Magnetoelectric (ME) effect experimentally discovered about 60 years ago remains one of
the promising research fields with the main applications in microelectronics and sensors …

Many problems related to disorders and defects of bone tissue caused by aging, diseases,
and injuries have been solved by the multidisciplinary research field of regenerative …

In present study, a strategy is presented to construct a magnetic micro-environment in poly-l-
lactide/polyglycolic acid (PLLA/PGA) scaffolds fabricated via selective laser sintering by …

Bone is a complex organ maintained by three main cell types: osteoblasts, osteoclasts, and
osteocytes. During bone formation, osteoblasts deposit a mineralized organic matrix …

Functional biomaterials with magnetic properties are considerably useful for regulating cell
behavior and promoting bone regeneration. And the combination of such biomaterials with …

Mesenchymal stem cells (MSCs) express an osteoblastic phenotype when treated with BMP‐
2, and BMP‐2 is used clinically to induce bone formation although high doses are required …

All the living beings live and evolve under geomagnetic field (25–65 μT). Besides,
opportunities for human exposed to different intensities of static magnetic fields (SMF) in the …

Many studies have indicated that static magnetic fields (SMFs) have positive effects on bone
tissue, including bone formation and bone healing process. Evaluating the effects of SMFs …

This study aimed to explore effects of static magnetic fields (SMFs) of moderate intensity (3–
50 mT) as biophysical stimulators of proliferation and osteoblastic differentiation of human …

Tissue-engineering strategies for the treatment of osteoarthritis would benefit from the ability
to induce chondrogenesis in precursor cells. One such cell source is bone marrow-derived …