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机译:增溶剂对药物的过饱和和膜转运的影响
Department of Industrial and Physical Pharmacy College of Pharmacy Purdue University">(1);
Manufacturing Science and Technology Operations AbbVie Inc.">(3);
Drug Product Development Research and Development AbbVie Inc.">(2);
Drug Product Development Research and Development AbbVie Inc.">(2);
Formulation Process Development Gilead Sciences Inc.">(4);
Drug Product Development Research and Development AbbVie Inc.">(2);
Center for Drug Evaluation and Research FDA">(5);
Drug Product Development Research and Development AbbVie Inc.">(2);
Pharmaceutical Development Manufacturing Science Janssen RD China Johnson Johnson">(6);
Drug Product Development Research and Development AbbVie Inc.">(2);
Drug Product Development Research and Development AbbVie Inc.">(2);
Manufacturing Science and Technology Operations AbbVie Inc.">(3);
Department of Industrial and Physical Pharmacy College of Pharmacy Purdue University">(1);
机译:增溶剂对药物过饱和和膜运输的影响
机译:过饱和和溶解的相互作用:模拟和吸气人流体中基于浓度的过饱和测量和膜输送速率的相关性缺乏相关性
机译:有序中孔二氧化硅输送系统的超饱和电位。 第1部分:溶出性能和药物膜运输速率
机译:通过复合膜建模运输:薄膜的影响和支持膜形态的影响
机译:使用基于组织和药代动力学的方法鉴定膜转运蛋白以利于鼻内药物输送。
机译:多孔纳米结构脂质组合物和药物过饱和程度调节二氧化硅 - 脂质杂种中的体外芬橡胶溶解
机译:过饱和和溶解的相互作用:浓度基于浓度的过饱和测量和模拟和吸气人流体的膜输送速率之间的相关性缺乏相关性