2009
DOI: 10.1016/j.jtbi.2009.03.037
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Design criteria for a printed tissue engineering construct: A mathematical homogenization approach

Abstract: Cartilage tissue repair procedures currently under development aim to create a construct in which patient-derived cells are seeded and expanded ex vivo before implantation back into the body. The key challenge is producing physiologically realistic constructs that mimic real tissue structure and function. One option with vast potential is to print strands of material in a 3D structure called a scaffold that imitates the real tissue structure; the strands are composed of gel seeded with cells and so provide a t… Show more

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Cited by 51 publications
(34 citation statements)
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References 56 publications
(74 reference statements)
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“…In the context of additive tissue manufacturing, the main function of porosity would be to allow rapid transport of oxygen, nutrients and metabolites to and from cells encapsulated in the gels. 29 In a porous construct (regardless of its overall dimensions) built from gel 顒僱aments of 0.4 mm diameter, the diffusion length between a cell and a perfused channel will be not more than 200 mm, similar to the maximum distance between cells and blood capillaries in native tissues. 30 In this respect, gel constructs do not need to be as highly porous as scaffolds, in which a high porosity is required to provide space for seeded cells to proliferate and produce tissue.…”
mentioning
confidence: 99%
“…In the context of additive tissue manufacturing, the main function of porosity would be to allow rapid transport of oxygen, nutrients and metabolites to and from cells encapsulated in the gels. 29 In a porous construct (regardless of its overall dimensions) built from gel 顒僱aments of 0.4 mm diameter, the diffusion length between a cell and a perfused channel will be not more than 200 mm, similar to the maximum distance between cells and blood capillaries in native tissues. 30 In this respect, gel constructs do not need to be as highly porous as scaffolds, in which a high porosity is required to provide space for seeded cells to proliferate and produce tissue.…”
mentioning
confidence: 99%
“…The second was a bi-phasic structure consisting of a cross-hatched pattern and an intersecting ring structure. The hatch pattern, which has already been widely used for 3D printed joint repair, 28 was chosen for both its proven performance as a biomimetic micro pattern and as a biomimetic analog to the alignment of extracellular matrix (ECM) and chondrocytes in articulate cartilage. The ring structure for the bone layer was chosen as a means for designing randomly oriented, interconnected pores, which mimics the porous structure of subchondral bone.…”
Section: Methodsmentioning
confidence: 99%
“…However, the link between macroscopic and microscopic scales obtained in this way is often more qualitative than quantitative. One should probably use deeper mathematical methods, such as homogenisation techniques or other fluid-dynamic and diffusion limits to get more formal and consistent results (see, for instance, [23,24,37,41,56,57], that however sometimes deal with different biological applications).…”
Section: Nested Modelsmentioning
confidence: 99%