Abstract
BACKGROUND: Osteoporotic fractures (OPF) are fractures that occur with low-energy injuries or during daily activities, representing a serious consequence of osteoporosis (OP). With the worsening of population aging, the number of OPF patients continues to expand, causing a significant burden on families and society. Consequently, it is significant to diagnose and analyze OPF at the molecular level. OBJECTIVE: The aim of this research was to explore the diagnostic value of miR-32-3p in OPF patients and to exploit new biomarkers for clinical applications. METHODS: The miR-32-3p expression level of patients was detected by RT-qPCR. Diagnostic accuracy of miR-32-3p analyzed adopting ROC curve. Additionally, the risk factors correlation with the occurrence of OPF were assessed by logistic analysis. The effect of miR-32-3p on BMSCs was verified by in vitro transfection experiments. RESULTS: miR-32-3p expression was lower in OPF patients than in OP patients. ROC curve implied that miR-32-3p exhibits commendable sensitivity (88.9%) and specificity (75.6%) to differentiate between OP and OPF patients (AUC = 0.905, P < 0.001). Furthermore, miR-32-3p was correlated with the development of OPF and was a risk factor for OPF (P < 0.001). Functional assays revealed that transfection with miR-32-3p mimic could promote proliferation and inhibit apoptosis, whereas transfection with miR-32-3p inhibitor had the opposite effect. CONCLUSION: miR-32-3p demonstrates significant diagnostic potential for OPF patients. It is likely that miR-32-3p probably is a new diagnosis biomarker for OPF, offering promising therapeutic avenues through targeted interventions.