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Congresso Latino-Americano de Órgãos Artificiais e Biomateriais - COLAOB, 9. . [s.l.]: Sociedade Latino Americana de Biomateriais, Engenharia de Tecidos e Órgãos Artificiais - SLABO. . Acesso em: 19 set. 2024. , 2016
APA
Congresso Latino-Americano de Órgãos Artificiais e Biomateriais - COLAOB, 9. (2016). Congresso Latino-Americano de Órgãos Artificiais e Biomateriais - COLAOB, 9. [s.l.]: Sociedade Latino Americana de Biomateriais, Engenharia de Tecidos e Órgãos Artificiais - SLABO.
NLM
Congresso Latino-Americano de Órgãos Artificiais e Biomateriais - COLAOB, 9. 2016 ;[citado 2024 set. 19 ]
Vancouver
Congresso Latino-Americano de Órgãos Artificiais e Biomateriais - COLAOB, 9. 2016 ;[citado 2024 set. 19 ]
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FERRAZ, Emanuela et al. In vitro and in vivo evaluations of a bioactive glass scaffold (Bio-Sca) for bone regeneration. 2015, Anais.. Lisbon: Faculdade de Odontologia de Ribeirão Preto, Universidade de São Paulo, 2015. . Acesso em: 19 set. 2024.
APA
Ferraz, E., Almeida, A. L. G. de, Freitas, G., Crovace, M., Peitl Filho, O., Oliveira, P. T. de, et al. (2015). In vitro and in vivo evaluations of a bioactive glass scaffold (Bio-Sca) for bone regeneration. In Book of Abstracts. Lisbon: Faculdade de Odontologia de Ribeirão Preto, Universidade de São Paulo.
NLM
Ferraz E, Almeida ALG de, Freitas G, Crovace M, Peitl Filho O, Oliveira PT de, Beloti MM, Rosa AL. In vitro and in vivo evaluations of a bioactive glass scaffold (Bio-Sca) for bone regeneration. Book of Abstracts. 2015 ;[citado 2024 set. 19 ]
Vancouver
Ferraz E, Almeida ALG de, Freitas G, Crovace M, Peitl Filho O, Oliveira PT de, Beloti MM, Rosa AL. In vitro and in vivo evaluations of a bioactive glass scaffold (Bio-Sca) for bone regeneration. Book of Abstracts. 2015 ;[citado 2024 set. 19 ]
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SANTOS, Thiago S et al. Mesenchymal stem cells repress osteoblast differentiation under osteogenic-inducing conditions. Journal of Cellular Biochemistry, v. 116, n. 12, p. 2896-2902, 2015Tradução . . Disponível em: https://doi.org/10.1002/jcb.25237. Acesso em: 19 set. 2024.
APA
Santos, T. S., Abuna, R. P. F., Raucci, L. M. S. C., Teixeira, L. N., Oliveira, P. T. de, Beloti, M. M., & Rosa, A. L. (2015). Mesenchymal stem cells repress osteoblast differentiation under osteogenic-inducing conditions. Journal of Cellular Biochemistry, 116( 12), 2896-2902. doi:10.1002/jcb.25237
NLM
Santos TS, Abuna RPF, Raucci LMSC, Teixeira LN, Oliveira PT de, Beloti MM, Rosa AL. Mesenchymal stem cells repress osteoblast differentiation under osteogenic-inducing conditions [Internet]. Journal of Cellular Biochemistry. 2015 ; 116( 12): 2896-2902.[citado 2024 set. 19 ] Available from: https://doi.org/10.1002/jcb.25237
Vancouver
Santos TS, Abuna RPF, Raucci LMSC, Teixeira LN, Oliveira PT de, Beloti MM, Rosa AL. Mesenchymal stem cells repress osteoblast differentiation under osteogenic-inducing conditions [Internet]. Journal of Cellular Biochemistry. 2015 ; 116( 12): 2896-2902.[citado 2024 set. 19 ] Available from: https://doi.org/10.1002/jcb.25237
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MARTINS, Carolina Scanavez et al. Changes in actin and tubulin expression in osteogenic cells cultured on bioactive glass-based surfaces. Microscopy Research and Technique, v. 78, n. 11, p. 1046-1053, 2015Tradução . . Disponível em: https://doi.org/10.1002/jemt.22583. Acesso em: 19 set. 2024.
