Micro–nano integrated platforms for osteoarthritis therapy: From spatial manipulation to cellular reprogramming
Zhijian Shi, Jiayou Chen, Haochi Lun, Rongji Liang, Jingtao Huang, Quan Lin, Wei Li, Zhenhan Deng, Jianjing Lin

TL;DR
This paper reviews micro-nano composite systems for osteoarthritis therapy, focusing on how they overcome biological barriers and enable precise cellular control.
Contribution
The paper introduces a new scientific paradigm for precision regenerative medicine using micro-nano integrated platforms.
Findings
Micro-nano platforms enable prolonged joint retention and deep cartilage matrix infiltration.
These systems modulate macrophages and stem cells for immunomodulation and tissue repair.
Biomimetic properties of micro-nano architectures support endogenous cartilage regeneration.
Abstract
Clinical intervention for osteoarthritis (OA) has long been hampered by complex intra-articular physiological barriers, including rapid synovial clearance, the dense penetration resistance of the cartilage extracellular matrix (ECM), and a progressively deteriorating pro-inflammatory microenvironment. Conventional single-scale delivery systems frequently struggle to balance sustained retention with deep tissue penetration. Recently, micro-nano composite structures—engineered through the sophisticated integration of microscale matrices and nanoscale functional units—have catalyzed a paradigm shift from passive “space-filling” to active “fate modulation.” This review systematically delineates the recent advancements in micro-nano platforms for OA therapy. We first evaluate how advanced fabrication strategies, such as microfluidics, 3D bioprinting, and hierarchical emulsification, govern…
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Taxonomy
TopicsBone Tissue Engineering Materials · 3D Printing in Biomedical Research · Graphene and Nanomaterials Applications
