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

Medicine, Orthopedics, Basic Medical Sciences, Oral Sciences, Life Sciences, Cell Biology, Biochemistry, Bioengineering,
METTL3   osteogenesis   N6-methyladenosine   miRNA processing   hsa-mir-4526   adipose stem cells   bone repair  

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...

Enhancing Angiogenesis and Osseointegration through a Double Gyroid Ti6Al4V Scaffold with Triply Periodic Minimal Surface

Materials Science, Metallic Materials, Medicine, Orthopedics, Life Sciences, Bioengineering,
bone repair   angiogenesis   triply periodic minimal surface   titanium alloy scaffold   osseointegration   porous structure   cell proliferation  

Application of Double Gyroid Titanium Alloy Scaffolds Based on Triply Periodic Minimal Surface Structures in Bone Repair Academic Background Bone defect repair is a significant challenge in the field of orthopedics, especially in cases of critical-size bone defects caused by trauma, tumors, inflammation, and other diseases. Currently, the commonly ...

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

Materials Science, Metallic Materials, Medicine, Orthopedics, Life Sciences, Bioengineering,
bone repair   microspheres   osteogenesis   antibiosis   magnesium   gallium   biomaterials  

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...