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羟基磷灰石涂层处理的多孔镍钛合金溶血性及细胞黏附性评价 被引量:3

Effect of hydroxyapatite coated porous NiTi alloy on hemolysis and cellular adhesion properties
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摘要 目的通过研究经羟基磷灰石(HA)涂层处理后多孔镍钛(NiTi)合金的溶血率及成骨细胞在其表面的附着、增殖及分化情况,评价其体外生物相容性。方法测定经HA涂层处理的圆盘状多孔NiTi合金(NiTi-HA组;直径10mm,厚2mm)的生物相容性,未经涂层处理的多孔NiTi合金(NiTi组)及致密纯钛(Ti组)试样设为对照组。采用分光光度法分析其溶血性能;将成骨细胞接种于试样表面,用扫描电镜(SEM)观察成骨细胞黏附形态,MTS法及碱性磷酸酶(ALP)试剂检测细胞附着、增殖情况及ALP活性,对数据进行重复测量方差分析。结果 NiTi-HA组、NiTi组及Ti组试样的溶血率分别为(0.30±0.11)%、(0.51±0.07)%及(0.27±0.06)%,均低于国家标准(YY/T0127.1)规定的5%。SEM观察显示,NiTi-HA组及NiTi组试样细胞黏附形态良好。NiTi-HA组试样表面细胞附着及增殖数量均高于NiTi组试样(P值分别为0.000与0.001)。NiTi-HA组及NiTi组试样表面细胞ALP活性无差异(P=1),但均高于Ti组试样(P值分别为0.001与0.0004)。结论 NiTi-HA组、NiTi组及Ti组试样均无溶血作用;NiTi-HA组较NiTi组更有利于成骨细胞附着和增殖,且ALP活性均高于纯钛。 Objective To investigate the biocompatibility of the HA coated porous NiTi alloys in vitro. Hemolysis rate, cell attachment, proliferation, and ALP activity of the human fetal osteoblastic 1.19 cell line (hFOB 1.19) cultured on the HA coated porous NiTi alloys were measured. Methods A series of biocompatibility tests of porous NiTi alloy disc-shaped samples ( 10 mm in diameter and 2 mm in thickness) coated with HA were performed, and the untreated porous NiTi alloy and pure titanium samples were used for a comparative study. The hemolysis of all samples was tested by spectrophotometry. Scanning electron microscope (SEM) was used to observe morphology of hFOB 1.19 incubating on the samples, and MTS method and ALP kit were used to test cell attachment, proliferation and ALP activity. Repeated measurements were carried out with analysis of variance on the data. Results Hemolysis rates of the untreated NiTi alloy, HA-coated porous NiTi alloy and pure titanium samples are (0.30 ± 0.11 )%, (0.51 ±0.07)% and (0.27 ± 0.06)%, respectively, which are lower than 5% and acceptable according to the YY/T0127.1 standard. The SEM observation revealed that the hFOB 1.19 attached and spreadwell on the HA-coated porous NiTi alloy. The cell attachment and cell proliferation tests results showed that cells were better attached (P = 0.000) and proliferated (P = 0.001) on the HA-coated NiTi alloy samples than on the untreated NiTi alloy samples. ALP activity experimental results showed no significant difference between the HA-coated and untreated NiTi sample groups (P= 1), but the samples in both groups exhibited higher ALP activity than the pure titanium samples (P= 0.001, P= 0.0004), respectively. Conclusions The results indicated that the HA-coated NiTi alloy and untreated NiTi alloy samples showed no hemolysis effect; HA coating can enhance the attachment and proliferation of hFOB 1.19 on the porous NiTi alloy, and ALP activity of the HA-coated and untreated porous NiTi alloys was higher than that of pure Ti.
出处 《中华口腔医学研究杂志(电子版)》 CAS 2012年第3期34-38,共5页 Chinese Journal of Stomatological Research(Electronic Edition)
基金 国家自然科学基金(50871039) 广东省自然科学基金(10151064101000017)
关键词 多孔NITI合金 表面涂层 羟基磷灰石 血液相容性 生物相容性 Porous NiTi alloy Surface coating Hydroxyapatite Hemocompatibility Biocompatibility
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参考文献20

