Conceptos Categóricos

Crónicas de autores

Adalberto Luiz Rosa *

Autor invitado por SIIC

O trabalho contribue para avaliar a combinação de células e biomaterial para a engenharia do tecido ósseo.

ESTAGIO DE DIFERENCIAÇÃO OSTEOBLASTICA E A FORMAÇÃO OSSEA POR ENGENHARIA DE TECIDOS

O trabalho mostrou que quando células são carreadas para defeitos ósseos criados em calvarias de ratos por arcabouços de polímero e fosfato de cálcio, as células-tronco mesenquimais e osteoblastos em estágio inicial de diferenciação contribuem mais para a formação óssea do que osteoblastos em estágio mais avançado.

*Adalberto Luiz Rosa
describe para SIIC los aspectos relevantes de su trabajo
THE INFLUENCE OF OSTEOBLAST DIFFERENTIATION STAGE ON BONE FORMATION IN AUTOGENOUSLY IMPLANTED CELL-BASED POLY(LACTIDE-CO-GLYCOLIDE) AND CALCIUM PHOSPHATE CONSTRUCTS
Tissue Engineering: Part A,
18(9-10):999 May, 2012

Esta revista, clasificada por SIIC Data Bases, integra el acervo bibliográfico
de la Biblioteca Biomédica (BB) SIIC.

Institución principal de la investigación
*Universidade de São Paulo, Brasil, Ribeirão Preto, Brasil
Acerca del trabajo completo
THE INFLUENCE OF OSTEOBLAST DIFFERENTIATION STAGE ON BONE FORMATION IN AUTOGENOUSLY IMPLANTED CELL-BASED POLY(LACTIDE-CO-GLYCOLIDE) AND CALCIUM PHOSPHATE CONSTRUCTS

Título original en castellano
INFLUÊNCIA DO ESTAGIO DE DIFERENCIAÇÃO DOS OSTEOBLASTOS NA FORMAÇÃO OSSEA DE COMPOSITOS DE CELULAS E POLI(LACTICO-CO GLICOLICO) E FOSFATO DE CALCIO AUTOGENAMENTE IMPLANTADOS



Autores
Adalberto Luiz Rosa1, Marcio Mateus Beloti2, Paulo T Oliveira3
1 Professor, Universidade de São Paulo, Brasil, Ribeirão Preto, Brasil, Professor Titular
2 Professor, Faculdade de Odontologia de Ribeirão Preto, Universidade de São Paulo
3 Professor, Faculdade de Odontologia de Ribeirão Preto, Universidade de São Paulo


Acceso a la fuente original
Tissue Engineering: Part A
http://www.liebertpub.com/publication.aspx?pub_id=263
Acceso al texto original completo (full text)
http://online.liebertpub.com/doi/abs/10.1089/ten.TEA.2011.0405?url_ver=Z39.88-2003&rfr_id=ori%3Arid%3Acrossref.org&rfr_dat=cr_pub%3Dpubmed

Acceso al resumen/abstract original
ncbi.nlm.nih.gov/pubmed/22150110
El artículo se relaciona estrictamente con las especialidades de siicsalud

 Principal 1


 Principal 2

El artículo se conecta secundariamente con las especialidades
  
Referencias bibliográficas
(1. Rosa et al. Macroporous scaffolds associated with cells to construct a hybrid biomaterial for bone tissue engineering. Expert Rev Med Devices 5:719-28, 2008.
2. Karageorgiou V, Kaplan D. Porosity of 3D biomaterial scaffolds and osteogenesis. Biomaterials 26:5474-91, 2005.
3. Sicchieri et al. Pore size regulates cell and tissue interactions with PLGA-CaP scaffolds used for bone engineering. J Tissue Eng Regen Med 6:155-62, 2012.
4. Beloti et al. Seeding osteoblastic cells into a macroporous biodegradable CaP/PLGA scaffold by a centrifugal force. J Biomater Appl 23:481-95, 2009.
5. Santos et al. Mesenchymal stem cells repress osteoblast differentiation under osteogenic-inducing conditions. J Cell Biochem 2015, doi: 10.1002/jcb.25237.
6. Santos et al. Association of mesenchymal stem cells and osteoblasts for bone repair. Regen Med 10:125-31, 2015.

Autor invitado
16 de julio, 2012
Descripción aprobada
18 de septiembre, 2015
Reedición siicsalud
21 de noviembre, 2017
Otros artículos de Adalberto Luiz Rosa
Santos TS, Abuna R, Raucci-Castro L, Teixeira LN, Oliveira PT Beloti MM, Rosa AL. Mesenchymal stem cells repress osteoblast differentiation under osteogenic-inducing conditions. J Cell Biochem 2015. doi: 10.1002/jcb.25237.
Santos TS, Abuna R, Lopes H, Almeida AL, Beloti MM, Rosa AL. Association of mesenchymal stem cells and osteoblasts for bone repair. Regen Med 10:125-131, 2015.
Ferraz EP, Xavier SP, Azevedo FG, Oliveira FS, Beloti MM, Rosa AL. Effect of autogenous and fresh-frozen bone grafts on osteoblast differentiation. J Dent 43]:110-116, 2015.
Bombonato-Prado K, Rosa AL, Oliveira PT, Dernowsek JA, Fontana V, Evangelista A, Passos G. Transcriptome analysis during normal human mesenchymal stem cell differentiation. In: Transcriptomics in Health and Disease. Geraldo Passos Ed., Springer, pp. 109-119, 2014.
Rosa AL, Kat, RB, Castro-Raucci LS, Teixeira LN, Oliveira FS, Bellesini LS, Oliveira PT, Hassan MQ, Beloti MM. Nanotopography drives stem cell fate toward osteoblast differentiation through integrin signaling pathway. J Cell Biochem 115:540-548, 2014.
Kato RB, Roy B, Oliveira FS, Ferraz EP, Oliveira PT, Kemper A, Hassan MQ, Rosa AL, Beloti MM. Nanotopography directs mesenchymal stem cells to osteoblast lineage through regulation of microRNA-SMAD-BMP-2 circuit. J Cell Physiol 229:1960-1966, 2014.
Beloti MM, Sicchieri LG, Oliveira PT, Rosa AL. The influence of osteoblast differentiation stage on bone formation in autogenously implanted cell-based poly(lactide-co-glycolide) and calcium phosphate constructs. Tissue Engineering Part A 18:999-1005, 2012.
Sverzut, A.T.; Crippa, G.E.; Morra, M.; De Oliveira, P.T.; Beloti, M.M.; Rosa, A.L. Effects of type I collagen coating on titanium osseointegration: histomorphometric, cellular and molecular analyses. Biomed Mater, v.7:035007, 2012.
Sicchieri LG, Crippa GE, De Oliveira PT, Beloti MM, Rosa AL. Pore size regulates cell and tissue interactions with PLGA-CaP scaffolds used for bone engineering. J Tissue Eng Regen Med 6:155-162, 2012.
Oliveira FS, Bellesini LS, Defino HLA, Da Silva Herrero CF, Beloti MM, Rosa AL. Hedgehog signaling and osteoblast gene expression are regulated by purmorphamine in human mesenchymal stem cells. J Cell Biochem 113:204-208, 2012.


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