国际妇产科学杂志
國際婦產科學雜誌
국제부산과학잡지
Journal Of International Obstetrics And Gynecology
2015年
5期
568-570,574
,共4页
卵巢肿瘤%纳米技术%药物载体%基因疗法%药物释放系统
卵巢腫瘤%納米技術%藥物載體%基因療法%藥物釋放繫統
란소종류%납미기술%약물재체%기인요법%약물석방계통
Ovarian neoplasms%Nanotechnology%Drug carriers%Gene therapy%Drug delivery systems
卵巢癌发病隐匿,极易发生侵袭和转移,发现时多处于疾病的晚期,是病死率较高的妇科恶性肿瘤。部分患者难以耐受术后化疗药物的不良反应,术后化疗效果较不理想。另外,卵巢癌易发生化疗药物耐药,复发转移率高。这些问题推动了卵巢癌纳米靶向药物的研究。国内外学者根据实体瘤的高通透性和滞留效应这一原理,制备载药纳米粒,靶向肿瘤,完成药物释放。体内外试验发现其抗肿瘤药效增强,药物不良反应减少。通过研究各类纳米材料,联合基因、免疫疗法,纳米靶向药物的种类趋于多样化。同时,具有诊疗功能的纳米靶向药物也在开发中。就纳米靶向技术在卵巢癌治疗中的研究进展进行综述,包括被动靶向、主动靶向、磁靶向、基因靶向、免疫靶向和超声靶向。
卵巢癌髮病隱匿,極易髮生侵襲和轉移,髮現時多處于疾病的晚期,是病死率較高的婦科噁性腫瘤。部分患者難以耐受術後化療藥物的不良反應,術後化療效果較不理想。另外,卵巢癌易髮生化療藥物耐藥,複髮轉移率高。這些問題推動瞭卵巢癌納米靶嚮藥物的研究。國內外學者根據實體瘤的高通透性和滯留效應這一原理,製備載藥納米粒,靶嚮腫瘤,完成藥物釋放。體內外試驗髮現其抗腫瘤藥效增彊,藥物不良反應減少。通過研究各類納米材料,聯閤基因、免疫療法,納米靶嚮藥物的種類趨于多樣化。同時,具有診療功能的納米靶嚮藥物也在開髮中。就納米靶嚮技術在卵巢癌治療中的研究進展進行綜述,包括被動靶嚮、主動靶嚮、磁靶嚮、基因靶嚮、免疫靶嚮和超聲靶嚮。
란소암발병은닉,겁역발생침습화전이,발현시다처우질병적만기,시병사솔교고적부과악성종류。부분환자난이내수술후화료약물적불량반응,술후화료효과교불이상。령외,란소암역발생화료약물내약,복발전이솔고。저사문제추동료란소암납미파향약물적연구。국내외학자근거실체류적고통투성화체류효응저일원리,제비재약납미립,파향종류,완성약물석방。체내외시험발현기항종류약효증강,약물불량반응감소。통과연구각류납미재료,연합기인、면역요법,납미파향약물적충류추우다양화。동시,구유진료공능적납미파향약물야재개발중。취납미파향기술재란소암치료중적연구진전진행종술,포괄피동파향、주동파향、자파향、기인파향、면역파향화초성파향。
Ovarian cancer is the leading cause of death among gynecological malignancies. Signs and symptoms of ovarian cancer are frequently absent in early stages. It is easily to invade or spread to other parts of the body. So, it is difficult to diagnose until it spreads and advances to later stages. Some patients cannot tolerate the adverse chemotherapy reaction, so the effect of chemotherapy is hardly satisfactory. Moreover, drug resistance is common and recurrent rate of ovarian cancer is high. These challenges lead to the development of drug delivery nanoparticles for ovarian cancer treatment. Based on enhanced permeability and retention effect, domestic and foreign scholars prepare drug delivery nanoparticles and targeted tumor to complete drug release. It helps to enhance efficacy and reduce side effects in vivo and in vitro research. Various drug delivery nanoparticles are developed by different nanomaterials and some combine with gene, immune therapy. Nano-sized carriers can also be functionalized to both diagnose and treat cancer. This review focuses on different types of targeted nanotherapy for ovarian cancer treatment, including passive targeting, active targeting, magnetic targeting, gene targeting, immune targeting and ultrasound targeting.