Erratum: Hydroxyapatite additive influenced the bioactivity of bioactive nano-titania ceramics and new bone-forming capacity(Journal of Nanoparticle Research (2012) 14 (11450 DOI: 10.1007/s11051-012-1145-5);Hydroxyapatite additive influenced the bioactivity of bioactive nano-titania ceramics and new bone-forming capacity

Journal of Nanoparticle Research

Volumn 14, Issue 9, 2012, Pages

  Li, Zhensheng ^a   Yang, Xiaozhan ^a,b   Guo, Hongfeng ^a   Yang, Xiaochao ^a   Sun, Lili ^a   Dong, Shiwu ^a  

^a THIRD MILITARY MEDICAL UNIVERSITY   (China)

^b CHONGQING UNIVERSITY OF TECHNOLOGY   (China)

Author keywords

Bioactivity; Hydroxyapatite; Nano titania ceramics

Indexed keywords

ADDITIVES; APATITE; BIOACTIVITY; BIOCERAMICS; BONE; CELL PROLIFERATION; GRAIN GROWTH; HYDROXYAPATITE; OXIDE MINERALS; PARTICLE SIZE; SINTERING;

APATITE FORMATION; BONE SUBSTITUTES; COMPOSITE CERAMIC; GRAIN GROWTH INHIBITORS; HISTOLOGICAL SECTION; NANO-TITANIA; POROUS CERAMICS; PRESSURE-LESS SINTERING;

TITANIUM DIOXIDE;

BIOCERAMICS; CALCIUM; HYDROXYAPATITE; PHOSPHORUS; TITANIUM; TITANIUM DIOXIDE;

ANIMAL CELL; ANIMAL TISSUE; ARTICLE; BIOLOGICAL ACTIVITY; BODY FLUID; CELL CULTURE; CELL PROLIFERATION; CERAMICS; CONTROLLED STUDY; EXPERIMENTAL RABBIT; HISTOLOGY; IN VITRO STUDY; IN VIVO STUDY; NONHUMAN; OSSIFICATION; OSTEOBLAST; PARTICLE SIZE; POROSITY; PRIORITY JOURNAL; SCANNING ELECTRON MICROSCOPY; TEMPERATURE;

EID: 84866980090     PISSN: 13880764     EISSN: 1572896X     Source Type: Journal    
DOI: 10.1007/s11051-012-1365-8     Document Type: Erratum

References (17)

1. Aksakal B, Yildirim S, Gul H (2007) Metallurgical failure analysis of various implant materials used in orthopedic applications. J Fail Anal Prev 4:17-23
2. Dimitrievska S, Bureau MN, Antoniou J, Mwale F, Petit A, Lima RS, Marple BR (2011) Titania-hydroxyapatite nanocomposite coatings support human mesenchymal stem cells osteogenic differentiation. J Biomed Mater Res A 98A:576-588
3. Gordin DM, Gloriant T, Texier G, Thibon I, Ansel D, Duval JL, Nagel MD (2005) Synthesis, structure and electrochemical behavior of a beta Ti-12Mo-5Ta alloy as new biomaterial. Mater Lett 59:2936-2941 (Pubitemid 41084663)
4. Jensen H, Soloview A, Sogaard EG (2005) XPS and FTIR investigation of the surface properties of different prepared titania nano-powders. Appl Surf Sci 246:239-249 (Pubitemid 40574331)
5. Kawashita M, Kim HM, Kokubo T (2003) Apatite-forming ability of carboxyl group-containing polymer gels in a simulated body fluid. Biomaterials 24:2477-2484 (Pubitemid 36407664)
6. Lee SH, Kim HW, Lee EJ (2006) Hydroxyapatite TiO2 hybrid coating on Ti implants. J Biomater Appl 20:195-208
7. Leonor IB, Baran ET, KawashitaM(2008) Growth of a bonelike apatite on chitosan microparticles after a calcium silicate treatment. Acta Biomater 4:1349-1359
8. Liu HN, Webster TJ (2011) Enhanced biological and mechanical properties of well-dispersed nanophase ceramics in polymer composites: From 2D to 3D printed structures. Mater Sci Eng C 31:77-89
9. Michiko S, Elliott B, Webster TJ (2009) Enhanced osteoblast adhesion on hydrothermally treated hydroxyapatite/titania/ poly(lactide-co-glycolide) sol-gel titanium coatings. Biomaterals 20:6143-6150
10. Piveteau LD, Moner I, Girona M (1999) Thin films of calcium phosphate and titanium dioxide by a sol-gel route: A new method for coating medical implants. J Mater Sci Mater Med 10:161-167 (Pubitemid 29121943)
11. Schwartz AD, Mardinger O, Levin L (2009) Marginal bone loss pattern around hydroxyapatite-coated versus commercially pure titanium implants after up to 12 years of follow-up. Int J Oral Maxillofac Implants 20:238-244 (Pubitemid 40592211)
12. Seramak T, Serbinski W (2010) Preparation of the porous biomaterial based on titanium alloy for orthopaedic implants. J Biomech 43:S55-S56
13. Webster TJ, Ejiofor JU (2004) Increased osteoblast adhesion on nanophase metals: Ti, Ti6Al4V, and CoCrMo. Biomaterials 25:4731-4739 (Pubitemid 38561160)
14. Xu LC, Siedlecki CA (2007) Effects of surface wettability and contact time on protein adhesion to biomaterial surfaces. Biomaterials 28:3273-3283 (Pubitemid 46693972)
15. Yang BC, Uchida M, Kim HM (2004) Preparation of bioactive titanium metal via anodic oxidation treatment. Biomaterials 25:1003-1010 (Pubitemid 37393291)
16. Yazici H, Ergun C, Bermek H (2008) An in vitro evaluation of the Ca/P ratio for the cytocompatibility of nano-to-micron particulate calcium phosphates for bone regeneration. Acta Biomater 4:1472-1479
17. Zhou Y, Niinomi M, Akahori T (2005) Corrosion resistance and biocompatibility of Ti-Ta alloys for biomedical application. Mater Sci Eng A 398:28-36 (Pubitemid 40697001)