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Adouni, M., Shirazi-Adl, A., & Marouane, H. (2016). Role of gastrocnemius activation in knee joint biomechanics: gastrocnemius acts as an ACL antagonist. Computer Methods in Biomechanics and Biomedical Engineering, 19(4), 376-385. Lien externe
Adouni, M., Shirazi-Adl, A., & Marouane, H. (juillet 2014). Anterior cruciate ligament force markedly increases with gastrocnemius contraction : Analysis of the knee joint in gait and at different flexion angles [Communication écrite]. 7th World Congress of Biomechanics, Boston, Mass.. Non disponible
Adouni, M., Shirazi-Adl, A., & Marouane, H. (septembre 2013). Gastrocnemius activation level markedly influences ACL force [Communication écrite]. 37th Annual Meeting of the American Society of Biomechanics (ABS 2013, Omaha, NE, USA. Non disponible
Marouane, H., & Shirazi-Adl, A. (2019). Sensitivity of medial-lateral load sharing to changes in adduction moments or angles in an asymptomatic knee joint model during gait. Gait & Posture, 70, 39-47. Lien externe
Marouane, H., Shirazi-Adl, A., & Adouni, M. (2017). 3D active-passive response of human knee joint in gait is markedly altered when simulated as a planar 2D joint. Biomechanics and Modeling in Mechanobiology, 16(2), 693-703. Lien externe
Marouane, H., & Shirazi-Adl, A. (mars 2017). Changes in knee adduction rotation and not adduction moment influence joint compartmental load partitioning [Affiche]. ORS 2017 Annual Meeting, San Diego,California. Non disponible
Marouane, H., Shirazi-Adl, A., Adouni, M., & Hashemi, J. (mars 2016). 2D versus 3D estimation of knee joint muscle and contact forces in gait [Affiche]. ORS 2016 Annual Meeting, Orlando, Florida. Lien externe
Marouane, H., Shirazi-Adl, A., & Adouni, M. (2016). Alterations in knee contact forces and centers in stance phase of gait: A detailed lower extremity musculoskeletal model. Journal of Biomechanics, 49(2), 185-192. Lien externe
Marouane, H., Shirazi-Adl, A., & Adouni, M. (mars 2016). Determination of knee contact centers and contact forces during gait: Evaluation of existing techniques [Communication écrite]. ORS 2016 Annual Meeting, Orlando, Florida. Non disponible
Marouane, H., Shirazi-Adl, A., & Adouni, M. (juillet 2016). A hybrid computational musculoskeletal model of the lower extremity in gait [Communication écrite]. 19th Canadian Society for Biomechanics (CSB 2016), Hamilton, ON, Canada. Lien externe
Marouane, H., Shirazi-Adl, A., Adouni, M., & Hashemi, J. (juillet 2015). ACL force in gait markedly increases with steeper tibial posterior slope [Communication écrite]. 21st Congress of the European Society of Biomechanics, Prague, Czech Republic. Non disponible
Marouane, H., Shirazi-Adl, A., & Adouni, M. (2015). Knee joint passive stiffness and moment in sagittal and frontal planes markedly increase with compression. Computer Methods in Biomechanics and Biomedical Engineering, 18(4), 339-350. Lien externe
Marouane, H., Shirazi-Adl, A., & Hashemi, J. (2015). Quantification of the role of tibial posterior slope in knee joint mechanics and ACL force in simulated gait. Journal of Biomechanics, 48(10), 1899-1905. Lien externe
Marouane, H., Shirazi-Adl, A., Adouni, M., & Hashemi, J. (mars 2015). Steeper tibial posterior slope is a risk factor in ACL injury - Gait simulation by a lower extremity model [Communication écrite]. ORS 2015 Annual Meeting, Las Vegas, NV. Lien externe
Marouane, H., Shirazi-Adl, A., Adouni, M., & Hashemi, J. (2014). Steeper posterior tibial slope markedly increases ACL force in both active gait and passive knee joint under compression. Journal of Biomechanics, 47(6), 1353-1359. Lien externe
Marouane, H., Shirazi-Adl, A., Adouni, M., & Hashemi, J. (juillet 2014). Steeper Posterior Tibial Slope Markedly Increases Forces in Anterior Cruciate Ligament [Affiche]. 7th World Congress of Biomechanics, Boston, Mass.. Non disponible
Marouane, H., Shirazi-Adl, A., Adouni, M., & Hashemi, J. (mars 2014). Steeper posterior tibial slope substantially increases ACL force both in gait and in isolated knee joint in compression at all flexion angles [Communication écrite]. 60th Annual Meeting of the Orthopaedic Research Society, New Orleans, Louisiana. Lien externe
Marouane, H., Shirazi-Adl, A., & Adouni, M. (septembre 2013). Compression force substantially increases the tibiofemoral joint passive stiffness and moment in sagittal and frontal planes [Communication écrite]. 37th Annual Meeting of the American Society of Biomechanics (ABS 2013, Omaha, NE, USA. Non disponible
Sharifi, M., Shirazi-Adl, A., & Marouane, H. (2019). Sensitivity of the knee joint response, muscle forces and stability to variations in gait kinematics-kinetics. Journal of Biomechanics, 99, 10 pages. Lien externe
Sharifi, M., Shirazi-Adl, A., & Marouane, H. (2018). Computation of the role of kinetics, kinematics, posterior tibial slope and muscle cocontraction on the stability of ACL-deficient knee joint at heel strike Towards identification of copers from non-copers. Journal of Biomechanics, 77, 171-182. Lien externe
Sharifi, M., Shirazi-Adl, A., & Marouane, H. (mars 2018). A computational lower-extremity model to quantify the stability of an anterior cruciate ligament deficient knee joint at heel strike: Gait parameters marking copers from non-copers [Communication écrite]. 15th International Symposium Computer Methods in Biomechanics and Biomedical Engineering and 3rd Conference on Imaging and Visualization (CMBBE 2018), Lisbon, Portugal. Lien externe
Sharifi, M., Shirazi-Adl, A., & Marouane, H. (2017). Computational stability of human knee joint at early stance in Gait: Effects of muscle coactivity and anterior cruciate ligament deficiency. Journal of Biomechanics, 63(Supplement), 110-116. Lien externe
Sharifi, M., Shirazi-Adl, A., & Marouane, H. (mars 2017). Knee joint stability and muscle coactivation: A novel hybrid musculoskeletal model study in gait [Affiche]. ORS 2017 Annual Meeting, San Diego,California. Non disponible
