(→biomechanics of growth and remodeling) |
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Mech Res Comm, 2012;42,1-14. | Mech Res Comm, 2012;42,1-14. | ||
[http://biomechanics.stanford.edu/special_issue/science01.pdf (download)] | [http://biomechanics.stanford.edu/special_issue/science01.pdf (download)] | ||
+ | |||
+ | Arts T, Kroon W, Delhaas T. | ||
+ | Simulation of adaptation of blood vessel geometry to flow and pressure: Implications for arterio-venous impedance. | ||
+ | Mech Res Comm, 2012;42,15-21. | ||
+ | [http://biomechanics.stanford.edu/special_issue/science02.pdf (download)] | ||
+ | |||
+ | Isaksson H. | ||
+ | Recent advances in mechanobiological modeling of bone regeneration. | ||
+ | Mech Res Comm, 2012;42,22-31. | ||
+ | [http://biomechanics.stanford.edu/special_issue/science03.pdf (download)] | ||
+ | |||
+ | Kroeger JH, Geitmann A. | ||
+ | Pollen tube growth: Getting a grip on cell biology through modeling. | ||
+ | Mech Res Comm, 2012;42,32-39. | ||
+ | [http://biomechanics.stanford.edu/special_issue/science04.pdf (download)] | ||
+ | |||
+ | Kerckhoffs RCP, Omens JH, McCulloch AD. | ||
+ | A single strain-based growth law predicts concentric and eccentric cardiac growth during pressure and volume overload. | ||
+ | Mech Res Comm, 2012;42,40-50. | ||
+ | [http://biomechanics.stanford.edu/special_issue/science05.pdf (download)] | ||
+ | |||
+ | Bellomo FJ, Armero F, Nallim LG, Oller S. | ||
+ | A constitutive model for tissue adaptation: Necrosis and stress driven growth. | ||
+ | Mech Res Comm, 2012;42,51-59. | ||
+ | [http://biomechanics.stanford.edu/special_issue/science06.pdf (download)] | ||
+ | |||
+ | Pluijmert M, Kroon W, Delhaas T, Bovendeerd PHM. | ||
+ | Adaptive reorientation of cardiac myofibers: The long-term effect of initial and boundary conditions. | ||
+ | Mech Res Comm, 2012;42,60-67. | ||
+ | [http://biomechanics.stanford.edu/special_issue/science07.pdf (download)] | ||
+ | |||
+ | Ciarletta P, BenAmar M. | ||
+ | Papillary networks in the dermal–epidermal junction of skin: A biomechanical model. | ||
+ | Mech Res Comm, 2012;42,68-76. | ||
+ | [http://biomechanics.stanford.edu/special_issue/science08.pdf (download)] | ||
+ | |||
+ | Waffenschmidt T, Menzel A. | ||
+ | Application of an anisotropic growth and remodelling formulation to computational structural design. | ||
+ | Mech Res Comm, 2012;42,77-86. | ||
+ | [http://biomechanics.stanford.edu/special_issue/science09.pdf (download)] | ||
+ | |||
+ | Ambrosi D, Preziosi L, Vitale G. | ||
+ | The interplay between stress and growth in solid tumors. | ||
+ | Mech Res Comm, 2012;42,87-91. | ||
+ | [http://biomechanics.stanford.edu/special_issue/science10.pdf (download)] | ||
+ | |||
+ | Grytz R, Girkin CA, Libertiaux V, Crawford Downs J. | ||
+ | Perspectives on biomechanical growth and remodeling mechanisms in glaucoma. | ||
+ | Mech Res Comm, 2012;42,92-106. | ||
+ | [http://biomechanics.stanford.edu/special_issue/science11.pdf (download)] | ||
+ | |||
+ | Zeinali-Davarani S, Baek S. | ||
+ | Medical image-based simulation of abdominal aortic aneurysm growth. | ||
+ | Mech Res Comm, 2012;42,107-117. | ||
+ | [http://biomechanics.stanford.edu/special_issue/science12.pdf (download)] | ||
+ | |||
