Диссертация (1139640), страница 38
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Kang S.-W., Lee W.-J., Choi S.C., et al. Volumetric quantification ofbone-implant contact using micro-computed tomography analysis based onregion-based segmentation // Imaging Sci Dent. – 2015. – Vol 45, № 1. – P. 7–13.234. Kaptoge S., da Silva J.A., Brixen K., et al. Geographical variation inDXA Bone mineral density in young European men and women. Results from theNetwork in Europe on Male Osteoporosis (NEMO) study // Bone. – 2008. – Vol.43, № 2.
– P. 332–339.235. Karamian E., Khandan A., Kalantar M.R.M., Mirmohammadi H.Surfacecharacteristicsandbioactivity ofanovelnaturalHA/Zirconnanocomposite coated on dental implants // Biomed. Res. Int. – 2014. – e410627.236. Karimi M.R., Fathi S., Ghanavati F. Effects of counter torque andtransposition (transfer) of installed implants timing on their integration in dog tibia// J. Adv. Prosthodont. – 2015. – Vol. 7, № 1.
– P. 62–68.237. Kempen D.H., Lu L., Heijink A., et al. Effect of local sequentialVEGF and BMP-2 delivery on ectopic and orthotopic bone regeneration //Biomater. – 2009. – Vol. 30. – P. 2816–2825.238. Khang Hong D.G., Oh J.-H. Recent advances in dental implants //Maxillofac. Plast. Reconstr. Surg. – 2017. – Vol. 39, № 1.
– P. 33.239. Kim K., Ramaswamy N. Electrochemical surface modification oftitanium in dentistry // J. Dent. Mater. 2009; 28(1): 20-36.240. KimS.-H., AhnJ.-P., ZadehH.H., LiouE.J.W.Osteogenicbiomaterials in contemporary dentistry // Biomed. Res. Int. 2015: e945320.241. Kim T.N., Balakrishnan A., Lee B.C., et al. In vitro fibroblastresponse to ultra fine grained titanium produced by a severe plastic deformationprocess // J. Mater. Sci. Mater. Med.
2008; 19: 553–557.242. King W.J., Krebsbach P.H. Growth factor delivery: How surfaceinteractions modulate release in vitro and in vivo // Adv. Drug Deliv. Rev. 2012;64(12): 1239–1256.243. Kitamura M., Nakashima K., Kowashi Y., et al. Periodontal tissue237regeneration using fibroblast growth factor-2: randomized controlled phase IIclinical trial // PLoS ONE. 2008; 3: e2611.244.
Koh J.W., Kim Y.S., Yang J.H., Yeo I.S. Effects of a calcium phosphate-coatedand anodized titanium surface on early bone response // Int. J. Oral Maxillofac. Implants. 2013;28(3): 790–797.245. Kolmas J., Groszyk E., Kwiatkowska-Różycka D. Substitutedhydroxyapatites with antibacterial properties // Biomed. Res. Int. 2014; 2014:178123.246. Kono S.J., Oshima Y., Hoshi K., et al. Erk pathways negativelyregulate matrix mineralization // Bone. 2007.
40(1): 68–74.247. Korsch M., Obst U., Walther W. Cement-associated peri-implantitis:a retrospective clinical observational study of fixed implant-supported restorationsusing a methacrylate cement // Clin. Oral Implants Res. – 2014. – Vol. 25, № 7. –P. 797-802.248. Koutouzis T., Wallet S., Calderon N., Lundgren T. Bacterialcolonization of the implant–abutment interface using an in vitro dynamic loadingmodel // J.
Periodontol. – 2011. – Vol. 82. – P. 613–618.249.Kubilius M., Kubilius R., Varinauskas V., et al. Descriptive study ofmandibular canal visibility: morphometric and densitometric analysis for digitalpanoramic radiographs // Dentomaxillofac. Radiol. - 2016. - Vol. 45(7). - e20160079.250. Kundu R., Rathee M. Effect of platelet-rich-plasma (PRP)and implant surface topography on implant stability and bone // J. Clin. Diagn.Res. – 2014.
– Vol. 8, №6. – ZC26–ZC30.251. Kunzler T.P., Drobek T., Schuler M., Spencer N.D. Systematic studyof osteoblast and fibroblast response to roughness by means of surfacemorphology gradients // Biomaterials. – 2007. – Vol. 28, № 13. – P. 2175–2182.252. Kuruvilla M., Murdoch B., Goozèe J. Electromagnetic articulographyassessment of articulatory function in adults with dysarthria following traumaticbrain injury // Brain Injury. – 2007.
– Vol. 21, № 6. – P. 601–613.238253. Kwon Y.-S., Namgoong H., Kim J.-H., et al. Effect of microthreadson removal torque and bone-to-implant contact: an experimental study inminiature pigs // J. Periodontal Implant Sci. – 2013. – Vol. 43, № 1. – P. 41–46.254.
Lang N.P., Jepsen S. Implant surfaces and design. Consensus reportof Working Group 4 // Clin. Oral Implants Res. – 2009. – Vol. 20, Suppl 4. – P. 230–233.255. Lang N.P., Berglundh T., Working Group 4 of Seventh EuropeanWorkshop on Periodontology. Periimplant diseases: where are we now? –Consensus of the Seventh European Workshop on Periodontology // J. Clin.Periodontol. – 2011.
– Vol. 38, Suppl. 11. – P. 178–181.256. Lanza A., Scognamiglio F., Femiano F., Lanza M. Immediate, early,and conventional implant placement in a patient with history of periodontitis //Case Rep Dent. – 2015. – e217895.257. Launey M.E., Ritchie R.O. On the fracture toughness of advancedmaterials // Adv.
