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机译:通过延迟电荷反转纳米颗粒改善肿瘤组织渗透和肿瘤细胞吸收
Department of Pharmaceutics School of Pharmacy Shenyang Pharmaceutical University;
Department of Pharmaceutics School of Pharmacy Shenyang Pharmaceutical University;
Department of Pharmaceutics School of Pharmacy Shenyang Pharmaceutical University;
Department of Pharmacology School of Life Sciences and Bio-pharmaceuticals Shenyang;
Department of Pharmaceutics School of Pharmacy Shenyang Pharmaceutical University;
Department of Pharmaceutics School of Pharmacy Shenyang Pharmaceutical University;
Department of Pharmaceutics School of Pharmacy Shenyang Pharmaceutical University;
Department of Pharmacology School of Life Sciences and Bio-pharmaceuticals Shenyang;
Department of Pharmacology School of Life Sciences and Bio-pharmaceuticals Shenyang;
School of Functional Food and Wine Shenyang Pharmaceutical University;
Department of Pharmaceutics School of Pharmacy Shenyang Pharmaceutical University;
Department of Pharmaceutics School of Pharmacy Shenyang Pharmaceutical University;
Polyion complex; Cabazitaxel; Tumor penetration; Nanoparticle; Drug delivery; Charge reversal;
机译:通过延迟电荷反转纳米颗粒改善肿瘤组织渗透和肿瘤细胞吸收
机译:胺官能化的聚乳酸-乙醇酸共聚物纳米颗粒可改善细胞摄取和肿瘤渗透
机译:如何改善肿瘤细胞与药物的接触-促进药物可增加肿瘤吸收和效应药物的渗透
机译:用于药物递送和成像的多功能纳米粒子:超声波对细胞摄取和肿瘤组织分布的影响
机译:工程化靶向肿瘤的聚(酰胺基胺)(PAMAM)树状大分子,以提高短干扰RNA(siRNA)通过实体瘤的渗透和细胞递送
机译:纳米载体介导的靶向肿瘤和肿瘤血管细胞改善了药物向神经母细胞瘤的吸收和渗透。
机译:纳米载体介导的肿瘤和肿瘤血管细胞靶向改善了药物对神经母细胞瘤的摄取和渗透