穿心莲内酯新型固体自纳米分散给药系统的设计与评价

Design and Evaluation of Novel Solid Self-Nanodispersion Delivery System for Andrographolide.

作者信息

Xu Junnan, Ma Yueqin, Xie Yuanbiao, Chen Yingchong, Liu Yang, Yue Pengfei, Yang Ming

机构信息

Key Laboratory of Modern Preparation of TCM, Ministry of Education, Jiangxi University of Traditional Chinese Medicine, 818 Xingwandadao Road, Nanchang, 330004, China.

Departments of Pharmacy, 94th Hospital of People's Liberation Army, Nanchang, China.

出版信息

AAPS PharmSciTech. 2017 Jul;18(5):1572-1584. doi: 10.1208/s12249-016-0627-7. Epub 2016 Sep 12.

DOI:10.1208/s12249-016-0627-7

PMID:27620195

Abstract

Poorly water-soluble drugs offer challenges in developing a formulation product with adequate bioavailability. This study took advantage of the features of nanocrystals and direct compression technologies to develop a novel solid self-nanodispersion delivery system for andrographolide (Andro) in order to increase its dissolution rate for enhancing bioavailability. Andro nanosuspensions (Andro-NS) with a particle size of about 500 nm were prepared by homogenization technology and further converted into dried nanocrystal particles (Andro-NP) via spray-drying. The solid self-nanodispersion delivery system (Andro-SNDS)-loaded Andro-NP was prepared via direct compression technology. The DSC and PXRD results demonstrated that the Andro nanocrystals retained its original crystallinity. The dissolution of the Andro-SNDS formulation was 85.87% in pure water over 30 min, better than those of the coarse Andro and physical mixture of Andro and stabilizer. And the C (299.32 ± 78.54 ng/mL) and AUC (4440.55 ± 764.13 mg/L · h) of the Andro-SNDS formulation were significantly higher (p < 0.05) than those of the crude Andro (77.52 ± 31.73 ng/mL and 1437.79 ± 354.25 mg/L · h). The AUC of the Andro-SNDS was 3.09 times as high as that of the crude Andro. This study illustrated a novel approach to combine the features of nanocrystals and composite particles used to improve oral bioavailability of poorly soluble drug.

摘要

水溶性差的药物在开发具有足够生物利用度的制剂产品时面临挑战。本研究利用纳米晶体和直接压片技术的特点，开发了一种用于穿心莲内酯（Andro）的新型固体自纳米分散体给药系统，以提高其溶出速率从而增强生物利用度。通过匀化技术制备了粒径约为500 nm的穿心莲内酯纳米混悬液（Andro-NS），并通过喷雾干燥进一步转化为干燥的纳米晶体颗粒（Andro-NP）。通过直接压片技术制备了负载穿心莲内酯纳米晶体的固体自纳米分散体给药系统（Andro-SNDS）。DSC和PXRD结果表明，穿心莲内酯纳米晶体保留了其原始结晶度。Andro-SNDS制剂在纯水中30分钟的溶出度为85.87%，优于粗品穿心莲内酯以及穿心莲内酯与稳定剂的物理混合物。Andro-SNDS制剂的Cmax（299.32±78.54 ng/mL）和AUC（4440.55±764.13 mg/L·h）显著高于粗品穿心莲内酯（77.52±31.73 ng/mL和1437.79±354.25 mg/L·h）（p<0.05）。Andro-SNDS的AUC是粗品穿心莲内酯的3.09倍。本研究阐述了一种结合纳米晶体和复合颗粒特点以提高难溶性药物口服生物利用度的新方法。

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穿心莲内酯新型固体自纳米分散给药系统的设计与评价

Design and Evaluation of Novel Solid Self-Nanodispersion Delivery System for Andrographolide.

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