Peer-Reviewed Journal Publications



  1. R. Awal, and T. R. Faisal. QCT-based 3D finite element modeling to assess patient-specific hip fracture risk and risk factors, Journal of the Mechanical Behavior of Biomedical Materials , Elsevier 150, 106299, 2024

  2. J. Sultana, M. Naznin, and T. R. Faisal. SSDL—an automated semi-supervised deep learning approach for patient-specific 3D reconstruction of proximal femur from QCT images, Medical & Biological Engineering & Computing , Springer 62, 1409-1425, 2024

  3. M. Adouni, F. Alkhatib, A Gouissem, and T. R. Faisal. Knee joint biomechanics and cartilage damage prediction during landing: A hybrid MD-FE-musculoskeletal modeling, PlosOne , Plos 18(8), e0287479, 2023

  4. T. R. Faisal, M. Adouni, and Y. Dhaher. Surrogate modeling of articular cartilage degradation to understand the synergistic role of MMP‑1 and MMP‑9: a case study, Biomechanics and Modeling in Mechanobiology , Springer, 2023

  5. M. Adouni, T. R. Faisal and Y. Dhaher. Effect of surgical design variations on the knee contact behavior during anterior cruciate ligament reconstruction, The Journal of Knee Surgery, Thieme, 36(03), 310-321, 2023.

  6. M. Adouni, T. R. Faisal and Y. Dhaher. Sensitivity analysis of the knee ligament forces to the surgical design variation during anterior cruciate ligament reconstruction: a finite element analysis, Computer Methods in Biomechanics and Biomedical Engineering, Taylor & Francis Online, 25(9), 1063-1071, 2023.

  7. A. Mixon, A. Bahar-Moni, and T. R. Faisal. Mechanical characterization of articular cartilage degraded combinedly with MMP-1 and MMP-9_a case study.pdf, Journal of the Mechanical Behavior of Biomedical Materials , Elsevier, 129: 105131, 2022

  8. B. Liu and T. R. Faisal. Computational design and fabrication of a bending‑active structure using fiberglass: a bioinspired pavilion mimicking marine microorganism radiolaria, Jounral of Bionic Engineering, Springer, 19(2): 471-482, 2022

  9. R. Awal, J. B. Hmida, Y. Luo and T. R. Faisal. Study of the significance of parameters and their interaction on assessing femoral fracture risk by quantitative statistical analysis, Medical & Biological Engineering & Computing, Springer, 60 (3): 843-854, 2022

  10. A. Mixon, A. Savage, A.S. Bahar-Moni, M. Adouni and T. R. Faisal. An in vitro investigation to understand the synergistic role of MMPs‑1 and 9 on articular cartilage biomechanical properties, Nature Scientific Reports , 2021.

  11. R. Awal and T. R. Faisal. Multiple regression analysis of hip fracture risk assessment via finite element analysis, ASME Journal of Engineering and Science in Medical Diagnostic and Therapy , ASME 4(1), 2021.

  12. M. Adouni, T. R. Faisal and Y. Dhaher. Computational frame of ligament in situ strain in a full knee model, Computers in Biology and Medicine, Elsevier, 126, 2020.

  13. M. Adouni, T. R. Faisal, M. Gaith and Y. Dhaher. A multi-scale synthesis: Characterizing acute cartilage failure under an aggregate knee joint loading, Biomechanics and Modeling in Mechanobiology, Springer, 18(6): 1563-1575, 2019.

  14. T. R. Faisal, M. Adouni and Y. Dhaher. The effect of fibrillar degradation on the mechanics of articular cartilage: a computational model. Biomechanics and Modeling in Mechanobiology, Springer, 18(3): 733-751, 2019.

  15. T. R. Faisal and Y. Luo. Study of the variations of fall induced hip fracture risk between right and left femurs using CT-based FEA. BioMedical Engineering OnLine, Springer, 16(116): 1-17, 2017.

  16. T. R. Faisal, N. Hristozov, T. L. Western, A. D. Rey and D. Pasini. The twist-to-bend compliance of the Rheum rhabarbarum petiole: integrated computations and experiments. Computer Methods in Biomechanics and Biomedical Engineering, Taylor & Francis, 20(4): 343-354, 2017.

  17. T. R. Faisal, and Y. Luo. Study of stress variations in the proximal-femur in single-stance and sideways fall using QCT-based finite element analysis. Bio-Medical Materials and Engineering, IOS Press, 27(1): 1-14, 2016.

  18. T. R. Faisal, N. Hristozov, A. D. Rey, T. L. Western and D. Pasini. Computational study of the elastic properties of Rheum rhabarbarum tissues via surrogate models of tissue geometry. Journal of Structural Biology, Elsevier 185(3): 285-294, 2014.

  19. T. R. Faisal, A. D. Rey and D. Pasini. A multiscale mechanical model for plant tissue stiffness. Polymers, MDPI 5(2): 730-750, 2013.

  20. T. R. Faisal, N. Hristozov, A. D. Rey, T. Western and D. Pasini. Experimental determination of Philodendron melinonii and Arabidopsis thaliana tissue microstructure and geometric modelling via finite-edge centroidal Voronoi tessellation. Physical Review E (Statistical, Nonlinear, and Soft Matter Physics) 86(3): 031921, 2012.

  21. T. R. Faisal, E. M. Khalil Abad, and D. Pasini. The impact of tissue morphology, cross-section, and turgor pressure on the mechanical properties of the leaf petiole in plants. Journal of Bionic Engineering, Springer (Old: Elsevier) 7: 11-23, 2010.

  22. M. M. Razzaque and T. R. Faisal. Performance of mechanical face seals with surface micro-pores. Journal of Mechanical Engineering, IEB 37: 77-80, 2008.

  23. M. M. Razzaque and T. R. Faisal. Effects of the shape of surface micro-pores on the performance of a face seal. Journal of Mechanical Engineering, IEB 38: 25-31, 2007.