APA
Martins, C. S., Ferraz, E. P., Castro-Raucci, L. M. S. de, Teixeira, L. N., Maximiano, W. M. A., Rosa, A. L., & Oliveira, P. T. de. (2015). Changes in actin and tubulin expression in osteogenic cells cultured on bioactive glass-based surfaces. Microscopy Research and Technique, 78( 11), 1046-1053. doi:10.1002/jemt.22583
NLM
Martins CS, Ferraz EP, Castro-Raucci LMS de, Teixeira LN, Maximiano WMA, Rosa AL, Oliveira PT de. Changes in actin and tubulin expression in osteogenic cells cultured on bioactive glass-based surfaces [Internet]. Microscopy Research and Technique. 2015 ; 78( 11): 1046-1053.[citado 2024 set. 19 ] Available from: https://doi.org/10.1002/jemt.22583
Vancouver
Martins CS, Ferraz EP, Castro-Raucci LMS de, Teixeira LN, Maximiano WMA, Rosa AL, Oliveira PT de. Changes in actin and tubulin expression in osteogenic cells cultured on bioactive glass-based surfaces [Internet]. Microscopy Research and Technique. 2015 ; 78( 11): 1046-1053.[citado 2024 set. 19 ] Available from: https://doi.org/10.1002/jemt.22583
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FERRAZ, Emanuela Prado et al. Clinical, histological and cellular evaluation of vertico-lateral maxillary reconstruction associating alveolar osteogenic distraction and fresh-frozen bone allograft. [Carta]. Journal of Oral Implantology. Lawrence: Faculdade de Odontologia de Ribeirão Preto, Universidade de São Paulo. Disponível em: https://doi.org/10.1563/AAID-JOI-D-13-00102. Acesso em: 19 set. 2024. , 2015
APA
Ferraz, E. P., Rosa, A. L., Oliveira, P. T. de, Santos, T. S., Reino, D. M., Pontes, C. B., & Xavier, S. P. (2015). Clinical, histological and cellular evaluation of vertico-lateral maxillary reconstruction associating alveolar osteogenic distraction and fresh-frozen bone allograft. [Carta]. Journal of Oral Implantology. Lawrence: Faculdade de Odontologia de Ribeirão Preto, Universidade de São Paulo. doi:10.1563/AAID-JOI-D-13-00102
NLM
Ferraz EP, Rosa AL, Oliveira PT de, Santos TS, Reino DM, Pontes CB, Xavier SP. Clinical, histological and cellular evaluation of vertico-lateral maxillary reconstruction associating alveolar osteogenic distraction and fresh-frozen bone allograft. [Carta] [Internet]. Journal of Oral Implantology. 2015 ; 41( 3): 326-331.[citado 2024 set. 19 ] Available from: https://doi.org/10.1563/AAID-JOI-D-13-00102
Vancouver
Ferraz EP, Rosa AL, Oliveira PT de, Santos TS, Reino DM, Pontes CB, Xavier SP. Clinical, histological and cellular evaluation of vertico-lateral maxillary reconstruction associating alveolar osteogenic distraction and fresh-frozen bone allograft. [Carta] [Internet]. Journal of Oral Implantology. 2015 ; 41( 3): 326-331.[citado 2024 set. 19 ] Available from: https://doi.org/10.1563/AAID-JOI-D-13-00102
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MAIA, Luciana P. et al. Influence of periodontal tissue thickness on buccal plate remodelling on immediate implants with xenograft. Journal of Clinical Periodontology, v. 42, n. 6, p. 590-598, 2015Tradução . . Disponível em: https://doi.org/10.1111/jcpe.12405. Acesso em: 19 set. 2024.
