Flow perfusion improves seeding efficiency in scaffolds for bone tissue engineering

J. F. Alvarez-Barreto; S. M. Linehan; J. L. Yankovich; R. L. Shambaugh; V. I. Sikavitsas

Flow perfusion improves seeding efficiency in scaffolds for bone tissue engineering

J. F. Alvarez-Barreto, S. M. Linehan, J. L. Yankovich, R. L. Shambaugh, V. I. Sikavitsas

University of Oklahoma Bioengineering Center

Producción científica: Capítulo del libro/informe/acta de congreso › Contribución a la conferencia › revisión exhaustiva

Resumen

Bone grafts have been generated under a wide variety of culturing conditions, including static and dynamic systems by seeding and culturing osteoblastic cells on porous scaffolds. Scaffold seeding with osteoblastic cells affects the development of bone grafts, determining initial cell number and cell spatial distribution in the scaffold. Spinner flasks and rotating wall vessels have been used as dynamic systems, but improvement is desirable. We evaluate the effect of perfusion on seeding efficiency and spatial distribution of osteoblastic cells in fibrous polymeric matrices and foams. The effect of fiber size and surface modification by oxygen plasma treatment is also evaluated. MC3T3-E1 cells were seeded statically and in a flow perfusion bioreactor. Dynamic seeding resulted in the most efficient seeding technique. The total number of cells attached to the scaffold decreased as the fiber size increased, but a direct relation was observed between fiber size and cell surface density.

Idioma original	Inglés
Título de la publicación alojada	Poromechanics III
Subtítulo de la publicación alojada	Biot Centennial (1905-2005) - Proceedings of the 3rd Biot Conference on Poromechanics
Páginas	63-67
Número de páginas	5
Estado	Publicada - 2005
Publicado de forma externa	Sí
Evento	3rd Biot Conference on Poromechanics - var.pagings, Estados Unidos Duración: 24 may. 2005 → 27 may. 2005

Serie de la publicación

Nombre	Poromechanics III: Biot Centennial (1905-2005) - Proceedings of the 3rd Biot Conference on Poromechanics

Conferencia

Conferencia	3rd Biot Conference on Poromechanics
País/Territorio	Estados Unidos
Ciudad	var.pagings
Período	24/05/05 → 27/05/05

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Alvarez-Barreto, J. F., Linehan, S. M., Yankovich, J. L., Shambaugh, R. L., & Sikavitsas, V. I. (2005). Flow perfusion improves seeding efficiency in scaffolds for bone tissue engineering. En Poromechanics III: Biot Centennial (1905-2005) - Proceedings of the 3rd Biot Conference on Poromechanics (pp. 63-67). (Poromechanics III: Biot Centennial (1905-2005) - Proceedings of the 3rd Biot Conference on Poromechanics).

Alvarez-Barreto, J. F. ; Linehan, S. M. ; Yankovich, J. L. et al. / Flow perfusion improves seeding efficiency in scaffolds for bone tissue engineering. Poromechanics III: Biot Centennial (1905-2005) - Proceedings of the 3rd Biot Conference on Poromechanics. 2005. pp. 63-67 (Poromechanics III: Biot Centennial (1905-2005) - Proceedings of the 3rd Biot Conference on Poromechanics).

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title = "Flow perfusion improves seeding efficiency in scaffolds for bone tissue engineering",

abstract = "Bone grafts have been generated under a wide variety of culturing conditions, including static and dynamic systems by seeding and culturing osteoblastic cells on porous scaffolds. Scaffold seeding with osteoblastic cells affects the development of bone grafts, determining initial cell number and cell spatial distribution in the scaffold. Spinner flasks and rotating wall vessels have been used as dynamic systems, but improvement is desirable. We evaluate the effect of perfusion on seeding efficiency and spatial distribution of osteoblastic cells in fibrous polymeric matrices and foams. The effect of fiber size and surface modification by oxygen plasma treatment is also evaluated. MC3T3-E1 cells were seeded statically and in a flow perfusion bioreactor. Dynamic seeding resulted in the most efficient seeding technique. The total number of cells attached to the scaffold decreased as the fiber size increased, but a direct relation was observed between fiber size and cell surface density.",

author = "Alvarez-Barreto, {J. F.} and Linehan, {S. M.} and Yankovich, {J. L.} and Shambaugh, {R. L.} and Sikavitsas, {V. I.}",

year = "2005",

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booktitle = "Poromechanics III",

