Multibody models of the thoracolumbar spine: a review on applications, limitations, and challenges
T Lerchl, K Nispel, T Baum, J Bodden, V Senner… - Bioengineering, 2023 - mdpi.com
Numerical models of the musculoskeletal system as investigative tools are an integral part of
biomechanical and clinical research. While finite element modeling is primarily suitable for …
biomechanical and clinical research. While finite element modeling is primarily suitable for …
Yeditepe spine mesh: Finite element modeling and validation of a parametric CAD model of lumbar spine
O Guldeniz, OB Yesil, F Okyar - Medical Engineering & Physics, 2022 - Elsevier
Finite element analysis is a powerful tool that is often used to study the biomechanical
response of the spine. The primary objective of this study was to illustrate the mechanical …
response of the spine. The primary objective of this study was to illustrate the mechanical …
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 …
[HTML][HTML] A study of the sensitivity of biomechanical models of the spine for scoliosis brace design
Abstract Background and Objective: The development of biomechanical models of the torso
and the spine opens the door to computational solutions for the design of braces for …
and the spine opens the door to computational solutions for the design of braces for …
Biomechanics of the tether breakage: tensile behaviour of a single-unit vertebral body tethering construct
O Guldeniz, CCH Yip, W Nafo, KMC Cheung - Spine Deformity, 2023 - Springer
Purpose Tether breakage was reported as the most common complication of vertebral body
tethering. However, as the literature suggests the physiological loads do not have the …
tethering. However, as the literature suggests the physiological loads do not have the …
[HTML][HTML] Muscle-driven forward dynamic active hybrid model of the lumbosacral spine: combined FEM and multibody simulation
R Remus, S Selkmann, A Lipphaus… - Frontiers in …, 2023 - ncbi.nlm.nih.gov
Most spine models belong to either the musculoskeletal multibody (MB) or finite element
(FE) method. Recently, coupling of MB and FE models has increasingly been used to …
(FE) method. Recently, coupling of MB and FE models has increasingly been used to …
[PDF][PDF] Multibody Models of the Thoracolumbar Spine: A Review on Applications, Limitations, and Challenges. Bioengineering 2023, 10, 202
T Lerchl, K Nispel, T Baum, J Bodden, V Senner… - 2023 - academia.edu
Numerical models of the musculoskeletal system as investigative tools are an integral part of
biomechanical and clinical research. While finite element modeling is primarily suitable for …
biomechanical and clinical research. While finite element modeling is primarily suitable for …
Neuro-musculoskeletal modelling of the thoracolumbar spine–Assessment of spinal flexion motion and the role of load-bearing structures
L Meszaros-Beller - 2023 - eprints.qut.edu.au
The aim of this thesis was to describe the complex biomechanical behaviour of the human
spine under flexion-extension movements using the forward-dynamics and inverse …
spine under flexion-extension movements using the forward-dynamics and inverse …
Multiscale Modeling of the Lumbar Spine to Investigate Tissue-Level Load Transfer During Activities of Daily Living
JD Honegger - 2020 - search.proquest.com
The prevalence of low back pain (LBP) in certain subpopulations who experience more
extreme repetitive spine kinematics is often attributed to biomechanical factors. Repetitive …
extreme repetitive spine kinematics is often attributed to biomechanical factors. Repetitive …