献中描述了不同低熔等级的 PEG 对 TSMG 颗粒特性的影响,但对它们对片剂机械特性的影响关注不够。本研究旨在探讨 PEG 8000 粒度和双螺杆熔融制粒温度对 MCC-CaHPO4 制粒粉末和片剂性能的影响。研究了中等 PEG 8000 粒径(200-400 微米)对熔融制粒温度的影响。在 115、135 和 155 °C 温度下研究了熔融制粒温度的影响,而在 135 °C 温度下,使用小、中、大颗粒(分别为 0-200、200-400 和 400-500 微米)研究了 PEG 8000 粒径的影响。采用显微镜方法对颗粒进行了研究,并对其流动性、休止角、粒度分布、堆积密度和堆积密度进行了表征。片剂是用压实模拟器制备的。片剂分析提供了各自的模内赫克图、塑性能和弹性能曲线,以及可压片性、可压缩性和可压实性。显微方法揭示了 PEG 8000 粒度对颗粒和片剂结构的影响,并假设了制粒温度的影响。这些见解被用来解释使用不同 PEG 8000 粒度组分和不同熔融造粒温度制备的片剂在机械性能上的差异。尽管粉末流变性有所改善,但与未制粒的直接压缩 MCC-CaHPO4 相比,通过熔融制粒用 PEG 8000 制剂制备的片剂显示出更高的可塑性和更低的抗拉强度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Twin-screw melt granulation with PEG 8000: Effect of binder particle size and processing temperature on the granule and tablet properties

Twin-screw melt granulation with PEG 8000: Effect of binder particle size and processing temperature on the granule and tablet properties

Twin-screw melt granulation (TSMG) is one of the promising green technological approaches for the manufacturing of solid dosage forms of pharmaceuticals and nutraceuticals. PEG 8000 is one of the most popular TSMG binders. The effect of different low-melting grades of PEG on the TSMG granules’ properties is described in the literature, however, not enough attention was paid to their effect on the mechanical properties of tablets. The aim of this study was to investigate the effect of PEG 8000 particle size and twin-screw melt granulation temperature on the properties of resultant MCC-CaHPO4 granulated powder and tablets. The effect of melt granulation temperature was investigated with a medium PEG 8000 fraction (200–400 µm). While the effect of melt granulation temperature was explored at 115, 135, and 155 °C, the effect of PEG 8000 particle size was investigated using small, medium, and big fractions (0–200, 200–400, and 400–500 µm, respectively) at 135 °C. The granules were investigated by microscopic methods and were characterised in terms of flowability, angle of repose, particle size distribution, bulk and tapped density. Tablets were prepared with a compaction simulator. The analysis of the tablets provided their respective in-die Heckel plots, plastic energy and elastic energy profiles, as well as tabletability, compressibility, and compactability. The microscopic methods reveal the effect of PEG 8000 particle size on the granule and tablet structure, as well as assume the effect of granulation temperature. These insights were used to explain the differences between the mechanical properties of the tablets that were prepared using different PEG 8000 particle size fractions and at various melt granulation temperature. Despite the improved powder rheology, the tablets prepared with the PEG 8000 formulation via melt granulation have shown higher plasticity and lower tensile strength compared to ungranulated directly compressed MCC-CaHPO4.

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来源期刊
Advanced Powder Technology
Advanced Powder Technology 工程技术-工程:化工
CiteScore
9.50
自引率
7.70%
发文量
424
审稿时长
55 days
期刊介绍: The aim of Advanced Powder Technology is to meet the demand for an international journal that integrates all aspects of science and technology research on powder and particulate materials. The journal fulfills this purpose by publishing original research papers, rapid communications, reviews, and translated articles by prominent researchers worldwide. The editorial work of Advanced Powder Technology, which was founded as the International Journal of the Society of Powder Technology, Japan, is now shared by distinguished board members, who operate in a unique framework designed to respond to the increasing global demand for articles on not only powder and particles, but also on various materials produced from them. Advanced Powder Technology covers various areas, but a discussion of powder and particles is required in articles. Topics include: Production of powder and particulate materials in gases and liquids(nanoparticles, fine ceramics, pharmaceuticals, novel functional materials, etc.); Aerosol and colloidal processing; Powder and particle characterization; Dynamics and phenomena; Calculation and simulation (CFD, DEM, Monte Carlo method, population balance, etc.); Measurement and control of powder processes; Particle modification; Comminution; Powder handling and operations (storage, transport, granulation, separation, fluidization, etc.)
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