Publications

  • Journal Papers

[1] X.F. Hu, Y.F. Feng, G. Xiang, W. Lei, L. Wang, Lactic acid of PLGA coating promotes angiogenesis on the interface between porous titanium and diabetic bone, Journal of Materials Chemistry B 6(15) (2018) 2274-2288.

[2] F. Wang, L. Wang, Y. Feng, X. Yang, Z. Ma, L. Shi, X. Ma, J. Wang, T. Ma, Z. Yang, X. Wen, Y. Zhang, W. Lei, Evaluation of an artificial vertebral body fabricated by a tantalum-coated porous titanium scaffold for lumbar vertebral defect repair in rabbits, Sci Rep 8(1) (2018) 8927.

[3] X.F. Hu, L. Wang, G. Xiang, W. Lei, Y.F. Feng, Angiogenesis impairment by the NADPH oxidase-triggered oxidative stress at the bone-implant interface: Critical mechanisms and therapeutic targets for implant failure under hyperglycemic conditions in diabetes, Acta biomaterialia 73 (2018) 470-487.

[4] X.F. Hu, L. Wang, Y.Z. Lu, G. Xiang, Z.X. Wu, Y.B. Yan, Y. Zhang, X. Zhao, Y. Zang, L. Shi, W. Lei, Y.F. Feng, Adiponectin improves the osteointegration of titanium implant under diabetic conditions by reversing mitochondrial dysfunction via the AMPK pathway in vivo and in vitro, Acta biomaterialia 61 (2017) 233-248.

[5] J. Wang, X.Y. Ma, Y.F. Feng, Z.S. Ma, T.C. Ma, Y. Zhang, X. Li, L. Wang, W. Lei, Magnesium Ions Promote the Biological Behaviour of Rat Calvarial Osteoblasts by Activating the PI3K/Akt Signalling Pathway, Biol Trace Elem Res 179(2) (2017) 284-293.

[6] X.Y. Ma, Y.F. Feng, T.S. Wang, W. Lei, X. Li, D.P. Zhou, X.X. Wen, H.L. Yu, L.B. Xiang, L. Wang, Involvement of FAK-mediated BMP-2/Smad pathway in mediating osteoblast adhesion and differentiation on nano-HA/chitosan composite coated titanium implant under diabetic conditions, Biomater Sci 6(1) (2017) 225-238.

[7] L. Wang, X. Hu, X. Ma, Z. Ma, Y. Zhang, Y. Lu, X. Li, W. Lei, Y. Feng, Promotion of osteointegration under diabetic conditions by tantalum coating-based surface modification on 3-dimensional printed porous titanium implants, Colloids Surf B Biointerfaces 148 (2016) 440-452.

[8] L. Wang, X. Zhao, B.Y. Wei, Y. Liu, X.Y. Ma, J. Wang, P.C. Cao, Y. Zhang, Y.B. Yan, W. Lei, Y.F. Feng, Insulin improves osteogenesis of titanium implants under diabetic conditions by inhibiting reactive oxygen species overproduction via the PI3K-Akt pathway, Biochimie 108 (2015) 85-93.

[9] X. Li, X.Y. Ma, Y.F. Feng, Z.S. Ma, J. Wang, T.C. Ma, W. Qi, W. Lei, L. Wang, Osseointegration of chitosan coated porous titanium alloy implant by reactive oxygen species-mediated activation of the PI3K/AKT pathway under diabetic conditions, Biomaterials 36 (2015) 44-54.

[10] X. Li, X.Y. Ma, Y.F. Feng, L. Wang, C.T. Wang, A novel composite scaffold consisted of porous titanium and chitosan sponge for load-bearing applications: Fabrication, characterization and cellular activity, Composites Science and Technology 117 (2015) 78-84.

[11] L. Wang, X.Y. Ma, Y. Zhang, Y.F. Feng, X. Li, Y.Y. Hu, Z. Wang, Z.S. Ma, W. Lei, Repair of segmental bone defect using Totally Vitalized tissue engineered bone graft by a combined perfusion seeding and culture system, PloS one 9(4) (2014) e94276.

[12] X.Y. Ma, Y.F. Feng, Z.S. Ma, X. Li, J. Wang, L. Wang, W. Lei, The promotion of osteointegration under diabetic conditions using chitosan/hydroxyapatite composite coating on porous titanium surfaces, Biomaterials 35(26) (2014) 7259-70.

[13] Z.S. Ma, L. Wang, G.S. Du, L. Wang, X.J. Chen, What is the work environment of orthopaedic surgeons in China?, Clinical orthopaedics and related research 472(11) (2014) 3576-80.

[14] Y. Feng, Y. Liu, L. Wang, X. Cai, D. Wang, K. Wu, H. Chen, J. Li, W. Lei, Sustained oxidative stress causes late acute renal failure via duplex regulation on p38 MAPK and Akt phosphorylation in severely burned rats, PloS one 8(1) (2013) e54593.

[15]Y.F. Feng, L. Wang, Y. Zhang, X. Li, Z.S. Ma, J.W. Zou, W. Lei, Z.Y. Zhang, Effect of reactive oxygen species overproduction on osteogenesis of porous titanium implant in the present of diabetes mellitus, Biomaterials 34(9) (2013) 2234-43.

[16] X. Li, L. Wang, X. Yu, Y. Feng, C. Wang, K. Yang, D. Su, Tantalum coating on porous Ti6Al4V scaffold using chemical vapor deposition and preliminary biological evaluation, Materials science & engineering. C, Materials for biological applications 33(5) (2013) 2987-94.

[17] X. Li, Y.F. Feng, C.T. Wang, G.C. Li, W. Lei, Z.Y. Zhang, L. Wang, Evaluation of biological properties of electron beam melted Ti6Al4V implant with biomimetic coating in vitro and in vivo, PloS one 7(12) (2012) e52049.

[18]Y.F. Feng, L. Wang, X. Li, Z.S. Ma, Y. Zhang, Z.Y. Zhang, W. Lei, Influence of architecture of beta-tricalcium phosphate scaffolds on biological performance in repairing segmental bone defects, PloS one 7(11) (2012) e49955.

[19]X. Li, C.T. Wang, L. Wang, W.G. Zhang, Y. Li, Fabrication of Bioactive Titanium with Controlled Porous Structure and Cell Culture in Vitro, Rare Metal Mat Eng 39(10) (2010) 1697-1701.

[20] L. Wang, Y.Y. Hu, Z. Wang, X. Li, D.C. Li, B.H. Lu, S.F. Xu, Flow perfusion culture of human fetal bone cells in large beta-tricalcium phosphate scaffold with controlled architecture, J Biomed Mater Res A 91(1) (2009) 102-13.

[21]X. Li, D. Li, L. Wang, B. Lu, Z. Wang, Osteoblast cell response to beta-tricalcium phosphate scaffolds with controlled architecture in flow perfusion culture system, Journal of materials science. Materials in medicine 19(7) (2008) 2691-7.

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