Mater. 2009; 21(20): 2103–2110.258. Laurencin C.T., Ashe K.M., Henry N., et al. Delivery of smallmolecules for bone regenerative engineering: preclinical studies and potentialclinical applications // Drug Discov. Today. 2014; 19(6): 794–800.259. Le Guehennec L., Soueidan A., Layrolle P., Amouriq Y. Surfacetreatments of titanium dental implants for rapid osseointegration // Dent. Mater.2007; 23: 844–854.260. Lee H.-J., Lee J., Lee J.-T., et al. Microgrooves on titanium surfaceaffect peri-implant cell adhesion and soft tissue sealing; an in vitro and invivo study // J.
Periodontal Implant Sci. 2015; 45(3): 120–126.261. Lee H.-J., Yang I.-H., Kim S.-K., et al. In vivo comparison betweenthe effects of chemically modified hydrophilic and anodically oxidized titaniumsurfaces on initial bone healing // J. Periodontal Implant Sci. 2015; 45(3): 94–100.262. Lee J., Hurson S., Tadros H., et al. Crestal remodelling andosseointegration at surface-modified commercially pure titanium and titanium239alloy implants in a canine model // J Clin. Periodontol.
2012; 39(8): 781-788.263. Lee J.H., Kim J., Baek H.-R., et al. Fabrication of an rhBMP-2 loadedporous β-TCP microsphere-hyaluronic acid-based powder gel composite andevaluation of implant osseointegration // J. Mater. Sci. Mater Med. 2014; 25(9):2141–2151.264. Lee J.J., Rouhfar L., Beirne O.R. Survival of hydroxyapatite-coatedimplants: a meta-analytic review // J.
Oral Maxillofac. Surg. 2000; 58(12): 1372–1379.265. Lee J.K., Choi D.S., Jang I., Choi W.Y. Improved osseointegration ofdental titanium implants by TiO2 nanotube arrays with recombinant human bonemorphogenetic protein-2: a pilot in vivo study // Int. J. Nanomedicine. 2015; 10:1145-1154.266. Lee S.W., Hahn B.D., Kang T.Y., et al. Hydroxyapatite and collagencombination-coated dental implants display better bone formation in the periimplant areathan the same combination plus bone morphogenetic protein-2-coatedimplants, hydroxyapatite only coated implants, and uncoated implants // J.
OralMaxillofac. Surg. 2014; 72(1): 53-60.267. Lee Y.-J., Cui D.-Z., Jeon H.-R., et al. Surface characteristics ofthermally treated titanium surfaces // J. Periodontal Implant Sci. 2012; 42(3): 81–87.268. Liang Y., Xu J., Chen J., et al. Zinc ion implantation-depositiontechnique improves the osteoblast biocompatibility of titanium surfaces // Mol.Med. Rep. 2015; 11(6): 4225–4231.269.
Liu J., Huang F., He H.W. Melatonin effects on hard tissues: boneand tooth. Int. J. Mol. Sci. 2013; 14(5): 10063–10074.270. Loberg J., Perez Holmberg J., Mattisson I., et al. Electronic propertiesof TiO2 nanoparticles films and the effect on apatite-forming ability // Int. J. Dent.2013; 2013: e139615.271. Lohmann C.H., Rampal S., Lohrengel M., Singh G. Imaging in peri-240prosthetic assessment: an orthopaedic perspective // EFORT Open Rev. – 2017. –Vol. 2, №5.
– P. 117–125.272. Lopez M.A., Andreasi Bassi M., Confalone L., et al. The treatment ofperi-implant diseases: a new approach using Hybenx® as a decontaminantfor implant surface and oral tissues // Oral Implantol (Rome). – 2016. – Vol. 9, №3. – P. 106–114.273. Lopez-Esteban S., Gutierrez-Gonzalez C.F., Gremillard L., et al.Interfaces in graded coatings on titanium-based implants // J. Biomed. Mater. Res.Pt A. 2009; 88(4): 1010–1021.274.
Lotfibakhshaiesh N., Brauer D.S., Hill R.G. Bioactive glassengineered coatings for Ti6Al4V alloys: Influence of strontium substitution forcalcium on sintering behavior // J. Non-Crystalline Solids. 2010; 356(44–49):2583–2590.275. Lovmand J., Justesen J., Foss M., et al. The use of combinatorialtopographical libraries for the screening of enhanced osteogenic expression andmineralization // Biomaterials. 2009; 30(11): 2015-2022.276. Luo T., Shi C., Zhao X., et al. Automatic synthesis of panoramicradiographs from dental cone beam computed tomography data // PLoS One. –2016. – Vol. 11, №6. – e0156976.277.
Luo T., Zhang W., Shi B., et al. Enhanced bone regeneration arounddental implant with bone morphogenetic protein 2 gene and vascular endothelialgrowth factor protein delivery // Clin. Oral Implants Res. 2012; 23(4): 467-473.278. Ma Q., Wang W., Chu P.K., et al. Concentration- and time-dependentresponse of human gingival fibroblasts tofibroblast growth factor 2 immobilizedon titanium dental implants // Int. J. Nanomedicine. 2012; 7: 1965-1976.279. Mangano F., Raspanti M., Maghaireh H., Mangano C. Scanningelectron microscope (SEM) evaluation of the interface between a nanostructuredCalcium-incorporated dental implant surface and the human bone // Materials241(Basel).
– 2017. – Vol. 10, № 12. – P. 1438.280. Martelli F.S., Martelli M., Rosati C., Fanti E. Vitamin D: relevancein dental practice Clin Cases Miner Bone Metab. 2014 Jan-Apr; 11(1): 15–19.281. Maruo Y., Irie M., Nishigawa G., et al. Modified direct reliningmethod produces an accurate adaptation of denture // Dent. Mater.
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