Vaginal Delivery of Paclitaxel via Nanoparticles with Non‐Mucoadhesive Surfaces Suppresses Cervical Tumor Growth

紫杉醇 PLGA公司 体内 药物输送 黏膜黏附 粘液 药理学 宫颈癌 泊洛沙姆 医学 纳米颗粒 化疗 毒品携带者 药品 化学 癌症 材料科学 生物 内科学 纳米技术 聚合物 有机化学 生物技术 生态学 共聚物
作者
Ming Yang,Tao Yu,Yingying Wang,Samuel K. Lai,Qi Zeng,Bolong Miao,Benjamin C. Tang,Brian W. Simons,Laura M. Ensign,Guanshu Liu,Kannie W. Y. Chan,Chih‐Yin Juang,Olcay Mert,Joseph Wood,Jie Fu,Michael T. McMahon,T.‐C. Wu,Chien‐Fu Hung,Justin Hanes
出处
期刊:Advanced Healthcare Materials [Wiley]
卷期号:3 (7): 1044-1052 被引量:104
标识
DOI:10.1002/adhm.201300519
摘要

Local delivery of chemotherapeutics in the cervicovaginal tract using nanoparticles may reduce adverse side effects associated with systemic chemotherapy, while improving outcomes for early-stage cervical cancer. It is hypothesized here that drug-loaded nanoparticles that rapidly penetrate cervicovaginal mucus (CVM) lining the female reproductive tract will more effectively deliver their payload to underlying diseased tissues in a uniform and sustained manner compared with nanoparticles that do not efficiently penetrate CVM. Paclitaxel-loaded nanoparticles are developed, composed entirely of polymers used in FDA-approved products, which rapidly penetrate human CVM and provide sustained drug release with minimal burst effect. A mouse model is further employed with aggressive cervical tumors established in the cervicovaginal tract to compare paclitaxel-loaded poly(lactic-co-glycolic acid) (PLGA) nanoparticles (conventional particles, or CP) and similar particles coated with Pluronic F127 (mucus-penetrating particles, or MPP). CP are mucoadhesive and, thus, aggregated in mucus, while MPP achieve more uniform distribution and close proximity to cervical tumors. Paclitaxel-MPP suppress tumor growth more effectively and prolong median survival of mice compared with unencapsulated paclitaxel or paclitaxel-CP. Histopathological studies demonstrate minimal toxicity to the cervicovaginal epithelia, suggesting paclitaxel-MPP may be safe for intravaginal use. These results demonstrate the in vivo advantages of polymer-based MPP for treatment of tumors localized to a mucosal surface.
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