Search Results - "Baaijens, F. P. T."

The effects of deformation, ischemia, and reperfusion on the development of muscle damage during prolonged loading by LOERAKKER, S, MANDERS, E, STRIJKERS, G. J, NICOLAY, K, BAAIJENS, F. P. T, BADER, D. L, OOMENS, C. W. J

“…Deep tissue injury (DTI) is a severe form of pressure ulcer where tissue damage starts in deep tissues underneath intact skin. In the present study, the…”
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A thermodynamically motivated model for stress-fiber reorganization by Vigliotti, A., Ronan, W., Baaijens, F. P. T., Deshpande, V. S.

“…We present a model for stress-fiber reorganization and the associated contractility that includes both the kinetics of stress-fiber formation and dissociation…”
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Essential environmental cues from the satellite cell niche: optimizing proliferation and differentiation by Boonen, K J M, Rosaria-Chak, K Y, Baaijens, F P T, van der Schaft, D W J, Post, M J

“…The use of muscle progenitor cells (MPCs) for regenerative medicine has been severely compromised by their decreased proliferative and differentiative capacity…”
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Temporal Effects of Mechanical Loading on Deformation-Induced Damage in Skeletal Muscle Tissue by Loerakker, S, Stekelenburg, A, Strijkers, G. J, Rijpkema, J. J. M, Baaijens, F. P. T, Bader, D. L, Nicolay, K, Oomens, C. W. J

“…Mechanical loading of soft tissues covering bony prominences can cause skeletal muscle damage, ultimately resulting in a severe pressure ulcer termed deep…”
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An approach to micro-macro modeling of heterogeneous materials by KOUZNETSOVA, V, BREKELMANS, W. A. M, BAAIJENS, F. P. T

“…A micro-macro strategy suitable for modeling the mechanical response of heterogeneous materials at large deformations and non-linear history dependent material…”
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A combined fictitious domain/adaptive meshing method for fluid-structure interaction in heart valves by van Loon, R., Anderson, P. D., de Hart, J., Baaijens, F. P. T.

“…A new approach for modelling the fluid‐structure interaction of flexible heart valves is proposed. Using a finite element method, a Lagrangian description of a…”
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Hydrolytic and oxidative degradation of electrospun supramolecular biomaterials: In vitro degradation pathways by Brugmans, M.C.P., Sӧntjens, S.H.M., Cox, M.A.J., Nandakumar, A., Bosman, A.W., Mes, T., Janssen, H.M., Bouten, C.V.C., Baaijens, F.P.T., Driessen-Mol, A.

“…[Display omitted] The emerging field of in situ tissue engineering (TE) of load bearing tissues places high demands on the implanted scaffolds, as these…”
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Real Time, Non-Invasive Assessment of Leaflet Deformation in Heart Valve Tissue Engineering by Kortsmit, J, Driessen, N. J. B, Rutten, M. C. M, Baaijens, F. P. T

“…In heart valve tissue engineering, most bioreactors try to mimic physiological flow and operate with a preset transvalvular pressure applied to the tissue. The…”
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Multi-scale mechanical characterization of scaffolds for heart valve tissue engineering by Argento, G, Simonet, M, Oomens, C.W.J, Baaijens, F.P.T

“…Abstract Electrospinning is a promising technology to produce scaffolds for cardiovascular tissue engineering. Each electrospun scaffold is characterized by a…”
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Quantifying pressure sore-related muscle damage using high-resolution MRI by Bosboom, E. M. H, Bouten, C. V. C, Oomens, C. W. J, Baaijens, F. P. T, Nicolay, K

“…1 Department of Materials Technology, Eindhoven University of Technology, 5600 MB Eindhoven; 2 Department of Movement Sciences, Maastricht University, 6200 M…”
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Validation of a numerical model of skeletal muscle compression with MR tagging: a contribution to pressure ulcer research by Ceelen, K K, Stekelenburg, A, Mulders, J L J, Strijkers, G J, Baaijens, F P T, Nicolay, K, Oomens, C W J

“…Sustained tissue compression can lead to pressure ulcers, which can either start superficially or within deeper tissue layers. The latter type includes deep…”
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Electrospinning versus knitting: two scaffolds for tissue engineering of the aortic valve by van Lieshout, M. I., Vaz, C. M., Rutten, M. C. M., Peters, G. W. M., Baaijens, F. P. T.

“…Two types of scaffolds were developed for tissue engineering of the aortic valve; an electrospun valvular scaffold and a knitted valvular scaffold. These…”
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Monitoring the biomechanical response of individual cells under compression: a new compression device by PEETERS, E. A. G, BOUTEN, C. V. C, OOMENS, C. W. J, BAAIJENS, F. P. T

“…Skeletal muscle cells are sensitive to sustained compression, which can lead to the development of pressure sores. Although it is known that this type of…”
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Modeling the impact of scaffold architecture and mechanical loading on collagen turnover in engineered cardiovascular tissues by Argento, G., de Jonge, N., Söntjens, S. H. M., Oomens, C. W. J., Bouten, C. V. C., Baaijens, F. P. T.

“…The anisotropic collagen architecture of an engineered cardiovascular tissue has a major impact on its in vivo mechanical performance. This evolving collagen…”
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Compression induced cell damage in engineered muscle tissue: an in vitro model to study pressure ulcer aetiology by Breuls, R G M, Bouten, C V C, Oomens, C W J, Bader, D L, Baaijens, F P T

“…The aetiology of pressure ulcers is poorly understood. The complexity of the problem, involving mechanical, biochemical, and physiological factors demands the…”
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Computational Study of Culture Conditions and Nutrient Supply in Cartilage Tissue Engineering by Sengers, B. G., Van Donkelaar, C. C., Oomens, C. W. J., Baaijens, F. P. T.

“…Different culture conditions for cartilage tissue engineering were evaluated with respect to the supply of oxygen and glucose and the accumulation of lactate…”
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Influence of hydration and experimental length scale on the mechanical response of human skin in vivo, using optical coherence tomography by Hendriks, F M, Brokken, D, Oomens, C W J, Baaijens, F P T

“…Human skin is a complex tissue consisting of different layers. To gain better insight into the mechanical behaviour of different skin layers, the mechanical…”
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Substrates for cardiovascular tissue engineering by Bouten, C.V.C., Dankers, P.Y.W., Driessen-Mol, A., Pedron, S., Brizard, A.M.A., Baaijens, F.P.T.

“…Cardiovascular tissue engineering aims to find solutions for the suboptimal regeneration of heart valves, arteries and myocardium by creating ‘living’ tissue…”
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Microstructural analysis of deformation-induced hypoxic damage in skeletal muscle by Ceelen, K. K., Oomens, C. W. J., Baaijens, F. P. T.

“…Deep pressure ulcers are caused by sustained mechanical loading and involve skeletal muscle tissue injury. The exact underlying mechanisms are unclear, and the…”
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The local matrix distribution and the functional development of tissue engineered cartilage, a finite element study by Sengers, B G, Van Donkelaar, C C, Oomens, C W J, Baaijens, F P T

“…Assessment of the functionality of tissue engineered cartilage constructs is hampered by the lack of correlation between global measurements of extra cellular…”
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