APA
Maia, L. P., Reino, D. M., Muglia, V. A., Almeida, A. L. G. de, Nanci, A., Wazen, R. M., et al. (2015). Influence of periodontal tissue thickness on buccal plate remodelling on immediate implants with xenograft. Journal of Clinical Periodontology, 42( 6), 590-598. doi:10.1111/jcpe.12405
NLM
Maia LP, Reino DM, Muglia VA, Almeida ALG de, Nanci A, Wazen RM, Oliveira PT de, Palioto DB, Novaes Júnior AB. Influence of periodontal tissue thickness on buccal plate remodelling on immediate implants with xenograft [Internet]. Journal of Clinical Periodontology. 2015 ; 42( 6): 590-598.[citado 2024 set. 19 ] Available from: https://doi.org/10.1111/jcpe.12405
Vancouver
Maia LP, Reino DM, Muglia VA, Almeida ALG de, Nanci A, Wazen RM, Oliveira PT de, Palioto DB, Novaes Júnior AB. Influence of periodontal tissue thickness on buccal plate remodelling on immediate implants with xenograft [Internet]. Journal of Clinical Periodontology. 2015 ; 42( 6): 590-598.[citado 2024 set. 19 ] Available from: https://doi.org/10.1111/jcpe.12405
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SVERZUT, Cassio Edvard et al. Histologic and histometric analysis of bone repair at the site of mandibular body osteotomy and at the bone-screw interface after using a biodegradable 2.0-mm internal fixation system. Journal of Craniofacial Surgery, v. 26, n. 4, p. 1214-1219, 2015Tradução . . Disponível em: https://doi.org/10.1097/SCS.0000000000001723. Acesso em: 19 set. 2024.
APA
Sverzut, C. E., Matos, F. P. de, Trivellato, A. E., Kato, R. B., Sverzut, A. T., Taba Júnior, M., et al. (2015). Histologic and histometric analysis of bone repair at the site of mandibular body osteotomy and at the bone-screw interface after using a biodegradable 2.0-mm internal fixation system. Journal of Craniofacial Surgery, 26( 4), 1214-1219. doi:10.1097/SCS.0000000000001723
NLM
Sverzut CE, Matos FP de, Trivellato AE, Kato RB, Sverzut AT, Taba Júnior M, Duek EA de R, Oliveira PT de. Histologic and histometric analysis of bone repair at the site of mandibular body osteotomy and at the bone-screw interface after using a biodegradable 2.0-mm internal fixation system [Internet]. Journal of Craniofacial Surgery. 2015 ; 26( 4): 1214-1219.[citado 2024 set. 19 ] Available from: https://doi.org/10.1097/SCS.0000000000001723
Vancouver
Sverzut CE, Matos FP de, Trivellato AE, Kato RB, Sverzut AT, Taba Júnior M, Duek EA de R, Oliveira PT de. Histologic and histometric analysis of bone repair at the site of mandibular body osteotomy and at the bone-screw interface after using a biodegradable 2.0-mm internal fixation system [Internet]. Journal of Craniofacial Surgery. 2015 ; 26( 4): 1214-1219.[citado 2024 set. 19 ] Available from: https://doi.org/10.1097/SCS.0000000000001723
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BRUNI, Yesica L et al. Effects of surface treatments on Y-TZP phase stability, microstructure and osteoblast cell response. Ceramics International, v. 41, n. 10, p. 14212-14222, 2015Tradução . . Disponível em: https://doi.org/10.1016/j.ceramint.2015.07.047. Acesso em: 19 set. 2024.
APA
Bruni, Y. L., Garrido, L. B., Albano, M. P., Teixeira, L. N., Rosa, A. L., & Oliveira, P. T. de. (2015). Effects of surface treatments on Y-TZP phase stability, microstructure and osteoblast cell response. Ceramics International, 41( 10), 14212-14222. doi:10.1016/j.ceramint.2015.07.047
NLM
Bruni YL, Garrido LB, Albano MP, Teixeira LN, Rosa AL, Oliveira PT de. Effects of surface treatments on Y-TZP phase stability, microstructure and osteoblast cell response [Internet]. Ceramics International. 2015 ; 41( 10): 14212-14222.[citado 2024 set. 19 ] Available from: https://doi.org/10.1016/j.ceramint.2015.07.047
Vancouver
Bruni YL, Garrido LB, Albano MP, Teixeira LN, Rosa AL, Oliveira PT de. Effects of surface treatments on Y-TZP phase stability, microstructure and osteoblast cell response [Internet]. Ceramics International. 2015 ; 41( 10): 14212-14222.[citado 2024 set. 19 ] Available from: https://doi.org/10.1016/j.ceramint.2015.07.047
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NOVELI, Fernanda C. et al. Efeitos de clorpromazina e PMA sobre células osteoblásticas crescidas sobre vidro e vitrocerâmica bioativos. 2015, Anais.. Ribeirão Preto: FORP-USP, 2015. Disponível em: https://uspdigital.usp.br/siicusp/siicPublicacao.jsp?codmnu=7210. Acesso em: 19 set. 2024.
