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Chitosan modified Fe<sub>3</sub>O<sub>4</sub>/KGN self-assembled nanoprobes for osteochondral MR diagnose and regeneration

Yuping Hong, Yaguang Han, Jun Wu, Xinxin Zhao, Cheng Jin, Guo Gao, Qirong Qian, Xiuying Wang, Weidong Cai, Hala Zreiqat, Dagan Feng, Jianrong Xu, Daxiang Cui

2020Theranostics34 citationsDOIOpen Access PDF

Abstract

Chondral and osteochondral defects caused by trauma or pathological changes, commonly progress into total joint degradation, even resulting in disability. The cartilage restoration is a great challenge because of its avascularity and limited proliferative ability. Additionally, precise diagnosis using non-invasive detection techniques is challenging, which increases problems associated with chondral disease treatment. Methods: To achieve a theranostic goal, we used an integrated strategy that relies on exploiting a multifunctional nanoprobe based on chitosan-modified Fe3O4 nanoparticles, which spontaneously self-assemble with the oppositely charged small molecule growth factor, kartogenin (KGN). This nanoprobe was used to obtain distinctively brighter T2-weighted magnetic resonance (MR) imaging, allowing its use as a positive contrast agent, and could be applied to obtain accurate diagnosis and osteochondral regeneration therapy. Results: This nanoprobe was first investigated using adipose tissue-derived stem cells (ADSCs), and was found to be a novel positive contrast agent that also plays a significant role in stimulating ADSCs differentiation into chondrocytes. This self-assembled probe was not only biocompatible both in vitro and in vivo, contributing to cellular internalization, but was also used to successfully make distinction of normal/damaged tissue in T2-weighted MR imaging. This novel combination was systematically shown to be biosafe via the decrement of apparent MR signals and elimination of ferroferric oxide over a 12-week regeneration period. Conclusion: Here, we established a novel method for osteochondral disease diagnosis and reconstruction. Using the Fe3O4-CS/KGN nanoprobe, it is easy to distinguish the defect position, and it could act as a tool for dynamic observation as well as a stem cell-based therapy for directionally chondral differentiation.

Topics & Concepts

NanoprobeBiomedical engineeringRegeneration (biology)Magnetic resonance imagingChitosanCartilageIn vivoMaterials scienceMedicineNanoparticleNanotechnologyChemistryRadiologyCell biologyBiologyAnatomyBiotechnologyBiochemistryBone and Joint DiseasesOsteoarthritis Treatment and MechanismsNanoplatforms for cancer theranostics