Development and Optimization of Enzalutamide Nanosuspension by Design of Experiments for Dissolution Enhancement

Rajendra Patel, Komal Parmar
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Abstract

Enzalutamide is an anticancer molecule used for prostate cancer. The goal of the study was to develop a nanosuspension of enzalutamide in order to improve its solubility and dissolution properties. High-speed homogenization method was employed to formulate the nanosuspension. Preliminary studies suggested the amount of stabilizer, homogenization time and homogenization speed as critical variables to be taken for the optimization process. Box-Behnken design was employed for the optimization of process and formulation variables. Nanosuspension was evaluated for particle size, PDI, zeta potential, and in-vitro drug release at 10 minutes (D10) studies. Regression analysis suggested the influence of independent variables on the responses. The optimized batch obtained from the overlay plot exhibited 198.36 nm of particle size, (-33.27 mV of zeta potential and 80.47% of D10 values). The characterization studies i.e., DSC, and XRD illustrated retention in crystallinity of the drug. The drug and formulation were found to be stable over a 6-month period in accelerated stability testing. Using high speed homogenization method, the particle size of the formulation was reduced to nano-size, which was further responsible for the improvement in dissolution and bioavailability of the drug.
通过实验设计开发和优化恩杂鲁胺纳米悬浮液以提高溶解度
恩杂鲁胺是一种用于治疗前列腺癌的抗癌分子。这项研究的目的是开发一种恩杂鲁胺纳米悬浮液,以改善其溶解性和溶出特性。该研究采用高速匀浆法配制纳米悬浮液。初步研究表明,稳定剂用量、均质时间和均质速度是优化过程中需要考虑的关键变量。在优化过程和配方变量时,采用了盒式贝肯设计。对纳米悬浮液的粒度、PDI、zeta 电位和 10 分钟体外药物释放(D10)研究进行了评估。回归分析表明了自变量对反应的影响。从叠加图中得到的优化批次的粒度为 198.36 nm,(zeta 电位为 -33.27 mV,D10 值为 80.47%)。表征研究(即 DSC 和 XRD)表明药物的结晶度保持不变。在为期 6 个月的加速稳定性测试中,药物和制剂均保持稳定。使用高速均质法,制剂的粒径减小到了纳米级,这进一步提高了药物的溶解度和生物利用度。
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