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Tumor-preferential sustained drug release enhances antitumor activity of block copolymer micelles.肿瘤优先的持续药物释放增强了嵌段共聚物胶束的抗肿瘤活性。
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Dynamic, nonsink method for the simultaneous determination of drug permeability and binding coefficients in liposomes.用于同时测定脂质体中药物渗透率和结合系数的动态、非沉降法
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The role of pH and ring-opening hydrolysis kinetics on liposomal release of topotecan.pH 值和开环水解动力学对拓扑替康脂质体释放的作用。
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Determination of drug release kinetics from nanoparticles: overcoming pitfalls of the dynamic dialysis method.纳米粒药物释放动力学的测定:克服动态透析法的缺陷。
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pH-triggered intracellular release from actively targeting polymer micelles.pH 触发的主动靶向聚合物胶束的细胞内释放。
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Triggered release from liposomes through magnetic actuation of iron oxide nanoparticle containing membranes.通过含氧化铁纳米粒子的脂质体膜的磁场驱动触发脂质体释放。
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通过机理模型测定阿霉素在聚合物胶束中的释放、分配及结合稳定性。

Release, partitioning, and conjugation stability of doxorubicin in polymer micelles determined by mechanistic modeling.

作者信息

Ponta Andrei, Fugit Kyle D, Anderson Bradley D, Bae Younsoo

机构信息

Department of Pharmaceutical Sciences, College of Pharmacy, University of Kentucky, 789 South Limestone, Lexington, Kentucky, 40536-0596, USA.

出版信息

Pharm Res. 2015 May;32(5):1752-63. doi: 10.1007/s11095-014-1573-2. Epub 2014 Nov 19.

DOI:10.1007/s11095-014-1573-2
PMID:25407546
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4382418/
Abstract

PURPOSE

To better understand the mechanistic parameters that govern drug release from polymer micelles with acid-labile linkers.

METHODS

A mathematical model was developed to describe drug release from block copolymer micelles composed of a poly(ethylene glycol) shell and a poly(aspartate) core, modified with drug binding linkers for pH-controlled release [hydrazide (HYD), aminobenzoate-hydrazide (ABZ), or glycine-hydrazide (GLY)]. Doxorubicin (Dox) was conjugated to the block copolymers through acid-labile hydrazone bonds. The polymer drug conjugates were used to prepare three polymer micelles (HYD-M, ABZ-M, and GLY-M). Drug release studies were performed to identify the factors governing pH-sensitive release of Dox. The effect of prolonged storage of copolymer material on release kinetics was also observed.

RESULTS

Biphasic drug release kinetics were observed for all three micelle formulations. The developed model was able to quantify observed release kinetics upon the inclusion of terms for unconjugated Dox and two populations of conjugated Dox. Micelle/water partitioning of Dox was also incorporated into the model and found significant in all micelles under neutral conditions but reduced under acidic conditions. The drug binding linker played a major role in drug release as the extent of Dox release at specific time intervals was greater at pH 5.0 than at pH 7.4 (HYD-M > ABZ-M > GLY-M). Mathematical modeling was also able to correlate changes in release kinetics with the instability of the hydrazone conjugation of Dox during prolonged storage.

CONCLUSION

These results illustrate the potential utility of mechanistic modeling to better assess release characteristics intrinsic to a particular drug/nanoparticle system.

摘要

目的

为了更好地理解控制药物从带有酸敏感连接子的聚合物胶束中释放的机制参数。

方法

建立了一个数学模型来描述由聚乙二醇外壳和聚天冬氨酸内核组成的嵌段共聚物胶束的药物释放,该胶束用用于pH控制释放的药物结合连接子(酰肼(HYD)、氨基苯甲酸酯 - 酰肼(ABZ)或甘氨酸 - 酰肼(GLY))进行了修饰。阿霉素(Dox)通过酸敏感的腙键与嵌段共聚物偶联。聚合物药物偶联物用于制备三种聚合物胶束(HYD - M、ABZ - M和GLY - M)。进行药物释放研究以确定控制Dox pH敏感释放的因素。还观察了共聚物材料长时间储存对释放动力学的影响。

结果

所有三种胶束制剂均观察到双相药物释放动力学。所建立的模型在纳入未偶联Dox和两种偶联Dox群体的项后,能够量化观察到的释放动力学。Dox在胶束/水之间的分配也被纳入模型,发现在中性条件下所有胶束中该分配都很显著,但在酸性条件下会降低。药物结合连接子在药物释放中起主要作用,因为在特定时间间隔,pH 5.0时Dox的释放程度大于pH 7.4时(HYD - M > ABZ - M > GLY - M)。数学建模还能够将释放动力学的变化与长时间储存期间Dox腙偶联的不稳定性相关联。

结论

这些结果说明了机制建模在更好地评估特定药物/纳米颗粒系统固有释放特性方面的潜在用途。