Journal of Biomechanical Engineering-Transactions of the Asme

Papers
(The H4-Index of Journal of Biomechanical Engineering-Transactions of the Asme is 15. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2022-01-01 to 2026-01-01.)
ArticleCitations
In Situ Lumbar Facet Capsular Ligament Strains Due to Joint Pressure and Residual Strain35
Pilot Collection and Evaluation of Head Kinematics in Stock Car Racing28
Special Issue: Respiratory Biomechanics: A Collection of Research and Review Articles From Leaders in the Field of Respiratory Biomechanics22
Modeling Oxygen Delivery to Spontaneously Breathing Individuals: Improving Oxygenation Using a Feedback Controller21
Strain-Dependent Diffusivity of Small and Large Molecules in Meniscus20
Eyelid Motion Tracking During Blinking Using High-Speed Imaging and Digital Image Correlation19
Topology Optimization Driven Bone-Remodeling Simulation for Lumbar Interbody Fusion18
Residual Stresses in Surgical Growing Rods17
State of the Art in Radiostereometric Analysis for Tibial Baseplate Migration and Future Research Directions17
A Novel Device for the Quantification of Synovial Fluid Viscosity Via Magnetic Deflection17
Simulating the Growth of TATA-Box Binding Protein-Associated Factor 15 Inclusions in Neuron Soma16
A Computational Framework for Atrioventricular Valve Modeling Using Open-Source Software16
Enhancing the Biofidelity of an Upper Cervical Spine Finite Element Model Within the Physiologic Range of Motion and Its Effect on the Full Ligamentous Neck Model Response16
A Novel Gait Event Detection Algorithm Using a Thigh-Worn Inertial Measurement Unit and Joint Angle Information16
The Influence of Headform Pose on the Blunt Impact Performance of American Football Helmets16
Experimental Assessment of the Hip Trajectory Error Framework for Designing Prosthetic Feet for Above-Knee Amputees During Walking15
Experiments and Simulations to Assess Exercise-Induced Pressure Drop Across Aortic Coarctations15
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