钛种植体表面矿化胶原涂层的生物学性能研究

›› 2015, Vol. 35 ›› Issue (10): 822-825.

钛种植体表面矿化胶原涂层的生物学性能研究

孙鑫¹,魏金水²,徐金标²

1. 台州市第一人民医院
2. 浙江省台州市第一人民医院口腔科

收稿日期:2014-11-24 修回日期:2015-03-23 出版日期:2015-10-28 发布日期:2015-10-27
通讯作者: 孙鑫 E-mail:drsunxin@163.com

Biological evaluation of mineralized collagen coatings on titanium implant surface

Received:2014-11-24 Revised:2015-03-23 Online:2015-10-28 Published:2015-10-27

摘要/Abstract

摘要： 目的　　钛种植体表面应用电化学沉积技术制备的矿化胶原涂层的生物学性能研究。方法　本研究应用电化学沉积技术在钛金属表面制备了矿化胶原涂层,应用模拟体液（SBF）浸泡表征其诱导羟基磷灰石骨性结合能力,利用MTS法检测涂层的细胞粘附及增殖性能。结果　制备的矿化胶原涂层能在SBF中稳定存在并继续矿化，能促进植入成骨前体细胞在其表面的粘附、增殖和分化。结论　钛种植体表面进行矿化胶原涂层修饰可以有效促进其生物活性。

关键词: 电化学沉积, 矿化胶原, 钛基板

Abstract: Objective To study the biological performance of the mineralized collagen coatings on titanium implant prepared by electrochemical deposition technique. Methods In this study, the electrochemical deposition technique was used to prepare the mineralized collagen coating on titanium surface, simulated body fluid (SBF) was used to characterize the HA-induced capacity, and MTS method was adopted to evaluate the adhesion and proliferation behaviors of the osteoblast cells. Results In vitro experimental results showed that the mineralized collagen coating was stable in simulated body fluid (SBF), and it could promote the adhesion, proliferation and differentiation of the osteoblast precursor cells. Conclusion Modification of the mineralized collagen coating on titanium implant surface can effectively promote its biological activity.

Key words: electrochemical deposition, mineralized collagen, titanium implant

孙鑫魏金水徐金标. 钛种植体表面矿化胶原涂层的生物学性能研究[J]. , 2015, 35(10): 822-825.

参考文献

[1]Rautray TR,Narayanan R,Kim KH.Ion implant of tiatanium based biomaterials[J].Prog Mat Sci,2011,56(8):1137-1177
[2]胡盼，周名兵，黄棣，等.钛金属表面活化处理及表面细胞响应特性[J].功能材料杂志,2012,12(43):1532-1536
[3] Schliephakea H and Scharnweber D,Chemical and biological functionalization of titanium of dental implants[J].Mat Chem,2008,18(21):2404-2414
[4]Seifi M,Arayesh A,Sgamloo N,et al.Effect of nanocrystalline hydroxyapatite socket preservation on orthodontically induced inflammatory root resorption[J].Cel,2015,16(4):514-527
[5]Kang K,Lim H,Yun KD,et al.Effect of viscosities on the surface morphology and crystallographic properties of hydroxyapatite coated titanium dioxide nanotubes[J].Nanosci Nanotech,2015,15(7):5310-5313
[6]Sutha S,Dhineshbabu NR,Prabhu M,et al.Mg-doped hydroxyapatite/chitosan composite coated 316L stainless steel implants for biomedical applications[J].Nanosci Nanotech,2015,15(6):4178-4187
[7]Kwon YD,Yang DH,lee DW.A Titanium surface-modified with nano-sized hydroxyapatite and simvastatin enhances bone formation and osseointegration[J].Biomed Nanotech,2015,11(6):1007-1015
[8]Modzelewski T,Hotham I,Allcock HR.Deposition of calcium hydroxyapatite on negatively charged polyphosphazene surfaces[J].App Ploymer Sci,2015,132(13):41741-
[9]Gutwein LG,Webster TJ.Increased viable osteoblast density in the presence of nanophase compared to conventional alumina and titania particles[J].Biomaterials,2004,25(17):4175-
[10]Webster TJ,Ergun C,Doremus RH,et al. Specific proteins mediate enhanced osteoblast adhesion on of arvestig autogenous cancellous graft from the ipsilateral proximal tibia for use in foot and ankle surgery[C]// South Carolina: American Orthopaedic Foot and Ankle Society 19th Annual Summol/Ler Meeting.[J].Final Program,2003,19:57-
[11] Katsutoshi K,Naoki T,Fuminori I,et al.Cellular behavior on TiO2 nanonodular structures in a micro-to-nanoscale hierarchy model[J]. Biomaterials,2009,30 (29) 5319-5329
[12]Kong YM,Bae CJ,Lee SH,et al.Improvement in biocompatibility of ZrO2- Al2O3 nano- composite by addition of HA[J].Biomaterials,2005,26(5):509-
[13]Yang L,Yan F,Shuling B,et al.Nano-hydroxyapatite-collegen-chitosan substance compound with bone marrow mesenchymal stem cells to repair tibia defect in mice[J].Acta Anatomica Sinica,2013,44(3):386-392
[14]Gang C,Tianqiu M,Qing X.Absorbable coral hydroxyapatite as a scaffold for t2 engineered bone in vitro[J].Pract Stomat,2002,18(2):160-162
[15]Rocca A,Mario A,Rocca V,et al.Barium titanate nanoparticles and hypergravity stimulation improve differentiation of mesenchymal stem cells into osteoblastsInternat[J].. Nanomed,2015,10:433-445
[16]Prabhu V,Rao S,Fernandes EM,et al.Objective assessment of endogenous collagen in vivo during t5 repair by laser induced fluorescence[J].Plos One,2014,9(5):e98609-