Suyi Liu, Qimin Lu, Ziying Liang, Dailing Du, Bin Chen, Ye Feng, Chao Gao, Tingting Jiang, Yingfeng Tu, Fei Peng
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引用次数: 0
摘要
光疗是一种很有前途的癌症治疗技术,具有高效、副作用小的特点。然而,传统的光疗剂存在靶向性低和传输效率低的问题。本文提出了一种新方法,即利用聚乙烯醇、三聚氰胺、水和 Fe3O4 纳米粒子制成的螺旋水凝胶马达。这些磁性马达能够在外部磁场的驱动下对肿瘤细胞进行精确治疗。在 808 纳米近红外线(1.5 W cm-2)照射下,这些电机可将光转化为热,从而升高目标区域的温度,产生显著的治疗效果,可消灭 60% 以上的 HeLa 细胞。这些螺旋微电机表现出卓越的运动性能和生物相容性,有助于它们在体内的应用,并为生物医学的发展做出贡献。
Magnetic-Driven Hydrogel Spiral PVA/Fe3O4 Micromotors for Targeted Photothermal Therapy
Phototherapy has emerged as a promising technique for cancer treatment, offering high efficiency and minimal side effects. Nevertheless, conventional phototherapy agents suffer from low targetability and inefficient delivery. Here, a novel approach is proposed using helical hydrogel motors fabricated by combining polyvinyl alcohol, melamine, water, and Fe3O4 nanoparticles. These magnetic motors are capable of precise therapy on tumor cells driven by an external magnetic field. By converting light into heat upon near-infrared illumination, the motors elevate the temperature of the targeted region, resulting in a significant therapeutic effect, with over 60% eradication of HeLa cells achieve under 808 nm near- infrared light (1.5 W cm−2). These helical micromotors exhibit excellent movement performance and biocompatibility, facilitating their in vivo applications and contributing to the advancement of biomedicine.
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