|
| [17] | M. H. Esteki, A. Malandrino, A. A. Alemrajabi, G. K. Sheridan, G. Charras, E. Moeendarbary
Poroelastic osmoregulation of living cell volume
In iScience, volume 24, 2021. |
| [16] | O. Tura-Ceide, Vfed Smolders, N. Aventin, C. Moren, M. Guitart-Mampel, I. Blanco, L. Piccari, J. Osorio, C. Rodriguez, M. Rigol, N. Solanes, A. Malandrino, K. Kurakula, M. J. Goumans, P. H. A. Quax, V. I. Peinado, M. Castella, J. A. Barbera
Derivation and characterisation of endothelial cells from patients with chronic thromboembolic pulmonary hypertension
In Sci Rep, volume 11, 2021. |
|
| [15] | A. Malandrino, X. Trepat, R. D. Kamm, M. Mak
Dynamic filopodial forces induce accumulation, damage, and plastic remodeling of 3D extracellular matrices
In PLoS Comput Biol, volume 15, 2019. |
|
| [14] | Y. L. Han, P. Ronceray, G. Xu, A. Malandrino, R. D. Kamm, M. Lenz, C. P. Broedersz, M. Guo
Cell contraction induces long-ranged stress stiffening in the extracellular matrix
In Proc Natl Acad Sci U S A, volume 115, 2018. |
| [13] | A. Malandrino, R. D. Kamm, E. Moeendarbary
In Vitro Modeling of Mechanics in Cancer Metastasis
In ACS Biomater Sci Eng, volume 4, 2018. |
| [12] | A. Malandrino, M. Mak, R. D. Kamm, E. Moeendarbary
Complex mechanics of the heterogeneous extracellular matrix in cancer
In Extreme Mech Lett, volume 21, 2018. |
|
| [11] | R. Blanchard, C. Morin, A. Malandrino, A. Vella, Z. Sant, C. Hellmich
Patient-specific fracture risk assessment of vertebrae: A multiscale approach coupling X-ray physics and continuum micromechanics
In Int J Numer Method Biomed Eng, volume 32, 2016. |
|
| [10] | A. Malandrino
Models and Experiments in Bioengineering: Why Synergies Are Encouraged
In Front Bioeng Biotechnol, volume 3, 2015. |
| [9] | A. Malandrino, J. M. Pozo, I. Castro-Mateos, A. F. Frangi, M. M. van Rijsbergen, K. Ito, H. J. Wilke, T. T. Dao, M. C. Ho Ba Tho, J. Noailly
On the relative relevance of subject-specific geometries and degeneration-specific mechanical properties for the study of cell death in human intervertebral disk models
In Front Bioeng Biotechnol, volume 3, 2015. |
|
| [8] | A. Malandrino, D. Lacroix, C. Hellmich, K. Ito, S. J. Ferguson, J. Noailly
The role of endplate poromechanical properties on the nutrient availability in the intervertebral disc
In Osteoarthritis Cartilage, volume 22, 2014. |
| [7] | A. Malandrino, J. Noailly, D. Lacroix
Numerical exploration of the combined effect of nutrient supply, tissue condition and deformation in the intervertebral disc
In J Biomech, volume 47, 2014. |
|
| [6] | A. Malandrino, J. Noailly, D. Lacroix
Regional annulus fibre orientations used as a tool for the calibration of lumbar intervertebral disc finite element models
In Comput Methods Biomech Biomed Engin, volume 16, 2013. |
|
| [5] | A. Malandrino, J. Noailly, D. Lacroix
The effect of sustained compression on oxygen metabolic transport in the intervertebral disc decreases with degenerative changes
In PLoS Comput Biol, volume 7, 2011. |
| [4] | F. Galbusera, H. Schmidt, J. Noailly, A. Malandrino, D. Lacroix, H. J. Wilke, A. Shirazi-Adl
Comparison of four methods to simulate swelling in poroelastic finite element models of intervertebral discs
In J Mech Behav Biomed Mater, volume 4, 2011. |
|
| [3] | A. Malandrino, J. A. Planell, D. Lacroix
Statistical factorial analysis on the poroelastic material properties sensitivity of the lumbar intervertebral disc under compression, flexion and axial rotation
In J Biomech, volume 42, 2009. |
|
| [2] | E. Schileo, E. Dall'ara, F. Taddei, A. Malandrino, T. Schotkamp, M. Baleani, M. Viceconti
An accurate estimation of bone density improves the accuracy of subject-specific finite element models
In J Biomech, volume 41, 2008. |
|
| [1] | E. Schileo, F. Taddei, A. Malandrino, L. Cristofolini, M. Viceconti
Subject-specific finite element models can accurately predict strain levels in long bones
In J Biomech, volume 40, 2007. |
