Designing optimal calcium phosphate scaffold-cell combinations using an integrative model-based approach.

Biocompatible Materials/pharmacology; Calcium/pharmacology; Calcium Phosphates/pharmacology; Cell Proliferation/drug effects; Collagen/metabolism; Computer Simulation; Culture Media/pharmacology; Humans; Mesenchymal Stem Cells/cytology/drug effects/metabolism; Models, Biological; Osteogenesis/drug effects; Periosteum/cytology/drug effects; Time Factors; Tissue Scaffolds/chemistry

Abstract :

[en] Bone formation is a very complex physiological process, involving the participation of many different cell types and regulated by countless biochemical, physical and mechanical factors, including naturally occurring or synthetic biomaterials. For the latter, calcium phosphate (CaP)-based scaffolds have proven to stimulate bone formation, but at present still result in a wide range of in vivo outcomes, which is partly related to the suboptimal use and combination with osteogenic cells. To optimize CaP scaffold selection and make their use in combination with cells more clinically relevant, this study uses an integrative approach in which mathematical modeling is combined with experimental research. This paper describes the development and implementation of an experimentally informed bioregulatory model of the effect of calcium ions released from CaP-based biomaterials on the activity of osteogenic cells and mesenchymal stem cell driven ectopic bone formation. The amount of bone formation predicted by the mathematical model corresponds to the amount measured experimentally under similar conditions. Moreover, the model is also able to qualitatively predict the experimentally observed impaired bone formation under conditions such as insufficient cell seeding and scaffold decalcification. A strategy was designed in silico to overcome the negative influence of a low initial cell density on the bone formation process. Finally, the model was applied to design optimal combinations of calcium-based biomaterials and cell culture conditions with the aim of maximizing the amount of bone formation. This work illustrates the potential of mathematical models as research tools to design more efficient and cell-customized CaP scaffolds for bone tissue engineering applications.

Disciplines :

Engineering, computing & technology: Multidisciplinary, general & others

Author, co-author :

Carlier, Aurélie ; Université de Liège - ULiège > Form. doct. sc. ingé. (aérosp. & méca - Bologne)

Chai, Y.C.

Moesen, M.

Theys, T.

Schrooten, J.

Van Oosterwyck, H.

Geris, Liesbet ; Université de Liège - ULiège > Département d'aérospatiale et mécanique > Génie biomécanique

Language :

English

Title :

Designing optimal calcium phosphate scaffold-cell combinations using an integrative model-based approach.

Publication date :

2011

Journal title :

Acta Biomaterialia

ISSN :

1742-7061

eISSN :

1878-7568

Publisher :

Elsevier Science, Oxford, United Kingdom

Volume :

Issue :

Pages :

3573-85

Peer reviewed :

Peer Reviewed verified by ORBi

Commentary :

Available on ORBi :

since 25 January 2012

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