机译:用刺激响应纳米载体靶向肿瘤缺氧,克服耐药性和监测抗癌疗效
Zhejiang Univ Coll Pharmaceut Sci Hangzhou 310058 Zhejiang Peoples R China;
Zhejiang Univ Coll Pharmaceut Sci Hangzhou 310058 Zhejiang Peoples R China;
Zhejiang Univ Coll Pharmaceut Sci Hangzhou 310058 Zhejiang Peoples R China;
Zhejiang Univ Coll Pharmaceut Sci Hangzhou 310058 Zhejiang Peoples R China;
Zhejiang Univ Coll Pharmaceut Sci Hangzhou 310058 Zhejiang Peoples R China;
Zhejiang Univ Coll Pharmaceut Sci Hangzhou 310058 Zhejiang Peoples R China;
Zhejiang Univ Affiliated Hosp 2 Coll Med Dept Radiat Oncol Key Lab Canc Prevent &
Interven;
Zhejiang Univ Affiliated Hosp 2 Coll Med Dept Radiat Oncol Key Lab Canc Prevent &
Interven;
Zhejiang Univ Coll Pharmaceut Sci Hangzhou 310058 Zhejiang Peoples R China;
Zhejiang Univ Affiliated Hosp 2 Coll Med Dept Radiat Oncol Key Lab Canc Prevent &
Interven;
Zhejiang Univ Coll Pharmaceut Sci Hangzhou 310058 Zhejiang Peoples R China;
Zhejiang Univ Coll Pharmaceut Sci Hangzhou 310058 Zhejiang Peoples R China;
Hypoxia-sensitive; Size-shrinkable nanomedicine; Penetration; Reporter;
机译:用刺激响应纳米载体靶向肿瘤缺氧,克服耐药性和监测抗癌疗效
机译:肿瘤酸度活性三苯基鏻的线粒体靶向纳米载体用于克服癌症治疗的耐药性
机译:靶向硫酸乙酰肝素蛋白多糖及其改性酶,以增强抗癌化疗疗效并克服耐药性
机译:抗癌药物与新型含PEG的纳米载体的共轭可在体外规避耐药机制并在体内保护免受一般毒性
机译:肿瘤缺氧,Warburg效应和多药耐药性:使用紫杉醇/ LONIDamine疗法联合使用EGFR靶向的聚合物共混纳米载体,调节缺氧诱导的MDR。
机译:肿瘤酸性激活的基于三苯基-的线粒体靶向纳米载体可克服癌症治疗的耐药性
机译:肿瘤酸度活性三苯基鏻的线粒体靶向纳米载体用于克服癌症治疗的耐药性