Issue 2, 2024

Tumor microenvironment-responsive degradable silica nanoparticles: design principles and precision theranostic applications

Abstract

Silica nanoparticles have emerged as promising candidates in the field of nanomedicine due to their remarkable versatility and customizable properties. However, concerns about their potential toxicity in healthy tissues and organs have hindered their widespread clinical translation. To address this challenge, significant attention has been directed toward a specific subset of silica nanoparticles, namely degradable silica nanoparticles, primarily because of their excellent biocompatibility and responsive biodegradability. In this review, we provide a comprehensive understanding of degradable silica nanoparticles, categorizing them into two distinct groups: inorganic species-doped and organic moiety-doped silica nanoparticles based on their framework components. Next, the recent progress of tumor microenvironment (TME)-responsive degradable silica nanoparticles for precision theranostic applications is summarized in detail. Finally, current bottlenecks and future opportunities of theranostic nanomedicines based on degradable silica nanoparticles in clinical applications are also outlined and discussed. The aim of this comprehensive review is to shed light on the potential of degradable silica nanoparticles in addressing current challenges in nanomedicine, offering insights into their design, applications in tumor diagnosis and treatment, and paving the way for future advancements in clinical theranostic nanomedicines.

Graphical abstract: Tumor microenvironment-responsive degradable silica nanoparticles: design principles and precision theranostic applications

Article information

Article type
Review Article
Submitted
06 9 2023
Accepted
28 11 2023
First published
29 11 2023

Nanoscale Horiz., 2024,9, 186-214

Tumor microenvironment-responsive degradable silica nanoparticles: design principles and precision theranostic applications

J. Zhang, K. Tang, Z. Liu, Z. Zhang, S. Duan, H. Wang, H. Yang, D. Yang and W. Fan, Nanoscale Horiz., 2024, 9, 186 DOI: 10.1039/D3NH00388D

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