International Journal of Nanomedicine (Sep 2022)

The Osteogenic Role of Barium Titanate/Polylactic Acid Piezoelectric Composite Membranes as Guiding Membranes for Bone Tissue Regeneration

  • Dai X,
  • Yao X,
  • Zhang W,
  • Cui H,
  • Ren Y,
  • Deng J,
  • Zhang X

Journal volume & issue
Vol. Volume 17
pp. 4339 – 4353

Abstract

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Xianglin Dai,1 Xijun Yao,1 Wenfeng Zhang,1 Hongyuan Cui,2 Yifan Ren,1 Jiupeng Deng,1 Xia Zhang3 1College of Stomatology, North China University of Science and Technology, Tangshan, 063200, People’s Republic of China; 2College of Electrical Engineering, North China University of Science and Technology, Tangshan, 063200, People’s Republic of China; 3Library, North China University of Science and Technology, Tangshan, 063200, People’s Republic of ChinaCorrespondence: Jiupeng Deng, College of Stomatology, North China University of Technology, Tangshan, 063200, People’s Republic of China, Email [email protected]: Biopiezoelectric materials have good biocompatibility and excellent piezoelectric properties, and they can generate local currents in vivo to restore the physiological electrical microenvironment of the defect and promote bone regeneration. Previous studies of guided bone regeneration membranes have rarely addressed the point of restoring it, so this study prepared a Barium titanate/Polylactic acid (BT/PLA) piezoelectric composite membrane and investigated its bone-formation, with a view to providing an experimental basis for clinical studies of guided bone tissue regeneration membranes.Methods: BT/PLA composite membranes with different BT ratio were prepared by solution casting method, and piezoelectric properties were performed after corona polarization treatment. The optimal BT ratio was selected and then subjected to in vitro cytological experiments and in vivo osteogenic studies in rats. The effects on adhesion, proliferation and osteogenic differentiation of the pre-osteoblastic cell line (MC3T3-E1) were investigated. The effect of composite membranes on bone repair of cranial defects in rats was investigated after 4 and 12 weeks.Results: The highest piezoelectric coefficient d33 were obtained when the BT content was 20%, reaching (7.03 ± 0.26) pC/N. The value could still be maintained at (4.47± 0.17) pC/N after 12 weeks, meeting the piezoelectric constant range of bone. In vitro, the MC3T3-E1 cells showed better adhesion and proliferative activity in the group of polarized 20%BT. The highest alkaline phosphatase (ALP) content was observed in cells of this group. In vivo, it promoted rapid bone regeneration. At 4 weeks postoperatively, new bone formation was evident at the edges of the defect, with extensive marrow cavity formation; after 12 weeks, the defect was essentially completely closed, with density approximating normal bone tissue and significant mineralization.Conclusion: The BT/PLA piezoelectric composite membrane has good osteogenic properties and provides a new idea for guiding the research of membrane materials for bone tissue regeneration.Keywords: barium titanate, polylactic acid, bio-piezoelectric materials, polarization, osteogenic differentiation, bone regeneration

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