Estermann, S.-J., Pahr, D.H. & Reisinger, A., 2020. Quantifying tactile properties of liver tissue, silicone elastomers, and a 3D printed polymer for manufacturing realistic organ models. Journal of the Mechanical Behavior of Biomedical Materials, 104, S.103630.
Georgiou, L., Dunmore, C.J., Bardo, A., Buck, L.T., Hublin, J.-J., Pahr, D.H., Stratford, D., Synek, A., Kivell, T.L. & Skinner, M.M., 2020. Evidence for habitual climbing in a Pleistocene hominin in South Africa. Proceedings of the National Academy of Sciences of the United States of America, 117(15), S.8416-8423.
Georgiou, L., Dunmore, C.J., Bardo, A., Buck, L.T., Hublin, J.-J., Pahr, D.H., Stratford, D., Synek, A., Kivell, T.L. & Skinner, M.M., 2020. Evidence for habitual climbing in a Pleistocene hominin in South Africa. Proceedings of the National Academy of Sciences of the United States of America.
Iori, G., Peralta, L., Reisinger, A., Heyer, F., Wyers, C., van den Bergh, J., Pahr, D.H. & Raum, K., 2020. Femur strength predictions by nonlinear homogenized voxel finite element models reflect the microarchitecture of the femoral neck. Medical engineering & physics, 79, S.60-66.
Iori, G., Peralta, L., Reisinger, A., Heyer, F., Wyers, C., van den Bergh, J., Pahr, D.H. & Raum, K., 2020. Femur strength predictions by nonlinear homogenized voxel finite element models reflect the microarchitecture of the femoral neck. Medical engineering & physics.
Iori, G., Schneider, J., Reisinger, A., Heyer, F., Peralta, L., Wyers, C., Gluer, C.C., van den Bergh, J.P., Pahr, D.H. & Raum, K., 2020. Cortical thinning and accumulation of large cortical pores in the tibia reflect local structural deterioration of the femoral neck. Bone, 137, S.115446.
Iori, G., Schneider, J., Reisinger, A., Heyer, F., Peralta, L., Wyers, C., Gluer, C.C., van den Bergh, J.P., Pahr, D.H. & Raum, K., 2020. Cortical thinning and accumulation of large cortical pores in the tibia reflect local structural deterioration of the femoral neck. Bone, S.115446.
Reisinger, A., Frank, M., Thurner, P.J. & Pahr, D.H., 2020. A two-layer elasto-visco-plastic rheological model for the material parameter identification of bone tissue. Biomechanics and modeling in mechanobiology.
Steiner, L., Synek, A. & Pahr, D.H., 2020. Comparison of different microCT-based morphology assessment tools using human trabecular bone. Bone reports, 12, S.100261.
Synek, A., Lu, S.-C., Nauwelaerts, S., Pahr, D.H. & Kivell, T.L., 2020. Metacarpophalangeal joint loads during bonobo locomotion: model predictions versus proxies. Interface: Journal of the Royal Society, 17(164), S.20200032.
2019
Journal Article
Amini, M., Reisinger, A. & Pahr, D.H., 2019. Influence of processing parameters on mechanical properties of a 3D-printed trabecular bone microstructure. Journal of biomedical materials research. Part B, Applied biomaterials, 108(1), S.38-47.
Benca, E., Synek, A., Amini, M., Kainberger, F., Hirtler, L., Windhager, R., Mayr, W. & Pahr, D.H., 2019. QCT-based finite element prediction of pathologic fractures in proximal femora with metastatic lesions. Scientific reports, 9, S.10305.
Chen, F., Welker, F., Shen, C.-C., Bailey, S.E., Bergmann, I., Davis, S., Xia, H., Wang, H., Fischer, R., Freidline, S.E., Yu, T.-L., Skinner, M.M., Stelzer, S., Dong, G., Fu, Q., Dong, G., Wang, J., Zhang, D. & Hublin, J.-J., 2019. A late Middle Pleistocene Denisovan mandible from the Tibetan Plateau. Nature, 569, S.409-412.