APA
Noveli, F. C., Teixeira, L. N., Raucci, L. M. S. de C., & Oliveira, P. T. de. (2015). Efeitos de clorpromazina e PMA sobre células osteoblásticas crescidas sobre vidro e vitrocerâmica bioativos. In Resumos da Faculdade de Odontologia de Ribeirão Preto. Ribeirão Preto: FORP-USP. Recuperado de https://uspdigital.usp.br/siicusp/siicPublicacao.jsp?codmnu=7210
NLM
Noveli FC, Teixeira LN, Raucci LMS de C, Oliveira PT de. Efeitos de clorpromazina e PMA sobre células osteoblásticas crescidas sobre vidro e vitrocerâmica bioativos [Internet]. Resumos da Faculdade de Odontologia de Ribeirão Preto. 2015 ;[citado 2024 set. 19 ] Available from: https://uspdigital.usp.br/siicusp/siicPublicacao.jsp?codmnu=7210
Vancouver
Noveli FC, Teixeira LN, Raucci LMS de C, Oliveira PT de. Efeitos de clorpromazina e PMA sobre células osteoblásticas crescidas sobre vidro e vitrocerâmica bioativos [Internet]. Resumos da Faculdade de Odontologia de Ribeirão Preto. 2015 ;[citado 2024 set. 19 ] Available from: https://uspdigital.usp.br/siicusp/siicPublicacao.jsp?codmnu=7210
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ALVES, Luciana Bastos et al. Expression of osteoblastic phenotype in periodontal ligament fibroblasts cultured in three-dimensional collagen gel. Journal of Applied Oral Science, v. 23, n. 2, p. 206-204, 2015Tradução . . Disponível em: https://doi.org/10.1590/1678-775720140462. Acesso em: 19 set. 2024.
APA
Alves, L. B., Mariguela, V. C., Grisi, M. F. de M., Souza, S. L. S. de, Novaes Júnior, A. B., Taba Júnior, M., et al. (2015). Expression of osteoblastic phenotype in periodontal ligament fibroblasts cultured in three-dimensional collagen gel. Journal of Applied Oral Science, 23( 2), 206-204. doi:10.1590/1678-775720140462
NLM
Alves LB, Mariguela VC, Grisi MF de M, Souza SLS de, Novaes Júnior AB, Taba Júnior M, Oliveira PT de, Palioto DB. Expression of osteoblastic phenotype in periodontal ligament fibroblasts cultured in three-dimensional collagen gel [Internet]. Journal of Applied Oral Science. 2015 ; 23( 2): 206-204.[citado 2024 set. 19 ] Available from: https://doi.org/10.1590/1678-775720140462
Vancouver
Alves LB, Mariguela VC, Grisi MF de M, Souza SLS de, Novaes Júnior AB, Taba Júnior M, Oliveira PT de, Palioto DB. Expression of osteoblastic phenotype in periodontal ligament fibroblasts cultured in three-dimensional collagen gel [Internet]. Journal of Applied Oral Science. 2015 ; 23( 2): 206-204.[citado 2024 set. 19 ] Available from: https://doi.org/10.1590/1678-775720140462
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KATO, R. B. et al. Titanium with nanotopography drives mesenchymal stem cells to osteoblast differentiation through miR-4448, -4708 and -4773 Downregulation. 2014, Anais.. Liverpool: ESB, 2014. . Acesso em: 19 set. 2024.
APA
Kato, R. B., Roy, B., Oliveira, F. S. de, Ferraz, E. P., Oliveira, P. T. de, Hassan, M. Q., et al. (2014). Titanium with nanotopography drives mesenchymal stem cells to osteoblast differentiation through miR-4448, -4708 and -4773 Downregulation. In Final Programme. Liverpool: ESB.
