A prediction of cell differentiation and proliferation within a collagen-glycosaminoglycan scaffold subjected to mechanical strain and perfusive fluid flow

Journal of Biomechanics

Volumn 43, Issue 4, 2010, Pages 618-626

  Stops, A J F ^a   Heraty, K B ^a   Browne, M ^a   O'Brien, F J ^b,c   McHugh, P E ^a  

^a NATIONAL UNIVERSITY OF IRELAND   (Ireland)

^b ROYAL COLLEGE OF SURGEONS IN IRELAND   (Ireland)

^c TRINITY COLLEGE DUBLIN   (Ireland)

Author keywords

Collagen glycosaminoglycan scaffold; Perfusion bioreactor; Tissue engineering

Indexed keywords

CAUSAL RELATIONSHIPS; CELL DIFFERENTIATION; CELL RESPONSE; COMPUTED TOMOGRAPHY; DATA SETS; DETERMINISTIC FUNCTIONS; FINITE ELEMENT SOLVER; FLUID VELOCITIES; IN-VITRO; INTERNAL FLUID; LABORATORY PROCEDURES; MECHANICAL STRAIN; MESENCHYMAL STEM CELL; PERFUSION BIOREACTOR; SINGLE CELLS; STRAIN MAGNITUDE;

BIOREACTORS; CELL CULTURE; CELL PROLIFERATION; CELLS; COLLAGEN; COMPUTATIONAL FLUID DYNAMICS; COMPUTERIZED TOMOGRAPHY; FLOW OF FLUIDS; LOADING; STRAIN; TISSUE; TISSUE ENGINEERING; VELOCITY;

SCAFFOLDS (BIOLOGY);

COLLAGEN; GLYCOSAMINOGLYCAN; TISSUE SCAFFOLD;

ARTICLE; BIOMECHANICS; BIOREACTOR; CELL DIFFERENTIATION; CELL PROLIFERATION; COMPUTATIONAL FLUID DYNAMICS; FINITE ELEMENT ANALYSIS; FLUID FLOW; INTERSTITIAL FLUID; MECHANICAL STRESS; MESENCHYMAL STEM CELL; MICRO-COMPUTED TOMOGRAPHY; PREDICTION; PRIORITY JOURNAL; SHEAR STRESS; TISSUE ENGINEERING; VELOCITY; ANIMAL; BIOLOGICAL MODEL; CELL CULTURE; CHEMISTRY; COMPUTER SIMULATION; CYTOLOGY; HUMAN; INSTRUMENTATION; MECHANOTRANSDUCTION; PERFUSION; PHYSIOLOGY;

ANIMALS; BIOREACTORS; CELL DIFFERENTIATION; CELL PROLIFERATION; CELLS, CULTURED; COLLAGEN; COMPUTER SIMULATION; FINITE ELEMENT ANALYSIS; GLYCOSAMINOGLYCANS; HUMANS; MECHANOTRANSDUCTION, CELLULAR; MESENCHYMAL STEM CELLS; MODELS, BIOLOGICAL; PERFUSION; TISSUE ENGINEERING; TISSUE SCAFFOLDS;

EID: 77952477801     PISSN: 00219290     EISSN: 18732380     Source Type: Journal    
DOI: 10.1016/j.jbiomech.2009.10.037     Document Type: Article

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