Self-Assembled Nanoparticles: Overcoming Limitations of Conventional Nanomedicines for Enhanced Tumor Therapy

转化式学习 纳米技术 癌症研究 医学 肿瘤细胞 纳米医学 癌症治疗 工程伦理学 计算生物学 癌症治疗 药品 计算机科学 药物开发 药物输送 纳米载体 个性化医疗 过程(计算) 毒品携带者 精密医学 临床实习 癌症 主流 靶向治疗 范围(计算机科学) 临床试验 药物发现 生物信息学 风险分析(工程)
作者
Xinlei Tang,Rujia Xie,Bozhi Zeng,Chengcheng Yi,Hui Su,Congcong Chen,Lili Zhou,Xinhua Xia,Jianguo Zeng,Jing Yang
出处
期刊:International Journal of Nanomedicine [Dove Medical Press]
卷期号:Volume 20: 15185-15211
标识
DOI:10.2147/ijn.s568952
摘要

The high mortality rate associated with cancer presents a significant clinical challenge, necessitating breakthroughs to overcome the limitations of traditional therapies, which often entail substantial side effects, as well as the complexities associated with existing nanodelivery systems (NDDS) that lack adequate targeting capabilities. Self-assembled nanoparticles (SANs) form spontaneously through weak interactions between drugs and functional molecules, such as hydrogen bonds and hydrophobic interactions. They exhibit revolutionary advantages, including ultra-high drug loading capacity, stimulus responsiveness, precise drug release, self-driven targeting capabilities, and a straightforward preparation process that does not require complex carrier synthesis. This review systematically summarizes the latest advancements in SANs for tumor therapy, emphasizing their molecular design principles and mainstream preparation strategies, while detailing their efficacy in multi-modal synergistic therapies, including chemotherapy, photodynamic/photothermal therapy, immunotherapy, and gene therapy. The technology of SANs establishes a robust foundation for the development of highly efficient and low-toxicity anti-cancer strategies, demonstrating significant potential to offer a transformative new paradigm for clinical precision therapy. We believe that the continued evolution of SANs holds great promise for clinical translation, potentially offering transformative solutions for personalized oncology in the near future.
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