ABSTRACT
【Objective】 We combined the concept of traditional medicine with magnetic induction technology, originally brought up the research concept of magnetic hyperthermia to cure KOA, explored the mechanism and constructed a new treatment of KOA with modern medical features. 【Methods】 Through establishing a primary KOA model in rats and constructing ferrimagnetic vortex domain iron oxide nanorings (FVIOs) as a platform for highly efficient magnetic hyperthermia agent, the lesions of KOA were heated accurately under the low-intensity magnetic field. We confirmed the curative effect through the results of pain perception, histopathology, knee joint morphology and microscopic bone structure and the content of serum inflammatory factor, to study the therapeutic mechanism of magnetic hyperthermia for KOA. 【Results】 Compared with the model group, the recovery of mechanical pain threshold after magnetic hyperthermia improved by approximately 48.9%; the degree of hyperemia and edema of joint capsule and synovial tissue and the wear degree of joint cartilage surface, were significantly reduced; the Mankin and OARSI scores decreased by about 33% and 20%, respectively; the MicroCT results indicated that the degree of hardening of the subchondral bone also improved; the expression of inflammatory factors in the serum was reduced. 【Conclusion】 In this study, we utilized the FVIOs as a high-efficiency magnetic hyperthermia platform for the treatment of KOA. The efficacy of magnetic hyperthermia on KOA is clarified, and the mechanism is related to the inhibition of inflammatory factors.
ABSTRACT
【Objective】 Through bioinformatics methods to analyze the differences in the gene expression profiles of peripheral blood mononuclear cells (PBMCs) between middle-aged and elderly women and normal people, so as to explore the diagnosis and treatment targets of OA. 【Methods】 We downloaded the GSE48556 data set from GEO databases. We utilized the R language to screen out the differentially expressed genes (DEGs) between OA and NC. By gene set enrichment analysis (GSEA), we obtained the target gene subset. The GO and KEGG pathways of the target gene subset were analyzed by DAVID. We applied STRING and Cytoscape software to construct PPI network. The module analysis was performed by the Mcode and centiscape plug-in, and the key genes were screened out by Cytohubba. 【Results】 By GSEA analysis and P.adjust 0.2, a total of 292 target genes were screened, consisting of 81 upregulated genes and 211 downregulated genes. The GO enrichment analysis of all target genes mainly focused on the biological functions, such as “regulation of NIK/NF-κB”, “monocytes”, “proliferation”, “regulation of apoptosis signaling pathway”, “TNF-mediated signaling pathway”, “regulation of Wnt signaling pathway”, “regulation of MAP kinase activity”, and “regulation of autophagy”. KEGG was mainly enriched in four pathways: cytotoxicity of natural killer cell mediation, TNF signaling pathway, MAPK signaling pathway, and apoptosis. We employed PPI network and related plug-ins to screen out eight core genes highly related to OA inflammation and apoptosis, namely, MAPK1, IL10, PTGS2, IL18, GSK3B, NFKBIA, TNFRSF1A, and EGR1. 【Conclusion】 Bioinformatics analysis revealed that the differences in PBMCs gene expressions between OA and NC were concentrated in the biological events of apoptosis and inflammation, making blood expression profile an effective breakthrough for monitoring OA target markers.