Litcius/Paper detail

Disturbed Flow‐Facilitated Margination and Targeting of Nanodisks Protect against Atherosclerosis

Chuanrong Zhao, Jingyi Li, Zhitong Jiang, Juan‐Juan Zhu, Jia‐Nan Zhao, Qianru Yang, Weijuan Yao, Wei Pang, Ning Li, Miaorong Yu, Yong Gan, Jing Zhou

2022Small11 citationsDOIOpen Access PDF

Abstract

Disturbed blood flow induces endothelial pro-inflammatory responses that promote atherogenesis. Nanoparticle-based therapeutics aimed at treating endothelial inflammation in vasculature where disturbed flow occurs may provide a promising avenue to prevent atherosclerosis. By using a vertical-step flow apparatus and a microfluidic chip of vascular stenosis, herein, it is found that the disk-shaped versus the spherical nanoparticles exhibit preferential margination (localization and adhesion) to the regions with the pro-atherogenic disturbed flow. By employing a mouse model of carotid partial ligation, superior targeting and higher accumulation of the disk-shaped particles are also demonstrated within disturbed flow areas than that of the spherical particles. In hyperlipidemia mice, administration of disk-shaped particles loaded with hypomethylating agent decitabine (DAC) displays greater anti-inflammatory and anti-atherosclerotic effects compared with that of the spherical counterparts and exhibits reduced toxicity than "naked" DAC. The findings suggest that shaping nanoparticles to disk is an effective strategy for promoting their delivery to atheroprone endothelia.

Topics & Concepts

InflammationBiophysicsAdhesionMaterials scienceChemistryNanotechnologyCancer researchMedicineInternal medicineBiologyComposite materialExtracellular vesicles in diseaseAtherosclerosis and Cardiovascular DiseasesCoronary Interventions and Diagnostics