References : Genomic analyses of early peri-implant bone healing in humans: a systematic review [4]
Chehroudi B, Ghrebi S, Murakami H, Waterfield JD, Owen G, Brunette DM. Bone formation on rough, but not polished, subcutaneously implanted Ti surfaces is preceded by macrophage accumulation. J Biomed Mater Res A. 2010;93(2):724–37. doi:10.1002/jbm.a.32587.
Heng BC, Cao T, Stanton LW, Robson P, Olsen B. Strategies for directing the differentiation of stem cells into the osteogenic lineage in vitro. J Bone Miner Res. 2004;19(9):1379–94. doi:10.1359/JBMR.040714.
Dhore CR, Snel SJ, Jacques SV, Naert IE, Walboomers XF, Jansen JA. In vitro osteogenic potential of bone debris resulting from placement of titanium screw-type implants. Clin Oral Implants Res. 2008;19(6):606–11. doi:10.1111/j.1600-0501.2007.01519.x.
Kim DH, Yoo KH, Choi KS, Choi J, Choi SY, Yang SE, et al. Gene expression profile of cytokine and growth factor during differentiation of bone marrow-derived mesenchymal stem cell. Cytokine. 2005;31(2):119–26. doi:10.1016/j.cyto.2005.04.004.
Omar O, Svensson S, Zoric N, Lenneras M, Suska F, Wigren S, et al. In vivo gene expression in response to anodically oxidized versus machined titanium implants. J Biomed Mater Res A. 2010;92(4):1552–66. doi:10.1002/jbm.a.32475.
Marcellini S, Henriquez JP, Bertin A. Control of osteogenesis by the canonical Wnt and BMP pathways in vivo: cooperation and antagonism between the canonical Wnt and BMP pathways as cells differentiate from osteochondroprogenitors to osteoblasts and osteocytes. Bioessays. 2012;34(11):953–62. doi:10.1002/bies.201200061.
Nakashima K, Zhou X, Kunkel G, Zhang Z, Deng JM, Behringer RR, et al. The novel zinc finger-containing transcription factor osterix is required for osteoblast differentiation and bone formation. Cell. 2002;108(1):17–29.
Komori T. Regulation of osteoblast differentiation by Runx2. Adv Exp Med Biol. 2010;658:43–9. doi:10.1007/978-1-4419-1050-9_5.
Guo J, Padilla RJ, Ambrose W, De Kok IJ, Cooper LF. The effect of hydrofluoric acid treatment of TiO2 grit blasted titanium implants on adherent osteoblast gene expression in vitro and in vivo. Biomaterials. 2007;28(36):5418–25. doi:10.1016/j.biomaterials.2007.08.032.
Mendonça G, Mendonça DB, Simões LG, Araújo AL, Leite ER, Duarte WR, et al. Nanostructured alumina-coated implant surface: effect on osteoblast-related gene expression and bone-to-implant contact in vivo. Int J Oral Maxillofac Implants. 2009;24(2):205–15.
Serial posts:
- Abstract : Genomic analyses of early peri-implant bone healing in humans: a systematic review
- Review : Genomic analyses of early peri-implant bone healing in humans: a systematic review [1]
- Review : Genomic analyses of early peri-implant bone healing in humans: a systematic review [2]
- Methods : Genomic analyses of early peri-implant bone healing in humans: a systematic review [1]
- Methods : Genomic analyses of early peri-implant bone healing in humans: a systematic review [2]
- Results and discussion : Genomic analyses of early peri-implant bone healing in humans: a systematic review [1]
- Results and discussion : Genomic analyses of early peri-implant bone healing in humans: a systematic review [2]
- Results and discussion : Genomic analyses of early peri-implant bone healing in humans: a systematic review [3]
- Results and discussion : Genomic analyses of early peri-implant bone healing in humans: a systematic review [4]
- Results and discussion : Genomic analyses of early peri-implant bone healing in humans: a systematic review [5]
- Results and discussion : Genomic analyses of early peri-implant bone healing in humans: a systematic review [6]
- Results and discussion : Genomic analyses of early peri-implant bone healing in humans: a systematic review [7]
- Conclusions : Genomic analyses of early peri-implant bone healing in humans: a systematic review
- References : Genomic analyses of early peri-implant bone healing in humans: a systematic review [1]
- References : Genomic analyses of early peri-implant bone healing in humans: a systematic review [2]
- References : Genomic analyses of early peri-implant bone healing in humans: a systematic review [3]
- References : Genomic analyses of early peri-implant bone healing in humans: a systematic review [4]
- References : Genomic analyses of early peri-implant bone healing in humans: a systematic review [5]
- References : Genomic analyses of early peri-implant bone healing in humans: a systematic review [6]
- References : Genomic analyses of early peri-implant bone healing in humans: a systematic review [7]
- References : Genomic analyses of early peri-implant bone healing in humans: a systematic review [8]
- Author information : Genomic analyses of early peri-implant bone healing in humans: a systematic review
- Additional information : Genomic analyses of early peri-implant bone healing in humans: a systematic review
- Rights and permissions : Genomic analyses of early peri-implant bone healing in humans: a systematic review
- About this article : Genomic analyses of early peri-implant bone healing in humans: a systematic review
- Table 1 Assessment of the genotyping methodology in the included studies : Genomic analyses of early peri-implant bone healing in humans: a systematic review
- Table 2 Assessment of risk of bias and heterogeneity within and across the included studies : Genomic analyses of early peri-implant bone healing in humans: a systematic review
- Table 3 Summary of findings from the included studies (n = 4) : Genomic analyses of early peri-implant bone healing in humans: a systematic review
- Table 4 Summary of biological processes and associated genes reported in the included studies : Genomic analyses of early peri-implant bone healing in humans: a systematic review
- Figure 1. Flowchart for study selection (n = number of studies). : Genomic analyses of early peri-implant
- Figure 2. Summary of biological processes identified via gene expression during early peri-implant bone healing. CKs, cytokines; GFs, growth factors; EPC, endothelial progenitor cells; EC, endothelial cells; MSC, mesenchymal stem cells; OB, osteoblasts; ECM, extracellular matrix; HSC, haematopoietic stem cells; MP, macrophages; OC, osteoclasts. : Genomic analyses of early peri-implant