Muscle preflex response to perturbations in locomotion : In vitro experiments and simulations with realistic boundary conditions. Frontiers in bioengineering and biotechnology, (11):1150170, Frontiers, 2023. [PUMA: mult oa ubs_10002 ubs_10011 ubs_20002 ubs_20016 ubs_30151 ubs_30190 ubs_40275 unibibliografie wos]
Contraction dynamics and function of the muscle-tendon complex depend on the muscle fibre-tendon length ratio : a simulation study. Biomechanics and modeling in mechanobiology, (15)1:245-258, Springer, 2016. [PUMA: liste mult ubs_10002 ubs_10011 ubs_20002 ubs_20016 ubs_30151 ubs_30190 ubs_40275 ubs_40394 unibibliografie]
Electro-Mechanical Delay in Hill-type Muscle Models. Journal of mechanics in medicine and biology, (12)05:1250085, World Scientific Publishing, 2012. [PUMA: liste mult ubs_10002 ubs_10011 ubs_20002 ubs_20016 ubs_30151 ubs_30190 ubs_40275 unibibliografie]
Force enhancement and stability of finite element muscle models. Proceedings in applied mathematics and mechanics, (16):85-86, Wiley-VCH, 2016. [PUMA: liste mult ubs_10002 ubs_10005 ubs_10011 ubs_20002 ubs_20007 ubs_20016 ubs_30151 ubs_30182 ubs_30190 ubs_40275 ubs_40307 ubs_40393 unibibliografie]
Muscle force depends on the amount of transversal muscle loading. Journal of biomechanics, (47)8:1822-1828, Elsevier, 2014. [PUMA: liste mult ubs_10002 ubs_10011 ubs_20002 ubs_20016 ubs_30151 ubs_30190 ubs_40275 ubs_40394 unibibliografie]
Cross-bridge mechanics estimated from skeletal muscles’ work-loop responses to impacts in legged locomotion. Scientific reports, (11):23638, Springer Nature, 2021. [PUMA: dfg f2022 mult oa oafonds ubs_10002 ubs_10011 ubs_20002 ubs_20016 ubs_30151 ubs_30190 ubs_40275 unibibliografie]
Energy Expenditure of Dynamic Submaximal Human Plantarflexion Movements : Model Prediction and Validation byin-vivoMagnetic Resonance Spectroscopy. Frontiers in Bioengineering and Biotechnology, (8):622, Frontiers Media, 2020. [PUMA: mult oa ubs_10002 ubs_10005 ubs_10011 ubs_10021 ubs_20002 ubs_20007 ubs_20016 ubs_20019 ubs_30075 ubs_30151 ubs_30165 ubs_30190 ubs_40103 ubs_40275 unibibliografie wos]
Exhaustion of Skeletal Muscle Fibers Within Seconds : Incorporating Phosphate Kinetics Into a Hill-Type Model. Frontiers in Physiology, (11):306, Frontiers Research Foundation, 2020. [PUMA: mult oa ubs_10002 ubs_10011 ubs_20002 ubs_20016 ubs_30151 ubs_30190 ubs_40275 unibibliografie wos]
Characterization of Electromechanical Delay Based on a Biophysical Multi-Scale Skeletal Muscle Model. Frontiers in Physiology, (10):1270, Frontiers Research Foundation, 2019. [PUMA: oa ubs_10002 ubs_10011 ubs_20002 ubs_20016 ubs_30151 ubs_30190 ubs_40275 ubs_40393 unibibliografie wos]
Extensive eccentric contractions in intact cardiac trabeculae : revealing compelling differences in contractile behaviour compared to skeletal muscles. Proceedings of the Royal Society. B, (286)1903:20190719, The Royal Society, 2019. [PUMA: mult ubs_10002 ubs_10011 ubs_20002 ubs_20016 ubs_30151 ubs_30190 ubs_40275 ubs_40393 unibibliografie wos]
A continuum-mechanical skeletal muscle model including actin-titin interaction predicts stable contractions on the descending limb of the force-length relation. PLoS computational biology, (13)10:e1005773, PLoS, 2017. [PUMA: mult oa ubs_10002 ubs_10011 ubs_20002 ubs_20016 ubs_30024 ubs_30151 ubs_40275 ubs_40287 unibibliografie wos]
A multi-scale continuum model of skeletal muscle mechanics predicting force enhancement based on actin-titin interaction. Biomechanics and modeling in mechanobiology, (15)6:1423-1437, Springer, 2016. [PUMA: mult ubs_10002 ubs_10011 ubs_20002 ubs_20016 ubs_30024 ubs_30151 ubs_40030 ubs_40275 unibibliografie wos]
A forward dynamics simulation of human lumbar spine flexion predicting the load sharing of intervertebral discs, ligaments, and muscles. Biomechanics and modeling in mechanobiology, (14)5:1081-1105, Springer, 2015. [PUMA: mult ubs_10002 ubs_10011 ubs_10012 ubs_20002 ubs_20016 ubs_20018 ubs_30024 ubs_30151 ubs_30159 ubs_40030 unibibliografie wos]