硼
中子俘获
体内
分辨率(逻辑)
放射化学
中子
化学
材料科学
核物理学
计算机科学
物理
生物
人工智能
生物技术
有机化学
作者
Linwen Lv,Qiuyang Liu,Wenxi Su,Haojun Liang,Xin Pan,Junhui Zhang,Ranran Chen,Ziteng Chen,Zhijie Wang,Ruyu Yan,Mingxin Yang,Yanan Chang,Juan Li,Gengmei Xing,Kui Chen
出处
期刊:Nano Today
[Elsevier BV]
日期:2025-04-28
卷期号:64: 102773-102773
标识
DOI:10.1016/j.nantod.2025.102773
摘要
Boron neutron capture therapy (BNCT) is a promising binary radiotherapy that uses the isotope 10 B and thermal neutron irradiation to induce lethal nuclear reactions in tumor cells. However, the effectiveness of BNCT often relies on the precise match between 10 B and thermal neutrons. In this study, we developed a boron delivery system, integrating boron nitride ( 10 BN) nanoparticles with microneedle (MN) patches (referred to as BN-MN). At equivalent dosages, BN-MN was able to maintain an intratumoral boron concentration above 20 ppm for over two hours, effectively aligning with the neutron irradiation time window. BN-MN also demonstrated efficient penetration and uniform distribution throughout the entire tumor tissue, with a tumor-to-normal tissue ratio (T/N) of 42 and a tumor-to-blood ratio (T/B) of 150, significantly superior to clinical boron drugs. More importantly, BN-MN efficiently delivered boron into tumor tissues at a precise cellular resolution, achieving an intracellular boron concentration 6.8 times higher than that obtained by BPA-loaded microneedles (BPA-MN). In vivo experiments demonstrated that the BN-MN system effectively inhibited tumor growth under neutron irradiation, with minimal systemic side effects . In summary, BN-MN perfectly matched neutron irradiation in terms of sufficient concentration, optimal retention time, and uniform spatial distribution, thereby enhancing the therapeutic efficacy and safety of BNCT. • BN-MN successfully achieved targeted delivery of 10 B into the intracellular space in vivo. • BN-MN facilitated the deep penetration of 10 B into the core of tumor tissues. • BN-MN enhanced the tumor inhibitory therapeutic effect of BNCT.
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