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本文引用的文献

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Controlled drug release from hydrogel-based matrices: Experiments and modeling.水凝胶基基质中药物的控制释放:实验与模拟。
Int J Pharm. 2015;486(1-2):144-52. doi: 10.1016/j.ijpharm.2015.03.054. Epub 2015 Mar 28.
2
New insights on how to adjust the release profile from coated pellets by varying the molecular weight of ethyl cellulose in the coating film.通过改变包衣膜中乙基纤维素的分子量来调整包衣微丸释放曲线的新见解。
Int J Pharm. 2013 Dec 15;458(1):218-23. doi: 10.1016/j.ijpharm.2013.09.016. Epub 2013 Sep 25.
3
Mechanistic modelling of drug release from polymer-coated and swelling and dissolving polymer matrix systems.聚合物涂层和溶胀溶解聚合物基质系统中药物释放的机理建模。
Int J Pharm. 2011 Oct 10;418(1):54-77. doi: 10.1016/j.ijpharm.2011.01.021. Epub 2011 Jan 21.
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Polymer blends for controlled release coatings.用于控释包衣的聚合物共混物。
J Control Release. 2008 Jan 4;125(1):1-15. doi: 10.1016/j.jconrel.2007.09.012. Epub 2007 Oct 13.
5
Simulation of the release from a multiparticulate system validated by single pellet and dose release experiments.通过单颗粒和剂量释放实验验证的多颗粒系统释放的模拟。
J Control Release. 2004 Jul 7;97(3):453-65. doi: 10.1016/j.jconrel.2004.03.024.
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Simulation and parametric study of a film-coated controlled-release pharmaceutical.
J Control Release. 2002 Apr 23;80(1-3):229-45. doi: 10.1016/s0168-3659(02)00033-0.
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Experimental determination of the theophylline diffusion coefficient in swollen sodium-alginate membranes.
J Control Release. 2001 Sep 11;76(1-2):93-105. doi: 10.1016/s0168-3659(01)00424-2.
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Drug release from an ensemble of swellable crosslinked polymer particles.
J Control Release. 2000 Jul 31;68(1):97-113. doi: 10.1016/s0168-3659(00)00241-8.
9
Effect of diffusion layer pH and solubility on the dissolution rate of pharmaceutical acids and their sodium salts. II: Salicylic acid, theophylline, and benzoic acid.扩散层pH值和溶解度对药用酸及其钠盐溶解速率的影响。II:水杨酸、茶碱和苯甲酸。
J Pharm Sci. 1985 Feb;74(2):148-54. doi: 10.1002/jps.2600740209.
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Variation of population release kinetics in polydisperse multiparticulate systems (microcapsules, microspheres, droplets, cells) with heterogeneity of one, two or three parameters in the population of individuals.
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包衣微丸群药物释放的数学建模。

Mathematical modelling of the drug release from an ensemble of coated pellets.

作者信息

Caccavo Diego, Lamberti Gaetano, Cafaro Maria Margherita, Barba Anna Angela, Kazlauske Jurgita, Larsson Anette

机构信息

Department of Industrial Engineering, University of Salerno, Fisciano, SA, Italy.

Department of Pharmacy, University of Salerno, Fisciano, SA, Italy.

出版信息

Br J Pharmacol. 2017 Jun;174(12):1797-1809. doi: 10.1111/bph.13776. Epub 2017 Apr 22.

DOI:10.1111/bph.13776
PMID:28276575
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5446588/
Abstract

BACKGROUND AND PURPOSE

Coated pellets are widely used as oral drug delivery systems, being highly accepted by patients and with several advantages compared to single unit devices. However, their behaviour needs to be elucidated so as to improve the effectiveness of the formulations and reduce production costs. In spite of this important issue, few mathematical modelling studies have been attempted, mostly due to the complexities arising from the system's polydispersity (non-homogeneous multiple-unit particulate systems), which has been scarcely investigated using mechanistic models.

EXPERIMENTAL APPROACH

A mechanistic mathematical model was developed that was able to describe the single pellet behaviour in terms of hydration, drug dissolution, diffusion and release and particle size. This model was then extended to describe and predict the behaviour of mono- and polydispersed ensembles of pellets.

KEY RESULTS

The polydispersity arising from the size and distribution of the inert core was shown to have a minimal effect on the drug release profile, whereas the thickness and distribution of the polymeric film was found to be the key parameter determining the drug release.

CONCLUSIONS AND IMPLICATIONS

The mechanistic model developed, which is capable of determining the polydispersity of the drug delivery system, was able to predict the release kinetics from ensembles of pellets and to highlight the key parameters that need to be controlled in the production of pellet-based drug delivery systems, demonstrating its use as a powerful predictive tool.

摘要

背景与目的

包衣微丸作为口服给药系统被广泛应用,深受患者认可,与单一剂型相比具有诸多优势。然而,需要阐明其行为,以提高制剂的有效性并降低生产成本。尽管这一问题很重要,但很少有人尝试进行数学建模研究,主要是因为该系统的多分散性(非均相多单元颗粒系统)会带来复杂性,而利用机理模型对其进行的研究很少。

实验方法

建立了一个机理数学模型,该模型能够从水化、药物溶解、扩散、释放以及粒径方面描述单个微丸的行为。然后将该模型扩展,以描述和预测单分散及多分散微丸组合体的行为。

关键结果

结果表明,惰性核的大小和分布所产生的多分散性对药物释放曲线影响极小,而聚合物膜的厚度和分布是决定药物释放的关键参数。

结论与意义

所建立并能够确定给药系统多分散性的机理模型,能够预测微丸组合体的释放动力学,并突出了基于微丸的给药系统生产中需要控制的关键参数。这证明了该模型可作为一种强大的预测工具。