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Simon, Mathieu; Indermaur, Michael; Schenk, Denis; Voumard, Benjamin; Zderic, Ivan; Mischler, Dominic; Pretterklieber, Michael; Zysset, Philippe (2024). Homogenized finite element analysis of distal tibia sections: Achievements and limitations. Bone reports, 21(101752) Elsevier 10.1016/j.bonr.2024.101752
Walle, Matthias; Whittier, Danielle E; Schenk, Denis; Atkins, Penny R; Blauth, Michael; Zysset, Philippe; Lippuner, Kurt; Müller, Ralph; Collins, Caitlyn J (2023). Precision of bone mechanoregulation assessment in humans using longitudinal high-resolution peripheral quantitative computed tomography in vivo. Bone, 172, p. 116780. Elsevier 10.1016/j.bone.2023.116780
Schenk, Denis; Zysset, Philippe (2023). Personalized loading conditions for homogenized finite element analysis of the distal sections of the radius. Biomechanics and Modeling in Mechanobiology, 22(2), pp. 453-466. Springer-Verlag 10.1007/s10237-022-01656-4
Schenk, Denis; Indermaur, Michael; Simon, Mathieu; Voumard, Benjamin; Varga, Peter; Pretterklieber, Michael; Lippuner, Kurt; Zysset, Philippe (2022). Unified validation of a refined second-generation HR-pQCT based homogenized finite element method to predict strength of the distal segments in radius and tibia. Journal of the mechanical behavior of biomedical materials, 131(105235), p. 105235. Elsevier 10.1016/j.jmbbm.2022.105235
Sewing, Lilian; Potasso, Laura; Baumann, Sandra; Schenk, Denis; Gazozcu, Furkan; Lippuner, Kurt; Kraenzlin, Marius; Zysset, Philippe; Meier, Christian (2022). Bone Microarchitecture and Strength in Long‐Standing Type 1 Diabetes. Journal of bone and mineral research, 37(5), pp. 837-847. Wiley-Blackwell 10.1002/jbmr.4517
Schenk, Denis; Mathis, Andrea; Lippuner, Kurt; Zysset, Philippe (2020). In vivo repeatability of homogenized finite element analysis based on multiple HR-pQCT sections for assessment of distal radius and tibia strength. Bone, 141, p. 115575. Elsevier 10.1016/j.bone.2020.115575
Stuck, A. K.; Schenk, D.; Zysset, P.; Bütikofer, L.; Mathis, A.; Lippuner, K. (2020). Reference values and clinical predictors of bone strength for HR-pQCT-based distal radius and tibia strength assessments in women and men. Osteoporosis international, 31(10), pp. 1913-1923. Springer-Verlag 10.1007/s00198-020-05405-0
Stadelmann, Marc A.; Schenk, Denis E.; Maquer, Ghislain; Lenherr, Christopher; Buck, Florian M; Bosshardt, Dieter; Hoppe, Sven; Theumann, Nicolas; Alkalay, Ron N; Zysset, Philippe K. (2020). Conventional finite element models estimate the strength of metastatic human vertebrae despite alterations of the bone's tissue and structure. Bone, 141(115598), p. 115598. Elsevier 10.1016/j.bone.2020.115598