Georgiou, L., Kivell, T.L., Pahr, D.H., Buck, L.T. & Skinner, M.M., 2019. Trabecular architecture of the great ape and human femoral head. Journal of anatomy, 234(5), S.679-693.
Iori, G., Schneider, J., Reisinger, A., Heyer, F., Peralta, L., Wyers, C., Grasel, M., Barkmann, R., Gluer, C.C., van den Bergh, J.P., Pahr, D.H. & Raum, K., 2019. Large cortical bone pores in the tibia are associated with proximal femur strength. PloS one, 14, S.e0215405.
Kluess, D., Soodmand, E., Lorenz, A., Pahr, D.H., Schwarze, M., Cichon, R., Varady, P.A., Herrmann, S., Buchmeier, B., Schröder, C., Lehner, S. & Kebbach, M., 2019. A round-robin finite element analysis of human femur mechanics between seven participating laboratories with experimental validation. Comput Methods Biomech Biomed Engin, 22, S.1020-1031.
Stipsitz, M., Zysset, P.K. & Pahr, D.H., 2019. Efficient materially nonlinear µFE solver for simulations of trabecular bone failure. Biomechanics and modeling in mechanobiology.
Synek, A., Dunmore, C.J., Kivell, T.L., Skinner, M.M. & Pahr, D.H., 2019. Inverse remodelling algorithm identifies habitual manual activities of primates based on metacarpal bone architecture. Biomechanics and modeling in mechanobiology, 18, S.399-410.
Synek, A., Lu, S.-C., Vereecke, E.E., Nauwelaerts, S., Kivell, T.L. & Pahr, D.H., 2019. Musculoskeletal models of a human and bonobo finger: parameter identification and comparison to in vitro experiments. PeerJ, 7, S.e7470.
Conference Paper
Amini, M., Reisinger, A. & Pahr, D.H., 2019. Effect of selected scan parameters on qct-based bmd estimations of a femur. In European Society of Biomechanics. Vienna: TU Verlag, S. 134.
Amraish, N., Reisinger, A. & Pahr, D.H., 2019. Accuracy and precision of full field surface strain measurements. In European Society of Biomechanics. Vienna: TU Verlag, S. 223.
Estermann, S.-J., Müller-Guttenbrunn, C., Pahr, D.H. & Reisinger, A., 2019. Comparison of tactile properties of liver tissue and potential 3D printing materials via macroindentation. In 11. Kongress der Deutschen Gesellschaft für Biomechanik (DGfB). Berlin, S. 199.
Estermann, S.-J., Müller-Guttenbrunn, C., Pahr, D.H. & Reisinger, A., 2019. Presentation: Macroindentation of liver tissue and 3d printing materials for comparison of tactile properties. In European Society of Biomechanics. Vienna: TU Verlag, S. 230.
Frank, M., Reisinger, A., Pahr, D.H. & Thurner, P.J., 2019. Tensile mechanical properties of human individual trabeculae of non- and osteopororotic fracture donors . In European Society of Biomechanics. Vienna: TU Verlag, S. 685.
Iori, G., Schneider, J., Heyer, F., Wyers, C., Gluer, C.C., van den Bergh, J., Pahr, D.H. & Raum, K., 2019. Cortical bone thinning at the tibia reflects femoral neck structural deterioration. In European Society of Biomechanics. Vienna: TU Verlag, S. 274.
Karner, P., Frank, M., Andriotis, O., Reisinger, A. & Thurner, P.J., 2019. Influence of non-enzymatic glycation on tensile mechanical properties of bovine individual trabeculae. In European Society of Biomechanics. Vienna: TU Verlag, S. 281.
Kluess, D., Soodmand, E., Lorenz, A., Pahr, D.H., Schwarze, M., Cichon, R., Varady, P.A., Herrmann, S., Buchmeier, B., Schröder, C., Lehner, S. & Kebbach, M., 2019. Ein Finite-Elemente-Ringversuch zur Biomechanik des humanen Femur zwischen sieben teilnehmenden Laboren mit experimenteller Validierung. In 11. Kongress der Deutschen Gesellschaft für Biomechanik (DGfB). Berlin, S. 118.
