Department of Bioengineering, University of Utah, 20 South 2030 East, Salt Lake City, UT 84112, USA.
J Control Release. 2012 Oct 28;163(2):240-8. doi: 10.1016/j.jconrel.2012.08.033. Epub 2012 Sep 7.
In vitro testing and quantitative analysis of a matrix, hydrophilic polyether urethane (HPEU) intravaginal ring (IVR) for sustained delivery of the anti-HIV agent tenofovir (TFV) are described. To aid in device design, we employed a pseudo-steady-state diffusion model to describe drug release, as well as an elastic mechanical model for ring compression to predict mechanical properties. TFV-HPEU IVRs of varying sizes and drug loadings were fabricated by hot-melt extrusion and injection molding. In vitro release rates of TFV were measured at 37 °C and pH 4.2 for 30 or 90 days, during which times IVR mechanical properties and swelling kinetics were monitored. Experimental data for drug release and mechanical properties were compared to model predictions. IVRs loaded with 21% TFV (w/w) released greater than 2mg TFV per day for 90 days. The diffusion model predicted 90 day release data by extrapolating forward from the first 7 days of data. Mechanical properties of IVRs were similar to NuvaRing, although the matrix elastic modulus decreased up to three-fold following hydration. This is the first vaginal dosage form to provide sustained delivery of milligram quantities of TFV for 90 days. Drug release and mechanical properties were approximated by analytical models, which may prove useful for the continuing development of IVRs for HIV prevention or other women's health indications.
本文描述了一种用于持续输送抗 HIV 药物替诺福韦(TFV)的亲水聚醚型聚氨酯(HPEU)阴道环(IVR)的体外测试和定量分析。为了辅助装置设计,我们采用了伪稳态扩散模型来描述药物释放,以及环压缩的弹性力学模型来预测机械性能。通过热熔挤出和注塑成型制备了不同尺寸和载药量的 TFV-HPEU IVR。在 37°C 和 pH 4.2 下,对 TFV 的体外释放率进行了 30 或 90 天的测量,在此期间监测了 IVR 的机械性能和溶胀动力学。将实验数据与模型预测进行了比较。载有 21%TFV(w/w)的 IVR 在 90 天内每天释放超过 2mg TFV。通过从第 7 天的数据向前外推,扩散模型预测了 90 天的释放数据。IVR 的机械性能与 NuvaRing 相似,尽管基质弹性模量在水合作用后下降了三倍。这是第一种能够提供 90 天持续输送毫克数量 TFV 的阴道剂型。药物释放和机械性能可通过分析模型来近似,这对于继续开发用于 HIV 预防或其他女性健康适应症的 IVR 可能是有用的。
