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Magnetic nanoparticle swarm with upstream motility and peritumor blood vessel crossing ability

Luyao Wang, Chunyuan Gan, Hongyan Sun, Lin Feng

2023Nanoscale21 citationsDOIOpen Access PDF

Abstract

vascular permeation remains unclear. Inspired by the bionics of dynamic aggregation in wild herring schools and transvascular permeation of leukocytes, we propose a novel drug delivery strategy where thousands of magnetic nanoparticles (MNPs) can be assembled into swarms under the guidance of a specially designed electromagnetic field. The vortex-like swarms of magnetic nanoparticles exhibit excellent stability, allowing them to withstand the impact of high-speed flow and move upstream along the vessel wall, stopping at the target location. When the vortex-like swarms encounter a tumor periphery without a continuous vessel wall, their rheological properties actively adhere them to the edges of the vascular endothelial gap, using their deformability to crawl through narrow intercellular gaps, enabling large-scale targeted drug delivery. This cluster of miniature nanorobots can be reshaped and reconfigured to perform a variety of tasks according to the environmental demands of the circulatory system, providing new solutions for a variety of biomedical field applications.

Topics & Concepts

Upstream (networking)MotilitySwarm behaviourNanoparticleMaterials scienceMagnetic nanoparticlesNanotechnologyBiophysicsComputer scienceCell biologyBiologyArtificial intelligenceTelecommunicationsMicro and Nano RoboticsNanoparticle-Based Drug DeliveryCharacterization and Applications of Magnetic Nanoparticles
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