Login / Signup

Biosynthesized Bandages Carrying Magnesium Oxide Nanoparticles Induce Cortical Bone Formation by Modulating Endogenous Periosteal Cells.

Xu LiBingyang DaiJiaxin GuoYuwei ZhuJiankun XuShunxiang XuZhi YaoLiang ChangYe LiXuan HeDick Ho Kiu ChowShian ZhangHao YaoWenxue TongTo NgaiLing Qin
Published in: ACS nano (2022)
Bone grafting is frequently conducted to treat bone defects caused by trauma and tumor removal, yet with significant medical and socioeconomic burdens. Space-occupying bone substitutes remain challenging in the control of osteointegration, and meanwhile activation of endogenous periosteal cells by using non-space-occupying implants to promote new bone formation becomes another therapeutic strategy. Here, we fabricated a magnesium-based artificial bandage with optimal micropatterns for activating periosteum-associated biomineralization. Collagen was self-assembled on the surface of magnesium oxide nanoparticles embedded electrospun fibrous membranes as a hierarchical bandage structure to facilitate the integration with periosteum in situ . After the implantation on the surface of cortical bone in vivo , magnesium ions were released to generate a pro-osteogenic immune microenvironment by activating the endogenous periosteal macrophages into M2 phenotype and, meanwhile, promote blood vessel formation and neurite outgrowth. In a cortical bone defect model, magnesium-based artificial bandage guided the surrounding newly formed bone tissue to cover the defected area. Taken together, our study suggests that the strategy of stimulating bone formation can be achieved with magnesium delivery to periosteum in situ and the proposed periosteal bandages act as a bioactive media for accelerating bone healing.
Keyphrases
  • bone mineral density
  • soft tissue
  • bone loss
  • induced apoptosis
  • bone regeneration
  • signaling pathway
  • healthcare
  • postmenopausal women
  • cell cycle arrest
  • body composition
  • endoplasmic reticulum stress