Angela Ren, Ziyue Zhong, Yan Wang, Bin Qin, William Smith, Xiaoming Xu, Tony Listro, Feng Zhang
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引用次数: 0
摘要
在这项研究中,依托孕烯植入物是采用共挤工艺制造的。研究的目的是将依托孕烯植入物的微观结构和传输特性变化与药物释放机制联系起来。植入物由含有分散和溶解的依托孕烯的 EVA 28(28% 醋酸乙烯酯)内核和 EVA 15(15% 醋酸乙烯酯)外皮组成。经测定,药物释放是通过可控速率的扩散作用进行的,并受植入物尺寸的制约。体外释放显示出植入物核心和表皮过饱和的迹象,这可能是双螺杆制造过程中输入的高强度机械能造成的。随后,在环境条件下储存期间,过饱和导致药物晶体再结晶,并优先出现在植入体核心部位。通过渗透实验确定了依托孕烯在 EVA 中的溶解度和扩散率,并将其用于释放模型的建立。EVA 皮肤层的药物释放偏离了预测值,原因是:1)在核心部位形成了一个药物耗竭区;2)皮肤附近存在一个停滞介质层。植入体末端的药物释放速度明显快于预测值。使用显微 CT 观察到种植体核心部位有充满空气的孔隙,这可能是导致种植体末端药物释放更快的原因。
Manufacture, characterization, and elucidation of drug release mechanisms of etonogestrel implants based on ethylene vinyl acetate.
In this work, etonogestrel implants were manufactured using coextrusion. The purpose of the study was to correlate changes in microstructure and transport properties that occurred in etonogestrel implants to drug release mechanisms. The implants consisted of an EVA 28 (28 % vinyl acetate) core containing dispersed and dissolved etonogestrel, and an EVA 15 (15 % vinyl acetate) skin. The drug release was determined to be via diffusion at a controlled rate and governed by implant dimensions. In-vitro release revealed evidence of supersaturation in the implant core and skin, likely from the intense mechanical energy input during the twin-screw manufacturing process. Subsequently during storage under ambient conditions, supersaturation resulted in recrystallization of drug crystals, preferentially in the implant core. Etonogestrel solubility and diffusivity in EVA were determined by permeation experiments and used for release modeling. Drug release from the EVA skin layer deviated from the predicted values due to 1) formation of a drug depletion zone in the core and 2) presence of a stagnant media layer adjacent to the skin. Drug release from implant ends was significantly faster than predicted. Air-filled pores were observed in the implant core using microCT which likely contributed to the faster release from implant ends.
期刊介绍:
The Journal of Pharmaceutical Sciences will publish original research papers, original research notes, invited topical reviews (including Minireviews), and editorial commentary and news. The area of focus shall be concepts in basic pharmaceutical science and such topics as chemical processing of pharmaceuticals, including crystallization, lyophilization, chemical stability of drugs, pharmacokinetics, biopharmaceutics, pharmacodynamics, pro-drug developments, metabolic disposition of bioactive agents, dosage form design, protein-peptide chemistry and biotechnology specifically as these relate to pharmaceutical technology, and targeted drug delivery.