Issue 21, 2024

The biological response of pH-switch-based gold nanoparticle-composite polyamino acid embolic material

Abstract

With continuous advances in medical technology, non-invasive embolization has emerged as a minimally invasive treatment, offering new possibilities in cancer therapy. Fluorescent labeling can achieve visualization of therapeutic agents in vivo, providing technical support for precise treatment. This paper introduces a novel in situ non-invasive embolization composite material, Au NPs@(mPEG-PLGTs), created through the electrostatic combination of L-cysteine-modified gold nanoparticles (Au NPs) and methoxy polyethylene glycol amine-poly[(L-glutamic acid)-(L-tyrosine)] (mPEG-PLGTs). Experiments were undertaken to confirm the biocompatibility, degradability, stability and performance of this tumor therapy. The research results demonstrated a reduction in tumor size as early as the fifth day after the initial injection, with a significant 90% shrinkage in tumor volume observed after a 20-day treatment cycle, successfully inhibiting tumor growth and exhibiting excellent anti-tumor effects. Utilizing near-infrared in vivo imaging, Au NPs@(mPEG-PLGTs) displayed effective fluorescence tracking within the bodies of nude BALB-c mice. This study provides a novel direction for the further development and innovation of in situ non-invasive embolization in the field, highlighting its potential for rapid, significant therapeutic effects with minimal invasiveness and enhanced safety.

Graphical abstract: The biological response of pH-switch-based gold nanoparticle-composite polyamino acid embolic material

Supplementary files

Article information

Article type
Paper
Submitted
08 Mar 2024
Accepted
05 May 2024
First published
06 May 2024

Nanoscale, 2024,16, 10448-10457

The biological response of pH-switch-based gold nanoparticle-composite polyamino acid embolic material

F. Yang, S. Gong, D. Hu, L. Chen, W. Wang, B. Cheng, J. Yang, B. Li and X. Wang, Nanoscale, 2024, 16, 10448 DOI: 10.1039/D4NR00989D

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