METTL3 Promotes Osteogenesis by Regulating N6-Methyladenosine-Dependent Primary Processing of hsa-mir-4526

New Mechanism of m6A Methylation Promoting Osteogenic Differentiation of Adipose-Derived Stem Cells Revealed — Study Based on METTL3-Mediated Primary microRNA Splicing Regulation of hsa-mir-4526 1. Academic Background and Research Motivation Bone tissue engineering has emerged as a cutting-edge interdisciplinary research field due to rapid advances...

A Polyphenol–Metal Network of Propyl Gallate Gallium/Hafnium Oxide on Polyimide Fibers for Facilitating Ligament–Bone Healing

Study on Surface Modification of Polyimide Fibers to Promote Ligament-Bone Healing Academic Background Anterior Cruciate Ligament (ACL) injury is one of the most common sports injuries worldwide, with approximately 1 in 1,250 people requiring ACL reconstruction surgery each year. Currently, the main methods for ACL reconstruction include autografts...

Magnesium and Gallium-Co-loaded Microspheres Accelerate Bone Repair via Osteogenesis and Antibiosis

Research on Magnesium and Gallium Co-loaded Microspheres Accelerating Bone Repair Academic Background Bone defects are a common clinical challenge, often caused by infection, tumor resection, or mechanical trauma. Bone defects not only affect patients’ quality of life but may also lead to functional loss. Although bone grafting is currently the pri...