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Computer Methods in Biomechanics and Biomedical Engineering Volume 7, 2004 - Issue 4
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Original Articles

Changes in the Fabric and Compliance Tensors of Cancellous Bone due to Trabecular Surface Remodeling, Predicted by a Digital Image-based Model

Ken-ichi Tsubota Department of Mechatronics and Precision Engineering, Graduate School of Engineering, Tohoku University, 01 Aoba, Aramaki, Aoba, Sendai, 980-8579, Japan; Computer and Information Division, Advanced Computing Center, The Institute of Physical and Chemical Research (RIKEN), 2-1 Hirosawa, Wako, Saitama, 351-0198, JapanCorrespondence[email protected]
&
Taiji Adachi Computer and Information Division, Advanced Computing Center, The Institute of Physical and Chemical Research (RIKEN), 2-1 Hirosawa, Wako, Saitama, 351-0198, Japan; Computer and Information Division, Advanced Computing Center, The Institute of Physical and Chemical Research (RIKEN), 2-1 Hirosawa, Wako, Saitama, 351-0198, Japan
Pages 187-192 | Received 10 Feb 2003, Accepted 16 Apr 2004, Published online: 25 Jan 2007

Citations (15)

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Read on this site (2)

Daisuke Tawara & Ken Nagura. (2017) Predicting changes in mechanical properties of trabecular bone by adaptive remodeling. Computer Methods in Biomechanics and Biomedical Engineering 20:4, pages 415-425.
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Khairul Salleh Basaruddin, Naoki Takano & Takayoshi Nakano. (2015) Stochastic multi-scale prediction on the apparent elastic moduli of trabecular bone considering uncertainties of biological apatite (BAp) crystallite orientation and image-based modelling. Computer Methods in Biomechanics and Biomedical Engineering 18:2, pages 162-174.
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Articles from other publishers (13)

Yoshitaka Kameo, Nobuaki Sakano & Taiji Adachi. (2020) Theoretical concept of cortical to cancellous bone transformation. Bone Reports 12, pages 100260.
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Y. Kameo, Y. MiyaM. HayashiT. NakashimaT. Adachi. (2020) In silico experiments of bone remodeling explore metabolic diseases and their drug treatment. Science Advances 6:10.
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Daniel M. McKay Fletcher, Samuel D. Keyes, Keith R. Daly, Arjen van Veelen & Tiina Roose. (2019) A multi image-based approach for modelling plant-fertiliser interaction. Rhizosphere 10, pages 100152.
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Yoshitaka Kameo, Ken-ichi Tsubota & Taiji AdachiYoshitaka Kameo, Ken-ichi Tsubota & Taiji Adachi. 2018. Bone Adaptation. Bone Adaptation 65 81 .
Yoshitaka Kameo, Ken-ichi Tsubota & Taiji AdachiYoshitaka Kameo, Ken-ichi Tsubota & Taiji Adachi. 2018. Bone Adaptation. Bone Adaptation 145 161 .
Yoshitaka Kameo & Taiji Adachi. (2013) Interstitial fluid flow in canaliculi as a mechanical stimulus for cancellous bone remodeling: in silico validation. Biomechanics and Modeling in Mechanobiology 13:4, pages 851-860.
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Yoshitaka Kameo, Taiji Adachi & Masaki Hojo. (2011) Effects of loading frequency on the functional adaptation of trabeculae predicted by bone remodeling simulation. Journal of the Mechanical Behavior of Biomedical Materials 4:6, pages 900-908.
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Simone Tassani, Francesca Particelli, Egon Perilli, Francesco Traina, Fabio Baruffaldi & Marco Viceconti. (2011) Dependence of trabecular structure on bone quantity: A comparison between osteoarthritic and non-pathological bone. Clinical Biomechanics 26:6, pages 632-639.
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Taiji Adachi, Yoshitaka Kameo & Masaki Hojo. (2010) Trabecular bone remodelling simulation considering osteocytic response to fluid-induced shear stress. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 368:1920, pages 2669-2682.
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Ken-ichi Tsubota, Yusuke Suzuki, Tomonori Yamada, Masaki Hojo, Akitake Makinouchi & Taiji Adachi. (2009) Computer simulation of trabecular remodeling in human proximal femur using large-scale voxel FE models: Approach to understanding Wolff's law. Journal of Biomechanics 42:8, pages 1088-1094.
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Emmanuel de Margerie, Paul Tafforeau & Lalaonirina Rakotomanana. (2006) In silico evolution of functional morphology: a test on bone tissue biomechanics . Journal of The Royal Society Interface 3:10, pages 679-687.
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Taiji Adachi, Yuki Osako, Mototsugu Tanaka, Masaki Hojo & Scott J. Hollister. (2006) Framework for optimal design of porous scaffold microstructure by computational simulation of bone regeneration. Biomaterials 27:21, pages 3964-3972.
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M. Viceconti, D. Testi, F. Taddei, S. Martelli, G.J. Clapworthy & S.V.S. Jan. (2006) Biomechanics Modeling of the Musculoskeletal Apparatus: Status and Key Issues. Proceedings of the IEEE 94:4, pages 725-739.
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