  • 1Bansiddhi A, Sargeant TD, Stupp SI, et al. Porous NiTi for bone implants : a review. Acta Biomater, 2008,4 (4) : 773-782.
  • 2Zhu SL, Yang X J, Chen MF, et al. Effect of porous NiTi alloy on bone formation: A comparative investigation with bulk NiTi alloy for 15 weeks in vivo. Mater Sei Eng C, 2008,28(8): 1271-1275.
  • 3Jiang I-[C, Rong LJ. Effect of hydroxyapatite coating on nickel release of the porous NiTi shape memory alloy fabricated by SHS method. Surf Coat Technol, 2006,201 (3-4) : 1017-1021.
  • 4Zhang JX, Guan RF, Zhang XP. Synthesis and characterization of sol-gel hydroxyapatite coatings deposited on porous NiTi alloys. J Alloys Compd, 2011,509 ( 13 ) : 4643-4648.
  • 5Li DS, Zhang YP, Eggeler G, et al. High porosity and high- strength porous NiTi shape memory alloys with controllable pore characteristics. J Alloys Compd, 2009,470(1-2) : L1 -I_5.
  • 6Bandyopadhyay A, Espana F, Balla VK, et al. Influence of porosity on mechanical properties and in vivo response of Ti6A14V implants. Acta Biomater, 2010,6(4) : 1640-1648.
  • 7Sevilla P, Aparicio C, Planell JA, et al. Comparison of the mechanical properties between tantalum and nickel-titanium foams implant materials for bone ingrowth applications. J Alloys Compd, 2007,439( 1 ) : 67-73.
  • 8Liu X, Wu S, Yeung KW, et al. Relationship between osseointegration and superelastic biomechanics in porous NiTi scaffolds. Biomaterials, 2011,32(2) : 330-338.
  • 9Thierry B, Winnik FM, Merhi Y, et al. Biomimetic hemocompatible coatings through immobilization of hyaluronan derivatives on metal surfaces. Langmuir, 2008,24 (20) : 11834- 11841.
  • 10Bhattarai SR, Khalil KA, Dewidar M, et al. Novel production method and in-vitro cell compatibility of porous Ti-6A1-4V alloy disk for hard tissue engineering. J Biomed Mater Res Part A, 2008,86A (2) : 289-299.

同被引文献57

  • 1Esenwein Stefan A,Bogdanski Denise,Prymak Oleg,Epple Matthias,Muhr Gert,Kller Manfred.Surface Coating of NiTi Shape Memory Alloys with Calcium Phosphates by Dip-coating or Plasma-spraying-biological Characterization Examined by in vitro Testing Methods[J].Journal of Wuhan University of Technology(Materials Science),2005,20(B12):7-9. 被引量:1
  • 2李亚东,郭明杉,寇自农,刘敬肖,牛丽婷.医用NiTi合金表面双层生物活性薄膜的制备及表征[J].大连轻工业学院学报,2006,25(3):197-200. 被引量:2
  • 3Sharma N, Raj T, Jangra K K.Applications of Nickel-Titanium Alloy[J]. Journal of Engineering and Technology, 2015, 5 (1) : 1.
  • 4Shabalovskaya S A. On the nature of the biocompatibility and on medical applications of NiTi shape memory and superelastic alloys[J].Bio-medical materials and engineering, 1996,6(4): 267-289.
  • 5Es-Souni M, Es-Sotmi M, Fischer-Brandies H. Assessing the biocompatibility of NiTi shape memory alloys used for medical applications[J].Analytical and bioanalytical chemistry,2005,381 (3): 557-567.
  • 6Bansiddhi A, Sargeant T, Stupp S, et al. Porous NiTi for bone im- plants: a review[J]. Acta biomaterialia, 2008,4(4) : 773-782.
  • 7Li H, Yuan B, Gao Y, et al. Remarkable biocompatibility enhancement of porous NiTi alloys by a new surface modification approach: In-situ nitriding and in vitro and in vivo evaluation[J]. Journal of Biomedical Materials Research Part A, 2011,99(4) : 544-553.
  • 8Huang H-H,Chiu Y-H,Lee T-H, et al.Ion release from NiTi orthodontic wires in artificial saliva with various acidities[J]. Biomaterials, 2003,24(20) : 3585-3592.
  • 9Poosti M, Rad H, Kianoush K, et al. Are more nickel ions released from NiTi wires after sterilisation[J]. Australian orthodontic jour- nal, 2009,25(1) : 30.
  • 10Bishara S E, Winterbottom JM, Sulieman A-HA, et al. Comparisons of the thermodynamic properties of three nickel-titanittm orthodontic archwires[J].The Angle orthodontist, 1995,65(2) :117-122.

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