Effect of Pore Architecture on Oxygen Diffusion in 3D Scaffolds for Tissue Engineering

Geunseon Ahn; Jin Woo Lee; Hyun-Wook Kang; Dong-Woo Cho; Jeong Hun Park; Taeyun Kang

Source: Journal of Biomechanical Engineering:;2010:;volume( 132 ):;issue: 010::page 104506

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DOI: 10.1115/1.4002429

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: The aim of this study was to maximize oxygen diffusion within a three-dimensional scaffold in order to improve cell viability and proliferation. To evaluate the effect of pore architecture on oxygen diffusion, we designed a regular channel shape with uniform diameter, referred to as cylinder shaped, and a new channel shape with a channel diameter gradient, referred to as cone shaped. A numerical analysis predicted higher oxygen concentration in the cone-shaped channels than in the cylinder-shaped channels, throughout the scaffold. To confirm these numerical results, we examined cell proliferation and viability in 2D constructs and 3D scaffolds. Cell culture experiments revealed that cell proliferation and viability were superior in the constructs and scaffolds with cone-shaped channels.

keyword(s): Diffusion (Physics) , Channels (Hydraulic engineering) , Numerical analysis , Oxygen , Tissue scaffolds AND Shapes ,

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Effect of Pore Architecture on Oxygen Diffusion in 3D Scaffolds for Tissue Engineering

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contributor author	Geunseon Ahn
contributor author	Jin Woo Lee
contributor author	Hyun-Wook Kang
contributor author	Dong-Woo Cho
contributor author	Jeong Hun Park
contributor author	Taeyun Kang
date accessioned	2017-05-09T00:36:28Z
date available	2017-05-09T00:36:28Z
date copyright	October, 2010
date issued	2010
identifier issn	0148-0731
identifier other	JBENDY-27171#104506_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/142542
description abstract	The aim of this study was to maximize oxygen diffusion within a three-dimensional scaffold in order to improve cell viability and proliferation. To evaluate the effect of pore architecture on oxygen diffusion, we designed a regular channel shape with uniform diameter, referred to as cylinder shaped, and a new channel shape with a channel diameter gradient, referred to as cone shaped. A numerical analysis predicted higher oxygen concentration in the cone-shaped channels than in the cylinder-shaped channels, throughout the scaffold. To confirm these numerical results, we examined cell proliferation and viability in 2D constructs and 3D scaffolds. Cell culture experiments revealed that cell proliferation and viability were superior in the constructs and scaffolds with cone-shaped channels.
publisher	The American Society of Mechanical Engineers (ASME)
title	Effect of Pore Architecture on Oxygen Diffusion in 3D Scaffolds for Tissue Engineering
type	Journal Paper
journal volume	132
journal issue	10
journal title	Journal of Biomechanical Engineering
identifier doi	10.1115/1.4002429
journal fristpage	104506
identifier eissn	1528-8951
keywords	Diffusion (Physics)
keywords	Channels (Hydraulic engineering)
keywords	Numerical analysis
keywords	Oxygen
keywords	Tissue scaffolds AND Shapes
tree	Journal of Biomechanical Engineering:;2010:;volume( 132 ):;issue: 010
contenttype	Fulltext

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