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范文编号:HG211 范文字数:10465,页数:24 摘 要:药物控制释放技术在医药领域有着广泛的应用。本文以聚合物载药微球为对象,建立了其药物释放的费克扩散模型。由模拟结果可见,扩散系数决定了药物在聚合物中的扩散速率,从而决定了药物的释放速率。释放模型有必要考虑微球群体的粒度分布对药物释放的综合贡献。只有粒径分布较窄时,才能将平均粒径作为模型的参数。另外,本文将载药微球药物扩散模型与药物在体内的药代动力学模型相结合,计算得到了载药微球型药剂产生的血药浓度随时间的变化曲线。相对于药物溶液形式的给药,微球中的药物通过载体的控制释放,血药浓度峰值有很大的降低,实现了药物的缓慢释放,抑制了首过突释效应。多剂量给药时,载药微球这一给药方式能大大减小体内血药浓度波动。 Abstract: The technology of controlled release is widely used in the field of medicine. In this work, a Fickian diffusion model of controlled release for the polymer-drug microspheres was established firstly. The simulation results show that the diffusion rate of drug in polymer carrier was determined by the diffusion coefficient greatly. Moreover, the particle size distribution of microspheres had a significant influence on the release performance. Therefore, the average particle size can be adopted as the model parameters only if the narrow particle size distribution exists. In addition, plasma concentration-time curves have been obtained on the basis of the integration model of Fickian diffusion and in vivo pharmaco-kinetic. Compared to the solution dosage, the polymer-drug microspheres dosage provided a reduced plasma concentration peak, a slower release of drug. The polymer-drug microspheres dosage can significantly reduce the blood concentration fluctuations between dosage intervals as well. 目 录
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