晶体形貌依赖性美芬酸压片过程中粘附行为的分子基础。

Molecular basis of crystal morphology-dependent adhesion behavior of mefenamic acid during tableting.

机构信息

Bristol-Myers Squibb, Co., One Squibb Dr., New Brunswick, New Jersey, 08901, USA.

出版信息

Pharm Res. 2014 Jan;31(1):160-72. doi: 10.1007/s11095-013-1149-6. Epub 2013 Aug 14.

DOI:10.1007/s11095-013-1149-6

PMID:23943544

Abstract

PURPOSE

The molecular basis of crystal surface adhesion leading to sticking was investigated by exploring the correlation of crystal adhesion to oxidized iron coated atomic force microscope (AFM) tips and bulk powder sticking behavior during tableting of two morphologically different crystals of a model drug, mefenamic acid (MA), to differences in their surface functional group orientation and energy.

METHODS

MA was recrystallized into two morphologies (plates and needles) of the same crystalline form. Crystal adhesion to oxidized iron coated AFM tips and bulk powder sticking to tablet punches was assessed using a direct compression formulation. Surface functional group orientation and energies on crystal faces were modeled using Accelrys Material Studio software.

RESULTS

Needle-shaped morphology showed higher sticking tendency than plates despite similar particle size. This correlated with higher crystal surface adhesion of needle-shaped morphology to oxidized iron coated AFM probe tips, and greater surface energy and exposure of polar functional groups.

CONCLUSIONS

Higher surface exposure of polar functional groups correlates with higher tendency to stick to metal surfaces and AFM tips, indicating involvement of specific polar interactions in the adhesion behavior. In addition, an AFM method is identified to prospectively assess the risk of sticking during the early stages of drug development.

摘要

目的

通过探索晶体与氧化铁涂层原子力显微镜（AFM）探针粘附的相关性，以及模型药物甲芬那酸（MA）的两种形态不同的晶体在压片过程中 bulk powder 粘附到冲头的行为与它们表面官能团取向和能量的差异，研究导致粘附的晶体表面粘附的分子基础。

方法

将 MA 重结晶为相同晶体形式的两种形态（板和针）。使用直接压缩配方评估晶体对氧化铁涂层 AFM 探针的粘附以及 bulk powder 粘附到压片冲头的情况。使用 Accelrys Material Studio 软件对晶体表面官能团的取向和能量进行建模。

结果

尽管针状形态的粒径相似，但针状形态表现出更高的粘附倾向。这与针状形态对氧化铁涂层 AFM 探针尖端的晶体表面粘附力更高，以及更大的表面能和极性官能团的暴露有关。

结论

极性官能团更高的表面暴露与更倾向于粘附金属表面和 AFM 探针相关，表明在粘附行为中涉及特定的极性相互作用。此外，确定了一种 AFM 方法来在药物开发的早期阶段前瞻性评估粘附的风险。

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晶体形貌依赖性美芬酸压片过程中粘附行为的分子基础。

Molecular basis of crystal morphology-dependent adhesion behavior of mefenamic acid during tableting.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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