Lorenz, A., Freidhager, C., Leichtle, U.G. & Pahr, D.H., 2019. Krümmungsbasierte Detektion anatomischer Landmarken und Achsen am menschlichen Kniegelenk . In 11. Kongress der Deutschen Gesellschaft für Biomechanik (DGfB). Berlin, S. 91.
Lorenz, A., Steiner, L., Freidhager, C., Leichtle, U.G. & Pahr, D.H., 2019. Comparison of different methods for automatic landmark detection from 2D images, 3D images or 3D surface meshes. In European Society of Biomechanics. Vienna: TU Verlag, S. 165.
Pahr, D.H., Synek, A., Stipsitz, M. & Steiner, L., 2019. Micro FE in bone biomechanics – Recent advances . In 11. Kongress der Deutschen Gesellschaft für Biomechanik (DGfB). Berlin, S. 117.
Reisinger, A., Frank, M., Thurner, P. & Pahr, D.H., 2019. Elasto-visco-plastic material parameters of single trabeculae identified by rheological modelling. In European Society of Biomechanics. Vienna: TU Verlag, S. 182.
Sinzinger, F., Pahr, D.H. & Moreno, R., 2019. Predicting the trabecular bone stiffness tensor with spherical convolutional neural networks. In European Society of Biomechanics. Vienna: TU Verlag, S. 164.
Steiner, L. & Pahr, D.H., 2019. Statistical deformation model based estimation of 3D models from 2D projections can be used to predict human femoral strength. In European Society of Biomechanics. Vienna: TU Verlag, S. 634.
Stelzer, S., Einwögerer, T., Grebe, A., Gunz, P., Händel, M., Neubauer, S., Pahr, D.H., Simon, U. & Teschler-Nicola, M., 2019. Digitisation of an Upper Palaeolithic infant burial from Krems-Wachtberg. In European Society for the study of Human Evolution. Liège/Belgium.
Stipsitz, M., Zysset, P. & Pahr, D.H., 2019. Failure behavior of trabecular bone based on materially nonlinear micro fe simulations. In European Society of Biomechanics. Vienna: TU Verlag, S. 270.
Synek, A., Lu, S.-C., Kivell, T.L., Nauwelaerts, S. & Pahr, D.H., 2019. Metacarpophalangeal joint loads of bonobos during different locomotor modes: Proxies vs. Model predictions. In European Society of Biomechanics. Wien: TU Verlag, S. 25.
Synek, A., Lu, S.-C., Vereecke, E., Kivell, T.L. & Pahr, D.H., 2019. Identifying optimal tendon path parameters of a musculoskeletal human finger model. In European Society of Biomechanics. Vienna: TU Verlag, S. 447.
Georgiou, L., Kivell, T.L., Pahr, D.H. & Skinner, M.M., 2018. Trabecular bone patterning in the hominoid distal femur. PeerJ, 6, S.e5156.
Lu, S.C., Vereecke, E.E., Synek, A., Pahr, D.H. & Kivell, T.L., 2018. A novel experimental design for the measurement of metacarpal bone loading and deformation and fingertip force. PeerJ, 6, S.e5480.
Panyasantisuk, J., Dall'Ara, E., Pretterklieber, M., Pahr, D.H. & Zysset, P.K., 2018. Mapping anisotropy improves QCT-based finite element estimation of hip strength in pooled stance and side-fall load configurations. Medical Engineering & Physics, 59, S.36-42.
Warnung, L., Estermann, S.-J. & Reisinger, A., 2018. Mechanical Properties of Fused Deposition Modeling (FDM) 3D Printing Materials. RTejournal - Fachforum für Rapid Technologien, 2018(1).
2017
Journal Article
Benca, E., Reisinger, A., Patsch, J.M., Hirtler, L., Synek, A., Stenicka, S., Windhager, R., Mayr, W. & Pahr, D.H., 2017. Effect of simulated metastatic lesions on the biomechanical behavior of the proximal femur. Journal of Orthopaedic Research, 35, S.2407-2414.
Research group publications (TU-Wien database): Click here
