摘 要:目前,手术、化疗、放疗是癌症治疗的常规方法,但是都各自存在局限性,例如手术难以彻底切除所有肿瘤,复发风险高;化疗和放疗对癌细胞与正常细胞的杀伤缺乏选择性,毒副作用大,导致病人难以耐受。
因此,为了早日攻克癌症,科学家们开发了其他新兴治疗手段,其中,光动力治疗因其创伤面小,毒副作用低,适用性好等一些特点受到关注。
本文首先概括了肿瘤微环境的特点,然后描述了光动力治疗的机制以及特点,最后重点介绍了肿瘤靶向性的新型药物递送方式的研究进展。
利用修饰后的递送载体实现肿瘤靶向,提高药物富集能力,再利用光动力治疗肿瘤,从而达到更好的治疗效果,以及降低毒副作用。
关键词:肿瘤微环境;光动力治疗;肿瘤靶向作用;递送载体Research Progress of Tumor TargetingCombined with Photodynamic Therapy for TumorsAbstract: At present, surgical treatment, chemotherapy and radiotherapy are the conventional methods of cancer treatment. However, other treatments have emerged in response to the shortcomings of above-mentioned methods, such as poor treatment effect, high risk of recurrence, and difficulty in tolerating side effects. This article describes the characteristics of tumor microenvironment, the mechanism and characteristics of photodynamic therapy, and focuses on the research progress of new drug delivery methods to increase tumor targeting. The modified tumor targeted delivery vectors combining with photodynamic therapy plays a synergistic role, which achieving a therapeutic effect with stronger targeting, better biocompatibility, better drug enrichment ability and less toxic side effects.Key Words: tumor microenvironment; photodynamic therapy; Tumor targeting; Delivery vector 癌症作为目前威胁人类健康的主要疾病之一,是世界性的重大公共卫生问题,在我国癌症更是临床死亡的主要原因之一。
[1][2] 众所周知,手术、放疗和化疗是临床癌症治疗的常规方法。
肿瘤为了满足其生长的需要,发展了一个特殊的肿瘤微环境(Tumor microenvironment,TME),TME的主要特点为低氧、偏酸性、间质高压、血管高渗透性与炎症反应,严重降低了肿瘤组织对许多治疗的响应性,同时这些特征也是阻碍化疗药物在肿瘤部位积聚滞留的重要原因[3]。
因此,以上常规治疗由于治疗效果差、复发风险高、副作用难以耐受等原因往往不能满足临床需要。
因此,各种新兴治疗方法已应运而生。
光动力治疗(photodynamic therapy,PDT)能够有选择性地杀死靶细胞,而对正常细胞损伤较小,因此已在临床上用于治疗肿瘤等疾病[4]。
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