Jérôme Thevenot


Jérôme Thevenot
+358 294 48 6004
University of Oulu, POB 5000, 90014 Oulu, Finland

  • Present position
    • Post-Doctoral Fellow
  • Current research interests
    • Medical image processing, Finite element analysis, Osteoarthritis, Bone quality.
  • Education
    • PhD Biomedicine, Department of Medical Technology, University of Oulu, Oulu 2011.
    • Master of Research in Biomechanics and Biomedical engineering, Université de Technologie de Compiègne, Compiègne (France) 2006.
    • Master of Science in Production Systems, Ecole Supérieure d’Ingénieurs en Electrotechnique et Electronique, Amiens (France) 2006.
  • Scientific publications
    • Thevenot J, Bordallo López M, Hadid A. Computer Vision for Medical Diagnosis from Faces: A Narrative Review. International Journal of Medical Informatics 2015 (revision under review).
    • Finnilä M, Thevenot J, Aho O-M, Tiitu V, Rautiainen J, Nieminen M, Pritzker K, Valkealahti M, Lehenkari P, Saarakkala S. Relationship between human subchondral bone structural parameters and OARSI grade. Bone 2015 (submitted).
    • Hirvasniemi J, Thevenot J, Kokkonen H, Finnilä M, Venäläinen M, Jämsä T, Korhonen R, Töyräs J, Saarakkala S. Correlation of subchondral bone density and structure from plain radiographs with micro computed tomography ex vivo. Annals of Biomedical Engineering 2015 (accepted – DOI: 10.1007/s10439-015-1452-y).
    • Thevenot J, Chen J, Finnilä M, Nieminen M, Lehenkari P, Saarakkala S, Pietikäinen M. Local Binary Patterns to Evaluate Trabecular Bone Structure from Micro-CT Data: Application to Studies of Human Osteoarthritis. ECCV 2014 workshops, Lecture Notes in Computer Science 8926: 63-79.
    • Thevenot J, Hirvasniemi J, Pulkkinen P, Määttä M, Korpelainen R, Saarakkala S, Jämsä T. Assessment of Risk of Femoral Neck Fracture with Radiographic Texture Parameters: A Retrospective Study. Radiology 2014, Volume 272(1): 184-191.
    • Thevenot J, Koivumäki JE, Kuhn V, Eckstein F, Jämsä T. Estimation of experimental hip fracture load using 3D finite element models derived from plain radiographs. Journal of Biomechanics 2014, Volume 47(2): 438-444.
    • Hirvasniemi J, Thevenot J, Immonen V, Liikavainio T, Pulkkinen P, Jämsä T, Arokoski J, Saarakkala S. Quantification of differences in bone texture from plain radiographs in knees with and without osteoarthritis. Osteoarthritis and Cartilage 2014, Volume 22(10): 1724–1731.
    • Thevenot J, Hirvasniemi J, Finnilä M, Pulkkinen P, Kuhn V, Link T, Eckstein F, Jämsä T, Saarakkala S. Trabecular homogeneity index derived from plain radiograph to evaluate bone quality. Journal of Bone and Mineral Research 2013, 28(12):2584-91.
    • Koivumäki JE, Thevenot J, Pulkkinen P, Kuhn V, Link TM, Eckstein F, Jämsä T. Cortical Bone Finite Element Models in the Estimation of Experimentally Measured Failure Loads in the Proximal Femur. Bone 2012, Volume 51(4):737-740.
    • Koivumäki JE, Thevenot J, Pulkkinen P, Kuhn V, Link TM, Eckstein F, Jämsä T. Ct-based finite element models can be used to estimate experimentally measured failure loads in the proximal femur. Bone 2012, Volume 50(4): 824–829.
    • Thevenot J, Pulkkinen P, Kuhn V, Eckstein F, Jämsä T. Structural Asymmetry Between the Hips and Its Relation to Experimental Fracture Type. Calcified Tissue International 2010, Volume 87(3): 203-210.
    • Koivumäki JE, Thevenot J, Pulkkinen P, Salmi JA, Kuhn V, Lochmüller EM, Link TM, Eckstein F, Jämsä T. Does femoral strain distribution coincide with the occurrence of cervical vs. trochanteric hip fractures? Medical & Biological Engineering & Computing 2010, Volume 48(7):711-717.
    • Thevenot J, Pulkkinen P, Koivumäki J, Kuhn V, Eckstein F and Jämsä T. Discrimination of Cervical and Trochanteric Hip Fractures Using Radiography-Based Two-Dimensional Finite Element Models. Open Bone Journal 2009, Volume 1: 16-22.