Instituto de Investigaciones para la Industria Química, CONICET-Universidad Nacional de Salta, Salta, Argentina.
Instituto de Patología Experimental, CONICET-Universidad Nacional de Salta, Salta, Argentina.
J Pharm Sci. 2018 Nov;107(11):2829-2836. doi: 10.1016/j.xphs.2018.06.027. Epub 2018 Jul 10.
Benznidazole (BZL), the first line drug for Chagas disease treatment, presents a low solubility, limiting the possibilities for its formulation. In this work, solid dispersions' (SDs) technology was exploited to increase BZL kinetic solubility and dissolution rate, seeking for an improvement in its bioperformance. A physical mixture (PM) and an SD using Poloxamer 407 as carrier were prepared and characterized. Dissolution tests were performed, and data were analyzed with the lumped model, which allowed to calculate different parameters of pharmaceutical relevance. A bioactivity assay was also carried out to probe the SD anti-trypanocidal activity. Among the most relevant results, the initial dissolution rate of the BZL SD was near 3, 4 and about 400-fold faster than the PM, a commercial formulation (CF) and an extracted BZL, respectivley. The times needed for an 80% of drug dissolution were 3.6 (SD), 46.4 (PM), and 238.7 min (CF); while the dissolution efficiency values at 30 min were 85.2 (SD), 71.2 (PM), and 65.0% (CF). Survival curves suggested that using Poloxamer 407 as carrier did not alter the anti-trypanocidal activity of BZL. These results allow to conclude that SDs can be an effective platform for immediate release of BZL in an oral administration.
苯硝唑(BZL)是治疗恰加斯病的一线药物,但溶解度低,限制了其制剂的发展。在这项工作中,我们利用固体分散体(SD)技术来提高 BZL 的动力学溶解度和溶解速率,以改善其生物性能。制备并表征了物理混合物(PM)和使用泊洛沙姆 407 作为载体的 SD。进行了溶解试验,并使用集总模型对数据进行了分析,该模型可以计算出不同的药物相关参数。还进行了生物活性测定,以探究 SD 的抗锥虫活性。在最相关的结果中,BZL SD 的初始溶解速率比 PM、市售制剂(CF)和提取的 BZL 分别快近 3、4 和约 400 倍。达到 80%药物溶解所需的时间分别为 3.6(SD)、46.4(PM)和 238.7 min(CF);而在 30 分钟时的溶解效率值分别为 85.2(SD)、71.2(PM)和 65.0%(CF)。生存曲线表明,使用泊洛沙姆 407 作为载体不会改变 BZL 的抗锥虫活性。这些结果表明,SD 可以作为口服立即释放 BZL 的有效平台。