NLM
Kato RB, Roy B, Oliveira FS de, Ferraz EP, Oliveira PT de, Hassan MQ, Rosa AL, Beloti MM. Titanium with nanotopography drives mesenchymal stem cells to osteoblast differentiation through miR-4448, -4708 and -4773 Downregulation. Final Programme. 2014 ;[citado 2024 set. 19 ]
Vancouver
Kato RB, Roy B, Oliveira FS de, Ferraz EP, Oliveira PT de, Hassan MQ, Rosa AL, Beloti MM. Titanium with nanotopography drives mesenchymal stem cells to osteoblast differentiation through miR-4448, -4708 and -4773 Downregulation. Final Programme. 2014 ;[citado 2024 set. 19 ]
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RAUCCI, Larissa Moreira Spinola de Castro et al. Expression of bone markers in pre-osteoblastic cells grown on titanium surface with nanotopography. 2014, Anais.. Liverpool: ESB, 2014. . Acesso em: 19 set. 2024.
APA
Raucci, L. M. S. de C., Teixeira, L. N., Oliveira, P. T. de, Rosa, A. L., & Beloti, M. M. (2014). Expression of bone markers in pre-osteoblastic cells grown on titanium surface with nanotopography. In Final Programme. Liverpool: ESB.
NLM
Raucci LMS de C, Teixeira LN, Oliveira PT de, Rosa AL, Beloti MM. Expression of bone markers in pre-osteoblastic cells grown on titanium surface with nanotopography. Final Programme. 2014 ;[citado 2024 set. 19 ]
Vancouver
Raucci LMS de C, Teixeira LN, Oliveira PT de, Rosa AL, Beloti MM. Expression of bone markers in pre-osteoblastic cells grown on titanium surface with nanotopography. Final Programme. 2014 ;[citado 2024 set. 19 ]
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MAXIMIANO, W. M. A. et al. Mast cells mediators modulate osteoblast differentiation. 2014, Anais.. São Paulo: SBBC, 2014. . Acesso em: 19 set. 2024.
APA
Maximiano, W. M. A., Oliveira, P. T. de, Jamur, M. C., & Oliver, C. (2014). Mast cells mediators modulate osteoblast differentiation. In Poster Abstract. São Paulo: SBBC.
NLM
Maximiano WMA, Oliveira PT de, Jamur MC, Oliver C. Mast cells mediators modulate osteoblast differentiation. Poster Abstract. 2014 ;[citado 2024 set. 19 ]
Vancouver
Maximiano WMA, Oliveira PT de, Jamur MC, Oliver C. Mast cells mediators modulate osteoblast differentiation. Poster Abstract. 2014 ;[citado 2024 set. 19 ]
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BUENO, Rafaela de Barros e Lima et al. GDF-5-functionalized, nanostructured titanium surfaces: in vitro comparative analyses between simple adsorption and layer-by-layer films. Clinical Oral Implants Research. Malden: Wiley-Blackwell. Disponível em: https://doi.org/10.1111/clr.12458_195. Acesso em: 19 set. 2024. , 2014
APA
Bueno, R. de B. e L., Teixeira, L. N., Soares, A. C., Oliveira Junior, O. N. de, Nanci, A., Beloti, M. M., et al. (2014). GDF-5-functionalized, nanostructured titanium surfaces: in vitro comparative analyses between simple adsorption and layer-by-layer films. Clinical Oral Implants Research. Malden: Wiley-Blackwell. doi:10.1111/clr.12458_195
NLM
Bueno R de B e L, Teixeira LN, Soares AC, Oliveira Junior ON de, Nanci A, Beloti MM, Rosa AL, Oliveira PT de. GDF-5-functionalized, nanostructured titanium surfaces: in vitro comparative analyses between simple adsorption and layer-by-layer films [Internet]. Clinical Oral Implants Research. 2014 ; 25[citado 2024 set. 19 ] Available from: https://doi.org/10.1111/clr.12458_195
Vancouver
Bueno R de B e L, Teixeira LN, Soares AC, Oliveira Junior ON de, Nanci A, Beloti MM, Rosa AL, Oliveira PT de. GDF-5-functionalized, nanostructured titanium surfaces: in vitro comparative analyses between simple adsorption and layer-by-layer films [Internet]. Clinical Oral Implants Research. 2014 ; 25[citado 2024 set. 19 ] Available from: https://doi.org/10.1111/clr.12458_195
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ALBANO, María P et al. Comparison of different fluorapatite dip coated layers on porous zirconia tapes. Ceramics International, v. 4, n. 8, p. 12509-12517, 2014Tradução . . Disponível em: https://doi.org/10.1016/j.ceramint.2014.03.166. Acesso em: 19 set. 2024.
