识别和绘制表面非晶域。

Identifying and mapping surface amorphous domains.

作者信息

Ward Stuart, Perkins Mark, Zhang Jianxin, Roberts Clive J, Madden Claire E, Luk Shen Y, Patel Nikin, Ebbens Stephen J

机构信息

Molecular Profiles Ltd., 8 Orchard Place, Nottingham Business Park, Nottingham, NG8 6PX, UK.

出版信息

Pharm Res. 2005 Jul;22(7):1195-202. doi: 10.1007/s11095-005-6027-4. Epub 2005 Jul 22.

DOI:10.1007/s11095-005-6027-4

PMID:16028021

Abstract

PURPOSE

Undesirable amorphous material generation during formulation is implicated in a growing number of pharmaceutical problems. Due to the importance of interfacial properties in many drug delivery systems, it seems that surface amorphous material is particularly significant. Consequently, this study investigates a range of methods capable of detecting and mapping surface amorphous material.

METHODS

A micron-sized localized surface domain of amorphous sorbitol is generated using a novel localized heating method. The domain is subsequently investigated using atomic force microscopy (AFM) imaging, nanomechanical measurements, and Raman microscopy 3-D profiling.

RESULTS

AFM phase and height images reveal nanoscale-order variations within both crystalline and amorphous sorbitol domains. Nanomechanical measurements are able to quantitatively distinguish the amorphous and crystalline domains through local Young's modulus measurements. Raman microscopy also distinguishes the amorphous and crystalline sorbitol through variations in peak width. This is shown to allow mapping of the 3-D distribution of the amorphous phase and is hence complementary to the more surface sensitive AFM measurements.

CONCLUSIONS

AFM and Raman microscopy map the distribution of amorphous material at the surface of a sorbitol crystal with submicron spatial resolution, demonstrating surface analysis methods for characterizing semicrystalline solids generated during pharmaceutical processing.

摘要

目的

制剂过程中产生的不良无定形物质引发了越来越多的药物问题。由于界面性质在许多药物递送系统中的重要性，表面无定形物质似乎尤为重要。因此，本研究考察了一系列能够检测和绘制表面无定形物质的方法。

方法

使用一种新型局部加热方法生成微米级的无定形山梨醇局部表面区域。随后使用原子力显微镜（AFM）成像、纳米力学测量和拉曼显微镜三维轮廓分析对该区域进行研究。

结果

AFM相图和高度图像揭示了结晶和无定形山梨醇区域内的纳米级有序变化。纳米力学测量能够通过局部杨氏模量测量定量区分无定形和结晶区域。拉曼显微镜也通过峰宽变化区分无定形和结晶山梨醇。结果表明，这能够绘制无定形相的三维分布，因此与更具表面敏感性的AFM测量互补。

结论

AFM和拉曼显微镜以亚微米空间分辨率绘制了山梨醇晶体表面无定形物质的分布，展示了用于表征药物加工过程中产生的半结晶固体的表面分析方法。

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识别和绘制表面非晶域。

Identifying and mapping surface amorphous domains.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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