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Alvarez-Barreto, JF, Linehan, SM, Yankovich, JL, Shambaugh, RL & Sikavitsas, VI 2005, Flow perfusion improves seeding efficiency in scaffolds for bone tissue engineering. En Poromechanics III: Biot Centennial (1905-2005) - Proceedings of the 3rd Biot Conference on Poromechanics. Poromechanics III: Biot Centennial (1905-2005) - Proceedings of the 3rd Biot Conference on Poromechanics, pp. 63-67, 3rd Biot Conference on Poromechanics, var.pagings, Estados Unidos, 24/05/05.

Flow perfusion improves seeding efficiency in scaffolds for bone tissue engineering. / Alvarez-Barreto, J. F.; Linehan, S. M.; Yankovich, J. L. et al.
Poromechanics III: Biot Centennial (1905-2005) - Proceedings of the 3rd Biot Conference on Poromechanics. 2005. p. 63-67 (Poromechanics III: Biot Centennial (1905-2005) - Proceedings of the 3rd Biot Conference on Poromechanics).

Producción científica: Capítulo del libro/informe/acta de congreso › Contribución a la conferencia › revisión exhaustiva

TY - GEN

T1 - Flow perfusion improves seeding efficiency in scaffolds for bone tissue engineering

AU - Alvarez-Barreto, J. F.

AU - Linehan, S. M.

AU - Yankovich, J. L.

AU - Shambaugh, R. L.

AU - Sikavitsas, V. I.

PY - 2005

Y1 - 2005

N2 - Bone grafts have been generated under a wide variety of culturing conditions, including static and dynamic systems by seeding and culturing osteoblastic cells on porous scaffolds. Scaffold seeding with osteoblastic cells affects the development of bone grafts, determining initial cell number and cell spatial distribution in the scaffold. Spinner flasks and rotating wall vessels have been used as dynamic systems, but improvement is desirable. We evaluate the effect of perfusion on seeding efficiency and spatial distribution of osteoblastic cells in fibrous polymeric matrices and foams. The effect of fiber size and surface modification by oxygen plasma treatment is also evaluated. MC3T3-E1 cells were seeded statically and in a flow perfusion bioreactor. Dynamic seeding resulted in the most efficient seeding technique. The total number of cells attached to the scaffold decreased as the fiber size increased, but a direct relation was observed between fiber size and cell surface density.

AB - Bone grafts have been generated under a wide variety of culturing conditions, including static and dynamic systems by seeding and culturing osteoblastic cells on porous scaffolds. Scaffold seeding with osteoblastic cells affects the development of bone grafts, determining initial cell number and cell spatial distribution in the scaffold. Spinner flasks and rotating wall vessels have been used as dynamic systems, but improvement is desirable. We evaluate the effect of perfusion on seeding efficiency and spatial distribution of osteoblastic cells in fibrous polymeric matrices and foams. The effect of fiber size and surface modification by oxygen plasma treatment is also evaluated. MC3T3-E1 cells were seeded statically and in a flow perfusion bioreactor. Dynamic seeding resulted in the most efficient seeding technique. The total number of cells attached to the scaffold decreased as the fiber size increased, but a direct relation was observed between fiber size and cell surface density.

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M3 - Contribución a la conferencia

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Alvarez-Barreto JF, Linehan SM, Yankovich JL, Shambaugh RL, Sikavitsas VI. Flow perfusion improves seeding efficiency in scaffolds for bone tissue engineering. En Poromechanics III: Biot Centennial (1905-2005) - Proceedings of the 3rd Biot Conference on Poromechanics. 2005. p. 63-67. (Poromechanics III: Biot Centennial (1905-2005) - Proceedings of the 3rd Biot Conference on Poromechanics).

Flow perfusion improves seeding efficiency in scaffolds for bone tissue engineering

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