APA
Albano, M. P., Garrido, L. B., Teixeira, L. N., Rosa, A. L., & Oliveira, P. T. de. (2014). Comparison of different fluorapatite dip coated layers on porous zirconia tapes. Ceramics International, 4( 8), 12509-12517. doi:10.1016/j.ceramint.2014.03.166
NLM
Albano MP, Garrido LB, Teixeira LN, Rosa AL, Oliveira PT de. Comparison of different fluorapatite dip coated layers on porous zirconia tapes [Internet]. Ceramics International. 2014 ; 4( 8): 12509-12517.[citado 2024 set. 19 ] Available from: https://doi.org/10.1016/j.ceramint.2014.03.166
Vancouver
Albano MP, Garrido LB, Teixeira LN, Rosa AL, Oliveira PT de. Comparison of different fluorapatite dip coated layers on porous zirconia tapes [Internet]. Ceramics International. 2014 ; 4( 8): 12509-12517.[citado 2024 set. 19 ] Available from: https://doi.org/10.1016/j.ceramint.2014.03.166
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FERRAZ, E. P. et al. Osteoblastic differentiation induced by bioactive glass-ceramic surfaces. 2014, Anais.. Liverpool: ESB, 2014. . Acesso em: 19 set. 2024.
APA
Ferraz, E. P., Oliveira, P. T. de, Beloti, M. M., Crovace, M. C., Peitl-Filho, O., & Rosa, A. L. (2014). Osteoblastic differentiation induced by bioactive glass-ceramic surfaces. In Final Programme. Liverpool: ESB.
NLM
Ferraz EP, Oliveira PT de, Beloti MM, Crovace MC, Peitl-Filho O, Rosa AL. Osteoblastic differentiation induced by bioactive glass-ceramic surfaces. Final Programme. 2014 ;[citado 2024 set. 19 ]
Vancouver
Ferraz EP, Oliveira PT de, Beloti MM, Crovace MC, Peitl-Filho O, Rosa AL. Osteoblastic differentiation induced by bioactive glass-ceramic surfaces. Final Programme. 2014 ;[citado 2024 set. 19 ]
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RIBEIRO, Alexandre Antunes et al. Characterization and in vitro testing of calcium phosphate coatings on dense and porous substrates. 2014, Anais.. Liverpool: ESB, 2014. . Acesso em: 19 set. 2024.
APA
Ribeiro, A. A., Balestra, R. M., Andrade, M. C. de, Ferraz, E. P., Rosa, A. L., Oliveira, P. T. de, & Oliveira, M. V. de. (2014). Characterization and in vitro testing of calcium phosphate coatings on dense and porous substrates. In Final Programme. Liverpool: ESB.
NLM
Ribeiro AA, Balestra RM, Andrade MC de, Ferraz EP, Rosa AL, Oliveira PT de, Oliveira MV de. Characterization and in vitro testing of calcium phosphate coatings on dense and porous substrates. Final Programme. 2014 ;[citado 2024 set. 19 ]
Vancouver
Ribeiro AA, Balestra RM, Andrade MC de, Ferraz EP, Rosa AL, Oliveira PT de, Oliveira MV de. Characterization and in vitro testing of calcium phosphate coatings on dense and porous substrates. Final Programme. 2014 ;[citado 2024 set. 19 ]
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FERRAZ, Emanuela P. et al. The effect of plasma-nitrided titanium surfaces on osteoblastic cell adhesion, proliferation, and differentiation. Journal of Biomedical Materials Research. Part A, v. 102A, n. 4, p. 991-998, 2014Tradução . . Disponível em: https://doi.org/10.1002/jbm.a.34761. Epub 2013 May 30. Acesso em: 19 set. 2024.
