A continuum-mechanical skeletal muscle model including actin-titin interaction predicts stable contractions on the descending limb of the force-length relation

Magnetic resonance and diffusion tensor imaging analyses indicate heterogeneous strains along human medial gastrocnemius fascicles caused by submaximal plantar-flexion activity

(2017) Agah Karakuzu et al.   JOURNAL OF BIOMECHANICS

The active force–length relationship is invisible during extensive eccentric contractions in skinned skeletal muscle fibres

(2017) André Tomalka et al.   PROCEEDINGS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES

A multi-scale continuum model of skeletal muscle mechanics predicting force enhancement based on actin–titin interaction

(2016) Thomas Heidlauf et al.   Biomechanics and Modeling in Mechanobiology

Combined magnetic resonance and diffusion tensor imaging analyses provide a powerful tool for in vivo assessment of deformation along human muscle fibers

(2016) Uluç Pamuk et al.   Journal of the Mechanical Behavior of Biomedical Materials

Novel microstructural findings in M. plantaris and their impact during active and passive loading at the macro level

(2015) Markus Böl et al.   Journal of the Mechanical Behavior of Biomedical Materials

Three-Dimensional Muscle Architecture and Comprehensive Dynamic Properties of Rabbit Gastrocnemius, Plantaris and Soleus: Input for Simulation Studies

(2015) Tobias Siebert et al.   PLoS One

Titin force is enhanced in actively stretched skeletal muscle

(2014) K. Powers et al.   JOURNAL OF EXPERIMENTAL BIOLOGY

Muscle residual force enhancement: a brief review

(2013) FC Minozzo et al.   Clinics

Modeling the Chemoelectromechanical Behavior of Skeletal Muscle Using the Parallel Open-Source Software Library OpenCMISS

(2013) Thomas Heidlauf et al.   Computational and Mathematical Methods in Medicine

Orthotropic active strain models for the numerical simulation of cardiac biomechanics

(2012) Simone Rossi et al.   International Journal for Numerical Methods in Biomedical Engineering

Residual force enhancement after stretch in striated muscle. A consequence of increased myofilament overlap?

(2012) K. A. P. Edman   JOURNAL OF PHYSIOLOGY-LONDON

A Physiologically Based, Multi-Scale Model of Skeletal Muscle Structure and Function

(2012) O. Röhrle et al.   Frontiers in Physiology

A mathematical model of force transmission from intrafascicularly terminating muscle fibers

(2011) Bahar Sharafi et al.   JOURNAL OF BIOMECHANICS

Active Stress vs. Active Strain in Mechanobiology: Constitutive Issues

(2011) D. Ambrosi et al.   JOURNAL OF ELASTICITY

OpenCMISS: A multi-physics & multi-scale computational infrastructure for the VPH/Physiome project

(2011) Chris Bradley et al.   PROGRESS IN BIOPHYSICS & MOLECULAR BIOLOGY

A Mathematical Model of Muscle Containing Heterogeneous Half-Sarcomeres Exhibits Residual Force Enhancement

(2011) Stuart G. Campbell et al.   PLoS Computational Biology

Force enhancement following stretch in a single sarcomere

(2010) T. R. Leonard et al.   AMERICAN JOURNAL OF PHYSIOLOGY-CELL PHYSIOLOGY

Regulation of muscle force in the absence of actin-myosin-based cross-bridge interaction

(2010) T. R. Leonard et al.   AMERICAN JOURNAL OF PHYSIOLOGY-CELL PHYSIOLOGY

Whole muscle length-tension relationships are accurately modeled as scaled sarcomeres in rabbit hindlimb muscles

(2010) Taylor M. Winters et al.   JOURNAL OF BIOMECHANICS

A continuum constitutive model for the active behaviour of skeletal muscle

(2010) Alexander E. Ehret et al.   JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS

THE EFFECTS OF PARALLEL AND SERIES ELASTIC COMPONENTS ON THE ACTIVE CAT SOLEUS FORCE-LENGTH RELATIONSHIP

(2009) CHRISTIAN RODE et al.   Journal of Mechanics in Medicine and Biology

Residual force enhancement in myofibrils and sarcomeres

(2008) V Joumaa et al.   PROCEEDINGS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES

Bridging Scales: A Three-Dimensional Electromechanical Finite Element Model of Skeletal Muscle

(2008) Oliver Röhrle et al.   SIAM JOURNAL ON SCIENTIFIC COMPUTING