ID: 934
MODELLING THE INITIAL CALLUS PHASE IN BONE FRACTURES
J. M. Naveiro1,2, L. Gracia1,2, J. Roces3, J. Albareda4,5, S. Puértolas1,2
1Universidad de Zaragoza, Spain; 2Aragón Institute for engineering Research; 3Department of Construction and Manufacturing Engineering. University of Oviedo; 4Department of surgery, University of Zaragoza; 5Aragón Health Research Institute
ID: 642
SCALABLE AGENT-BASED MODELLING OF CELL BIOMECHANICS AND THERAPY USING THE BIODYNAMO PLATFORM
V. Vavourakis1,2, R. Bauer3
1University of Cyprus, Cyprus; 2University College London, UK; 3University of Surrey, UK
ID: 493
CELL PROLIFERATION STUDY: A NEW COMPUTATIONAL MODEL SOLVED BY THE SPH METHOD
M. I. Barbosa1, J. Belinha2, R. Natal Jorge3, A. Xavier de Carvalho4
1Instituto de Ciência e Inovação em Engenharia Mecânica e Engenharia Industrial (INEGI), Portugal; 2School of Engineering Polytechnic of Porto (ISEP), Portugal; 3Faculty of Engineering of University of Porto (FEUP), Portugal; 4Institute for Research and Innovation in Health (I3S), Portugal
ID: 494
SIMULATION OF ANGIOGENESIS DURING TUMOUR GROWTH PROLIFERATION
M. I. Barbosa1, J. Belinha2, R. Natal Jorge3, A. Xavier de Carvalho4
1Instituto de Ciência e Inovação em Engenharia Mecânica e Engenharia Industrial (INEGI), Portugal; 2School of Engineering Polytechnic of Porto (ISEP), Portugal; 3Faculty of Engineering of University of Porto (FEUP), Portugal; 4Institute for Research and Innovation in Health (I3S), Portugal
ID: 501
EXPLORING THE MECHANISMS OF GROWTH PLATE DEVELOPMENT AND DISEASE PROGRESSION THROUGH A DYNAMIC TRABECULAR BONE MICROSTRUCTURE MODEL
D. Quexada1,2, S. Bensamoun1, M.-C. Ho Ba Tho1, D. Garzón2, O. Trabelsi1
1Université de Technologie de Compiègne; 2Universidad Nacional de Colombia
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