APA
Ferraz, E. P., Sá, J. C., Oliveira, P. T. de, Alves Júnior, C., Beloti, M. M., & Rosa, A. L. (2014). The effect of plasma-nitrided titanium surfaces on osteoblastic cell adhesion, proliferation, and differentiation. Journal of Biomedical Materials Research. Part A, 102A( 4), 991-998. doi:10.1002/jbm.a.34761. Epub 2013 May 30
NLM
Ferraz EP, Sá JC, Oliveira PT de, Alves Júnior C, Beloti MM, Rosa AL. The effect of plasma-nitrided titanium surfaces on osteoblastic cell adhesion, proliferation, and differentiation [Internet]. Journal of Biomedical Materials Research. Part A. 2014 ; 102A( 4): 991-998.[citado 2024 set. 19 ] Available from: https://doi.org/10.1002/jbm.a.34761. Epub 2013 May 30
Vancouver
Ferraz EP, Sá JC, Oliveira PT de, Alves Júnior C, Beloti MM, Rosa AL. The effect of plasma-nitrided titanium surfaces on osteoblastic cell adhesion, proliferation, and differentiation [Internet]. Journal of Biomedical Materials Research. Part A. 2014 ; 102A( 4): 991-998.[citado 2024 set. 19 ] Available from: https://doi.org/10.1002/jbm.a.34761. Epub 2013 May 30
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BOMBONATO-PRADO, Karina Fittipaldi et al. Transcriptome analysis during normal human mesenchymal stem cell differentiation. Transcriptomics in Health and Disease. Tradução . Cham: Springer, 2014. . . Acesso em: 19 set. 2024.
APA
Bombonato-Prado, K. F., Rosa, A. L., Oliveira, P. T. de, Dernowsek, J. A., Fontana, V., Evangelista, A. F., & Passos, G. A. S. (2014). Transcriptome analysis during normal human mesenchymal stem cell differentiation. In Transcriptomics in Health and Disease. Cham: Springer.
NLM
Bombonato-Prado KF, Rosa AL, Oliveira PT de, Dernowsek JA, Fontana V, Evangelista AF, Passos GAS. Transcriptome analysis during normal human mesenchymal stem cell differentiation. In: Transcriptomics in Health and Disease. Cham: Springer; 2014. [citado 2024 set. 19 ]
Vancouver
Bombonato-Prado KF, Rosa AL, Oliveira PT de, Dernowsek JA, Fontana V, Evangelista AF, Passos GAS. Transcriptome analysis during normal human mesenchymal stem cell differentiation. In: Transcriptomics in Health and Disease. Cham: Springer; 2014. [citado 2024 set. 19 ]
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MELO, Willian M. de et al. Autogenous bone combined with anorganic bovine bone for maxillary sinus augmentation: analysis of the osteogenic potential of cells derived from the donor and the grafted sites. Clinical Oral Implants Research, v. 25, n. 5, p. 603-609, 2014Tradução . . Disponível em: https://doi.org/10.1111/clr.12100. Acesso em: 19 set. 2024.
APA
Melo, W. M. de, Oliveira, F. S. de, Marcantonio Júnior, É., Beloti, M. M., Oliveira, P. T. de, & Rosa, A. L. (2014). Autogenous bone combined with anorganic bovine bone for maxillary sinus augmentation: analysis of the osteogenic potential of cells derived from the donor and the grafted sites. Clinical Oral Implants Research, 25( 5), 603-609. doi:10.1111/clr.12100
NLM
Melo WM de, Oliveira FS de, Marcantonio Júnior É, Beloti MM, Oliveira PT de, Rosa AL. Autogenous bone combined with anorganic bovine bone for maxillary sinus augmentation: analysis of the osteogenic potential of cells derived from the donor and the grafted sites [Internet]. Clinical Oral Implants Research. 2014 ; 25( 5): 603-609.[citado 2024 set. 19 ] Available from: https://doi.org/10.1111/clr.12100
Vancouver
Melo WM de, Oliveira FS de, Marcantonio Júnior É, Beloti MM, Oliveira PT de, Rosa AL. Autogenous bone combined with anorganic bovine bone for maxillary sinus augmentation: analysis of the osteogenic potential of cells derived from the donor and the grafted sites [Internet]. Clinical Oral Implants Research. 2014 ; 25( 5): 603-609.[citado 2024 set. 19 ] Available from: https://doi.org/10.1111/clr.12100