+ | Ateshian GA, Morrison B, Holmes JW, Hung CT. | ||
+ | Mechanics of cell growth. | ||
+ | Mech Res Comm, 2012;42,118-125. | ||
+ | [http://biomechanics.stanford.edu/special_issue/science13.pdf (download)] | ||
+ | |||
+ | Valentin A, Holzapfel GA. | ||
+ | Constrained mixture models as tools for testing competing hypotheses in arterial biomechanics: A brief survey. | ||
+ | Mech Res Comm, 2012;42,126-133. | ||
+ | [http://biomechanics.stanford.edu/special_issue/science14.pdf (download)] | ||
Klepach D, Lee LC, Wenk JF, Ratcliffe MB, Zohdi TI, Navia JA, Kassab GS, Kuhl E, Guccione JM. | Klepach D, Lee LC, Wenk JF, Ratcliffe MB, Zohdi TI, Navia JA, Kassab GS, Kuhl E, Guccione JM. |
Latest revision as of 10:23, 8 May 2012
[edit] biomechanics of growth and remodeling
special issue on advances on the biomechanics of growth and remodeling contributions by |
Menzel A, Kuhl E. Frontiers in growth and remodeling. Mech Res Comm, 2012;42,1-14. (download)
Arts T, Kroon W, Delhaas T. Simulation of adaptation of blood vessel geometry to flow and pressure: Implications for arterio-venous impedance. Mech Res Comm, 2012;42,15-21. (download)
Isaksson H. Recent advances in mechanobiological modeling of bone regeneration. Mech Res Comm, 2012;42,22-31. (download)
Kroeger JH, Geitmann A. Pollen tube growth: Getting a grip on cell biology through modeling. Mech Res Comm, 2012;42,32-39. (download)
Kerckhoffs RCP, Omens JH, McCulloch AD. A single strain-based growth law predicts concentric and eccentric cardiac growth during pressure and volume overload. Mech Res Comm, 2012;42,40-50. (download)
Bellomo FJ, Armero F, Nallim LG, Oller S. A constitutive model for tissue adaptation: Necrosis and stress driven growth. Mech Res Comm, 2012;42,51-59. (download)
Pluijmert M, Kroon W, Delhaas T, Bovendeerd PHM. Adaptive reorientation of cardiac myofibers: The long-term effect of initial and boundary conditions. Mech Res Comm, 2012;42,60-67. (download)
Ciarletta P, BenAmar M. Papillary networks in the dermal–epidermal junction of skin: A biomechanical model. Mech Res Comm, 2012;42,68-76. (download)
Waffenschmidt T, Menzel A. Application of an anisotropic growth and remodelling formulation to computational structural design. Mech Res Comm, 2012;42,77-86. (download)
Ambrosi D, Preziosi L, Vitale G. The interplay between stress and growth in solid tumors. Mech Res Comm, 2012;42,87-91. (download)
Grytz R, Girkin CA, Libertiaux V, Crawford Downs J. Perspectives on biomechanical growth and remodeling mechanisms in glaucoma. Mech Res Comm, 2012;42,92-106. (download)
Zeinali-Davarani S, Baek S. Medical image-based simulation of abdominal aortic aneurysm growth. Mech Res Comm, 2012;42,107-117. (download)
Ateshian GA, Morrison B, Holmes JW, Hung CT. Mechanics of cell growth. Mech Res Comm, 2012;42,118-125. (download)
Valentin A, Holzapfel GA. Constrained mixture models as tools for testing competing hypotheses in arterial biomechanics: A brief survey. Mech Res Comm, 2012;42,126-133. (download)
Klepach D, Lee LC, Wenk JF, Ratcliffe MB, Zohdi TI, Navia JA, Kassab GS, Kuhl E, Guccione JM. Growth and remodeling of the left ventricle: A case study of myocardial infarction and surgical ventricular restoration. Mech Res Comm, 2012;42,134-141. (download)