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Strack, D., Rayudu, N. M., Kirschke, J. S., Baum, T., & Subburaj, K. (2024). Reduction of material groups for vertebral bone finite element simulation: cross comparison of grouping methods. Computer Methods in Biomechanics and Biomedical Engineering, 1-11.

Rayudu, N.M., Subburaj, K., Mohan, R.E., Sollmann, N., Dieckmeyer, M., Kirschke, J.S. and Baum T., 2022. Patient-Specific Finite Element Modeling of the Whole Lumbar Spine Using Clinical Routine Multi-Detector Computed Tomography (MDCT) Data—A Pilot Study. Biomedicines, 10(7), p.1567

Rayudu, N.M., Baum, T., Kirschke, J.S. and Subburaj, K., 2021. MDCT-Based Finite Element Analysis for the Prediction of Functional Spine Unit Strength—An In Vitro Study. Materials, 14(19), p.5791

Rayudu, N.M., Dieckmeyer, M., Löffler, M.T., Noël, P.B., Kirschke, J.S., Baum, T. and Subburaj, K., 2021. Predicting vertebral bone strength using finite element analysis for opportunistic osteoporosis screening in routine multidetector computed tomography scans—A feasibility study. Frontiers in endocrinology, p.1046

Yeung, L.Y.*, Rayudu, N.M.*, Löffler, M., Sekuboyina, A., Burian, E., Sollmann, N., Dieckmeyer, M., Greve, T., Kirschke, J.S., Subburaj, K. and Baum, T., 2021. Prediction of incidental osteoporotic fractures at vertebral-specific level using 3D non-linear finite element parameters derived from routine abdominal MDCT. Diagnostics, 11(2), p.208

Sollmann, N., Rayudu, N.M., Yeung, L.Y., Sekuboyina, A., Burian, E., Dieckmeyer, M., Löffler, M.T., Schwaiger, B.J., Gersing, A.S., Kirschke, J.S. and Baum, T., 2021. MDCT-Based Finite Element Analyses: Are Measurements at the Lumbar Spine Associated with the Biomechanical Strength of Functional Spinal Units of Incidental Osteoporotic Fractures along the Thoracolumbar Spine? Diagnostics, 11(3), p.455

Dieckmeyer, M., Rayudu, N.M., Yeung, L.Y., Löffler, M., Sekuboyina, A., Burian, E., Sollmann, N., Kirschke, J.S., Baum, T. and Subburaj, K., 2021. Prediction of incident vertebral fractures in routine MDCT: Comparison of global texture features, 3D finite element parameters and volumetric BMD. European Journal of Radiology, 141, p.109827

Sollmann, N., Rayudu, N.M., Lim, J.J.S., Dieckmeyer, M., Burian, E., Löffler, M.T., Kirschke, J.S., Baum, T. and Subburaj, K., 2021. Multi-detector computed tomography (MDCT) imaging: association of bone texture parameters with finite element analysis (FEA)-based failure load of single vertebrae and functional spinal units. Quantitative Imaging in Medicine and Surgery, 11(7), p.2955

Rayudu, N.M., Subburaj, K., Mei, K., Dieckmeyer, M., Kirschke, J.S., Noël, P.B. and Baum, T., 2020. Finite element analysis-based vertebral bone strength prediction using MDCT data: how low can we go?. Frontiers in Endocrinology, p.442

Rayudu, N.M., Anitha, D.P., Mei, K., Zoffl, F., Kopp, F.K., Sollmann, N., Löffler, M.T., Kirschke, J.S., Noël, P.B., Subburaj, K. and Baum, T., 2020. Low-dose and sparse sampling MDCT-based femoral bone strength prediction using finite element analysis. Archives of osteoporosis, 15(1), pp.1-9

Rayudu, N.M., Tang, X. and Singh, G., 2019. Simulating three-dimensional hydraulic fracture propagation using displacement correlation method. Tunnelling and Underground Space Technology, 85, pp.84-91

Tang, X., Rutqvist, J., Hu, M. and Rayudu, N.M., 2019. Modeling three-dimensional fluid-driven propagation of multiple fractures using TOUGH-FEMM. Rock Mechanics and Rock Engineering, 52(2), pp.611-627