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J. Foiret, Q. Grimal, M. Talmant,R. Longo and P. Laugier. Probing heterogeneity of cortical bone with ultrasound axial transmission. IEEE UFFC. in press

S Bernard, Q. Grimal and P Laugier. Accurate measurement of cortical bone elasticity tensor with resonant ultrasound spectroscopy. Journal of the Mechanical Behavior of Biomedical Materials. in press

Q. Grimal, J Grondin, S Guérard, R Barkmann, K Engelke, C-C Glüer, P Laugier. Quantitative ultrasound of cortical bone in the femoral neck predicts femur strength : results of a pilot study. Journal of Bone and Mineral Research. doi : 10.1002/jbmr.1742.

Kawabe M, Fukui K, Matsukawa M, Granke M, Saïed A, Grimal Q, and Laugier P. Comparative investigation of elastic properties in a trabecula using micro-Brillouin scattering and scanning acoustic microscopy. JASA, 132(1):EL54-EL60, 2012

Langer, M. ; Pacureanu, A. ; Suhonen, H. ; Grimal, Q. ; Cloetens, P. ; Peyrin, F. X-ray phase nanotomography resolves the 3D human bone ultrastructure. PLoS ONE, in press

Rohrbach, D., Lakshmanan S., Peyrin F., Langer, M., Gerisch, A., Grimal, Q., Laugier, P., Raum, K. Spatial distribution of tissue level properties in a human femoral cortical bone. J Biomech. 2012 Aug 31 ;45(13):2264-70

Nauleau, P. ; Cochard, E. ; Minonzio, J-G. ; Grimal, Q. ; Laugier, P. and Prada, C. Characterization of circumferential guided waves in a cortical bone-mimicking cylindrical phantom. Journal of the Acoustical Society of America. 131(4), EL289-94, 2012.

Parnell, W. J. ; Vu, M. B. ; Grimal, Q. and Naili, S. Analytical methods to determine the effective mesoscopic and macroscopic elastic properties of cortical bone. Biomech Model Mechanobiol, 11(6), 883-901, 2012.

Grondin, J. ; Grimal, Q. ; Yamamoto, K. ; Matsukawa, M. ; Saïed, A. and Laugier, P. Relative contributions of porosity and mineralized matrix properties to the bulk axial ultrasonic wave velocity in human cortical bone. Ultrasonics, 52(4), 467-71, 2012.

Granke, M. ; Grimal, Q. ; Saïed, A. ; Nauleau, P. ; Peyrin, F. and Laugier, P. Change in porosity is the major determinant of the variation of cortical bone elasticity at the millimeter scale in aged women. Bone, 2011, 49, 1020-1026

Grimal, Q. ; Rus, G. ; Parnell, W. J. & Laugier, P. A two-parameter model of the effective elastic tensor for cortical bone. J Biomech, 2011

Grimal, Q. ; Raum, K. ; Gerisch, A. & Laugier, P. A determination of the minimum sizes of representative volume elements for the prediction of cortical bone elastic properties. Biomech Model Mechanobiol, 2011

Longo, R. ; Grimal, Q. ; Laugier, P. ; Vanlanduit, S. & Guillaume, P. Simultaneous Determination of Acoustic Velocity and Density of a Cortical Bone Slab : Ultrasonic Model-Based Approach Ieee Transactions on Ultrasonics Ferroelectrics and Frequency Control, 2010, 57, 496-500

Naili, S. ; Vu, M. B. ; Grimal, Q. ; Talmant, M. ; Desceliers, C. ; Soize, C. & Haiat, G. Influence of viscoelastic and viscous absorption on ultrasonic wave propagation in cortical bone : Application to axial transmission Journal of the Acoustical Society of America, 2010, 127, 2622-2634

Grondin, J. ; Grimal, Q. ; Engelke, K. & Laugier, P. Potential of first arriving signal to assess cortical bone geometry at the hip with QUS : a model based study Ultrasound in Medicine and Biology, 2010, 36, 656-666

Parnell, W.J. and Q. Grimal, The influence of mesoscale porosity on cortical bone anisotropy. Investigations via asymptotic homogenization. Journal of the Royal Society Interface, 2009. 6(30) : p. 97-109.

Desceliers, C., C. Soize, Q. Grimal, M. Talmant, and S. Naili, Determination of the random anisotropic elasticity layer using transient wave propagation in a fluid-solid multilayer : Model and experiments. Journal of the Acoustical Society of America, 2009. 125(4) : p. 2027-2034.

