Optimizing Cancer Treatment: A Comprehensive Review of Active and Passive Drug Delivery Strategies.

Q2 Biochemistry, Genetics and Molecular Biology

Iranian Biomedical Journal Pub Date : 2025-06-04 DOI:10.61186/ibj.4960

Parastoo Tarighi, Seyedeh Mona Mousavi Esfahani, Ali Emamjomeh, Seyedeh Zohreh Mirjalili, Parastoo Mirzabeigi

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Abstract

Nanocarriers as powerful tools for delivering drugs to tumors provide new strategies for cancer treatment. These delivery systems encompass a diverse variety of structures, including polymeric NPs, liposomes, dendrimers, micelles, and inorganic NPs such as gold and silica. Each type exhibits distinct physicochemical advantages that contribute to stability, drug-loading capacity, and targeting efficacy. Engineered nanocarriers can be utilized for the active targeting of tumor-specific receptors or for passive targeting of tumors via the EPR effect, a characteristic of abnormal tumor vasculature. This targeting approach enables the precise delivery of the therapeutic agents at tumor sites, increasing drug efficacy while minimizing exposure to healthy tissues. The benefits of these strategies include reduced systemic adverse effects, improved bioavailability, and an optimized therapeutic index. This review examines both active and passive drug delivery systems, with a special focus on the characteristics of the EPR effect.

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优化癌症治疗：主动和被动给药策略的综合综述。

纳米载体作为向肿瘤输送药物的有力工具，为癌症治疗提供了新的策略。这些递送系统包含多种结构，包括聚合NPs、脂质体、树状大分子、胶束和无机NPs，如金和二氧化硅。每种类型都表现出独特的物理化学优势，有助于稳定性，载药能力和靶向效力。工程纳米载体可用于主动靶向肿瘤特异性受体或通过EPR效应被动靶向肿瘤，EPR效应是肿瘤血管异常的特征。这种靶向方法能够在肿瘤部位精确地递送治疗剂，提高药物疗效，同时最大限度地减少对健康组织的暴露。这些策略的好处包括减少全身不良反应，提高生物利用度和优化治疗指数。本文综述了主动和被动药物传递系统，特别关注EPR效应的特征。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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