Multitechnology biofabrication: a new approach for the manufacturing of functional tissue structures?
Most available 3D biofabrication technologies rely on single-component deposition
methods, such as inkjet, extrusion, or light-assisted printing. It is unlikely that any of these …
methods, such as inkjet, extrusion, or light-assisted printing. It is unlikely that any of these …
Overview of methods and software for the design of functionally graded lattice structures
Lattice structures are known for their superior performance in weight reduction, stiffness, and
increased manufacturability, but when materials need to be adaptive, multifunctional, and …
increased manufacturability, but when materials need to be adaptive, multifunctional, and …
Automated generation of three-dimensional complex muscle geometries for use in personalised musculoskeletal models
L Modenese, J Kohout - Annals of Biomedical Engineering, 2020 - Springer
The geometrical representation of muscles in computational models of the musculoskeletal
system typically consists of a series of line segments. These muscle anatomies are based on …
system typically consists of a series of line segments. These muscle anatomies are based on …
An open-source musculoskeletal model of the lumbar spine and lower limbs: a validation for movements of the lumbar spine
CD Favier, ME Finnegan, RA Quest… - Computer Methods in …, 2021 - Taylor & Francis
Musculoskeletal models of the lumbar spine have been developed with varying levels of
detail for a wide range of clinical applications. Providing consistency is ensured throughout …
detail for a wide range of clinical applications. Providing consistency is ensured throughout …
Hill-type computational models of muscle-tendon actuators: a systematic review
Backed by a century of research and development, Hill-type muscle-tendon models are
extensively used for countless applications. Lacking recent reviews, the field of Hill-type …
extensively used for countless applications. Lacking recent reviews, the field of Hill-type …
The biomechanical effects of different bag‐carrying styles on lumbar spine and paraspinal muscles: a combined musculoskeletal and finite element study
Objectives Bags such as handbags, shoulder bags, and backpacks are commonly used.
However, it is difficult to assess the biomechanical effects of bag‐carrying styles on the …
However, it is difficult to assess the biomechanical effects of bag‐carrying styles on the …
Bioinspired technologies to connect musculoskeletal mechanobiology to the person for training and rehabilitation
Musculoskeletal tissues respond to optimal mechanical signals (eg, strains) through
anabolic adaptations, while mechanical signals above and below optimal levels cause …
anabolic adaptations, while mechanical signals above and below optimal levels cause …
Implementation of controlling strategy in a biomechanical lower limb model with active muscles for coupling multibody dynamics and finite element analysis
Computational biomechanics for human body modeling has generally been categorized into
two separated domains: finite element analysis and multibody dynamics. Combining the …
two separated domains: finite element analysis and multibody dynamics. Combining the …
Development of a multiscale model of the human lumbar spine for investigation of tissue loads in people with and without a transtibial amputation during sit-to-stand
Quantification of lumbar spine load transfer is important for understanding low back pain,
especially among persons with a lower limb amputation. Computational modeling provides …
especially among persons with a lower limb amputation. Computational modeling provides …
Toward modeling locomotion using electromyography‐informed 3D models: application to cerebral palsy
This position paper proposes a modeling pipeline to develop clinically relevant
neuromusculoskeletal models to understand and treat complex neurological disorders …
neuromusculoskeletal models to understand and treat complex neurological disorders …