Haiat, G., S. Naili, Q. Grimal, M. Talmant, C. Desceliers, and C. Soize, Influence of a gradient of material properties on ultrasonic wave propagation in cortical bone : Application to axial transmission. Journal of the Acoustical Society of America, 2009. 125(6) : p. 4043-4052.

Grimal, Q., S. Haupert, D. Mitton, L. Vastel, and P. Laugier, Assessment of cortical bone elasticity and strength : Mechanical testing and ultrasound provide complementary data. Med Eng Phys, 2009.

Grimal, Q., K. Raum, A. Gerisch, and P. Laugier, Derivation of the mesoscopic elasticity tensor of cortical bone from quantitative impedance images at the micron scale. Comput Methods Biomech Biomed Engin, 2008. 11(2) : p. 147-57.

Padilla, F., Q. Grimal, and P. Laugier, Ultrasonic Propagation Through Trabecular Bone Modeled as a Random Medium. Japanese Journal of Applied Physics, 2008. 47(5) : p. 4220-4222.

Desceliers, C., C. Soize, Q. Grimal, G. Haiat, and S. Naili, A time-domain method to solve transient elastic wave propagation in a multilayer medium with a hybrid spectral-finite element space approximation. Wave Motion, 2008. 45(4) : p. 383-399.

Macocco, K., Grimal, Q., Naïli, S., Soize, C., Elastoacoustic model with uncertain mechanical properties for ultrasonic wave velocity prediction ; application to cortical bone evaluation. Journal of Acoustical Society of America, 2006. 119(2) : p. 729-740.

Grimal, Q. and S. Naïli. A Theoretical Analysis in the Time-Domain of Wave Reflection on a Bone Plate. Journal of Sound and Vibration, 2006. 298(1-2) : p. 12-29.

Grimal, Q., S. Naili, and A. Watzky, A high-frequency lung injury mechanism in blunt thoracic impact. Journal of Biomechanics, 2005. 38(6) : p. 1247-1254.

Grimal, Q. and S. Naïli, Injury mechanism in non-penetrating thoracic impact : finite element study. Revue européenne des éléments finis, 2005. 14(4-5) : p. 517-540.

Macocco, K., Grimal, Q., Naïli, S., Soize, C., Modélisation probabiliste d’une expérience ultrasonore : calcul de la dispersion sur les mesures de célérité. Comptes Rendus Mécanique, 2005. 333(7) : p. 565-573.

Q. Grimal, B.A. Gama, S. Naïli, A. Watzky, J.W. Gillespie. Finite Element Study of High-Speed Blunt Impact on Thorax : Linear Elastic Considerations. International Journal of Impact Engineering, 30, 665-683, 2004.

Q. Grimal, S. Naïli, A. Watzky. A method for calculating the axisymmetric response of a two-layered half-space under dynamic concentrated loading. \it Journal of Sound and Vibrations, sous presse, 22 : p. 755-780, 2004.

Q. Grimal, S. Naïli, A. Watzky. On the transmission of transient elastodynamic waves at a sliding contact interface ; application to a weakly coupled bimaterial. International Journal of Solids and Structures, 41 (2), 459-480, 2004.

Q. Grimal, A. Watzky, S. Naïli. A one-dimensional model for the propagation of pressure waves through the lung. Journal of Biomechanics, 35, 1081-1089, 2002.

Q. Grimal, S. Naïli, A. Watzky. A study of transient elastic wave propagation in a bimaterial modeling the thorax. International Journal of Solids and Structures, 39, 5345-5369, 2002.

Q. Grimal, S. Naïli, A. Watzky. Transient elastic wave propagation in a spherically symmetric bimaterial medium modeling the thorax. International Journal of Solids and Structures, 39, 6103-6120, 2002.

Q. Grimal, S. Naïli, A. Watzky. A study of impact wave propagation in the thorax. Mechanics Research Communications, 29, 73-80, 2002.

Q. Grimal, A. Watzky, S. Naïli. Sur la réponse transitoire d’une couche solidaire d’un milieu semi-infini ; application à un impact sur le thorax. Comptes-rendus de Mécanique, 331, 745-752, 2003.

Q. Grimal, S. Naïli, A. Watzky, Impact non-pénétrant sur le thorax : influence de la courbure sur la propagation des ondes. Comptes-rendus de Mécanique, 330, 569-574, 2002.

Q. Grimal, A. Watzky, S. Naïli, Impact non pénétrant sur le thorax : une contribution à l’étude de la propagation des ondes. C. R. Acad. Sci. Paris, Série IIb, 329, 655-662, 2001.