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Computer Methods in Biomechanics and Biomedical Engineering Volume 19, 2016 - Issue 2
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Articles

Diffusion model to describe osteogenesis within a porous titanium scaffold

M. SchmittArts et Métiers ParisTech, LBM, 151 bd de l'hôpital, 75013Paris, FranceCorrespondence[email protected]
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R. AllenaArts et Métiers ParisTech, LBM, 151 bd de l'hôpital, 75013Paris, FranceView further author information
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T. SchoumanArts et Métiers ParisTech, LBM, 151 bd de l'hôpital, 75013Paris, France;Department of maxillofacial surgery, APHP – Pitie-Salpetriere University Hospital, University of Paris 6, 75013Paris, FranceView further author information
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S. FrascaInstitut de recherche biomédicale des armées, 91223Brétigny sur Orge, FranceView further author information
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J.M. CollombetInstitut de recherche biomédicale des armées, 91223Brétigny sur Orge, FranceView further author information
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X. HolyInstitut de recherche biomédicale des armées, 91223Brétigny sur Orge, FranceView further author information
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P. RouchArts et Métiers ParisTech, LBM, 151 bd de l'hôpital, 75013Paris, FranceView further author information
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Pages 171-179 | Received 10 Mar 2014, Accepted 10 Dec 2014, Published online: 09 Jan 2015

Citations (13)

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D. George, R. Allena & Y. Rémond. (2017) Mechanobiological stimuli for bone remodeling: mechanical energy, cell nutriments and mobility. Computer Methods in Biomechanics and Biomedical Engineering 20:sup1, pages S91-S92.
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Articles from other publishers (12)

Camille Perier-Metz, Amaia Cipitria, Dietmar W. Hutmacher, Georg N. Duda & Sara Checa. (2022) An in silico model predicts the impact of scaffold design in large bone defect regeneration. Acta Biomaterialia 145, pages 329-341.
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Camille Perier-Metz, Laurent Corté, Rachele Allena & Sara Checa. (2022) A 3D in Silico Multi-Tissue Evolution Model Highlights the Relevance of Local Strain Accumulation in Bone Fracture Remodeling. Frontiers in Bioengineering and Biotechnology 10.
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Vincenzo Orassi, Georg N. Duda, Max Heiland, Heilwig Fischer, Carsten Rendenbach & Sara Checa. (2021) Biomechanical Assessment of the Validity of Sheep as a Preclinical Model for Testing Mandibular Fracture Fixation Devices. Frontiers in Bioengineering and Biotechnology 9.
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Camille Perier-Metz, Georg N. Duda & Sara Checa. (2020) Mechano-Biological Computer Model of Scaffold-Supported Bone Regeneration: Effect of Bone Graft and Scaffold Structure on Large Bone Defect Tissue Patterning. Frontiers in Bioengineering and Biotechnology 8.
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Daniel George, Rachele Allena, Céline Bourzac, Stéphane Pallu, Morad Bensidhoum, Hugues Portier & Yves Rémond. (2020) A new comprehensive approach for bone remodeling under medium and high mechanical load based on cellular activity. Mathematics and Mechanics of Complex Systems 8:4, pages 287-306.
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D. George, R. Allena & Y. Rémond. (2018) Integrating molecular and cellular kinetics into a coupled continuum mechanobiological stimulus for bone reconstruction. Continuum Mechanics and Thermodynamics 31:3, pages 725-740.
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Jamie Frame, Pierre-Yves Rohan, Laurent Corté & Rachele Allena. (2017) A mechano-biological model of multi-tissue evolution in bone. Continuum Mechanics and Thermodynamics 31:1, pages 1-31.
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Rachele Allena & Christophe Cluzel. (2018) Heterogeneous directions of orthotropy in three-dimensional structures: finite element description based on diffusion equations. Mathematics and Mechanics of Complex Systems 6:4, pages 339-351.
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Daniel George, Rachele Allena & Yves Rémond. (2018) A multiphysics stimulus for continuum mechanics bone remodeling. Mathematics and Mechanics of Complex Systems 6:4, pages 307-319.
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Daniel George, Rachele Allena & Yves Rémond. (2018) Cell nutriments and motility for mechanobiological bone remodeling in the context of orthodontic periodontal ligament deformation. Journal of Cellular Immunotherapy 4:1, pages 26-29.
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Yanfei Lu & Tomasz Lekszycki. (2018) New description of gradual substitution of graft by bone tissue including biomechanical and structural effects, nutrients supply and consumption. Continuum Mechanics and Thermodynamics 30:5, pages 995-1009.
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Makoto Hirota, Takaki Shima, Itaru Sato, Tomomichi Ozawa, Toshinori Iwai, Akihiro Ametani, Mitsunobu Sato, Yasuharu Noishiki, Takahiro Ogawa, Tohru Hayakawa & Iwai Tohnai. (2016) Development of a biointegrated mandibular reconstruction device consisting of bone compatible titanium fiber mesh scaffold. Biomaterials 75, pages 223-236.
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