机译:湿铣方法纳米纳米型纳米化:维生素E TPGS和口服生物利用度增强的影响
Shenyang Pharmaceut Univ Sch Pharm Dept Pharmaceut Anal 103 Wenhua Rd Shenyang 110016 Liaoning Provin Peoples R China;
Shenyang Pharmaceut Univ Sch Pharm Dept Pharmaceut Anal 103 Wenhua Rd Shenyang 110016 Liaoning Provin Peoples R China;
Shenyang Pharmaceut Univ Sch Pharm Dept Pharmaceut Anal 103 Wenhua Rd Shenyang 110016 Liaoning Provin Peoples R China;
Shenyang Pharmaceut Univ Sch Pharm Dept Pharmaceut Anal 103 Wenhua Rd Shenyang 110016 Liaoning Provin Peoples R China;
Shenyang Pharmaceut Univ Sch Pharm Dept Pharmaceut Anal 103 Wenhua Rd Shenyang 110016 Liaoning Provin Peoples R China;
Shenyang Pharmaceut Univ Sch Pharm Dept Pharmaceut Anal 103 Wenhua Rd Shenyang 110016 Liaoning Provin Peoples R China;
Shenyang Pharmaceut Univ Sch Pharm Dept Pharmaceut 103 Wenhua Rd Shenyang 110016 Liaoning Provin Peoples R China;
Shenyang Pharmaceut Univ Sch Pharm Dept Pharmaceut 103 Wenhua Rd Shenyang 110016 Liaoning Provin Peoples R China;
Shenyang Pharmaceut Univ Sch Pharm Dept Pharmaceut Anal 103 Wenhua Rd Shenyang 110016 Liaoning Provin Peoples R China;
机译:湿铣方法纳米纳米型纳米化:维生素E TPGS和口服生物利用度增强的影响
机译:通过湿介质研磨技术优化制备纳米悬浮液的配方和工艺参数:维生素e TPGS和纳米晶体粒径对口服吸收的影响
机译:具有增强溶解和口服生物利用度的湿铣方法
机译:SOLUTOL HS 15和维生素E-TPGS对可可霉素口服生物利用度的影响:可预测体外实验的体内数据?
机译:配制和加工技术可提高水溶性差的化合物的口服生物利用度。
机译:基于湿介质研磨技术的塞来昔布纳米晶固体分散体口服生物利用度增强:配方优化和体外/体内评估
机译:一种新的维生素E TPGS的配方增强了角膜层中的氯己定生物利用度