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Discrepancies in anthropometric parameters between different models affect intervertebral rotations when loading finite element models with muscle forces from inverse static analyses

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Deutscher übersetzter Titel:Abweichungen in anthropometrischen Parametern zwischen verschiedenen Modellen beeinflussen Rotationen zwischen Wirbelkörpern wenn man Finite-Elemente-Modelle mit Muskelkräften aus inversen statischen Analysen lädt
Autor:Zhu, Rui; Rohlmann, Antonius
Erschienen in:Biomedizinische Technik
Veröffentlicht:59 (2014), 3, S. 197–202, Lit.
Format: Literatur (SPOLIT)
Publikationstyp: Zeitschriftenartikel
Medienart: Elektronische Ressource (online) Gedruckte Ressource
Sprache:Englisch
ISSN:0013-5585, 1862-278X
DOI:10.1515/bmt-2013-0121
Schlagworte:
Anthropometrie
Beeinflussung
Biomechanik
Lendenwirbelsäule
MiSpEx
Modell, biomechanisches
Modell, mathematisches
Muskelkraft
Rotation
Rücken
Rückenschmerz
Sportmedizin
Wirbelkörper
Wirbelsäule
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Erfassungsnummer:PU201503002429
Quelle:BISp
TY  - JOUR
AU  - Zhu, Rui
A2  - Zhu, Rui
A2  - Rohlmann, Antonius
DB  - BISp
DP  - BISp
KW  - Anthropometrie
KW  - Beeinflussung
KW  - Biomechanik
KW  - Lendenwirbelsäule
KW  - MiSpEx
KW  - Modell, biomechanisches
KW  - Modell, mathematisches
KW  - Muskelkraft
KW  - Rotation
KW  - Rücken
KW  - Rückenschmerz
KW  - Sportmedizin
KW  - Wirbelkörper
KW  - Wirbelsäule
LA  - eng
TI  - Discrepancies in anthropometric parameters between different models affect intervertebral rotations when loading finite element models with muscle forces from inverse static analyses
TT  - Abweichungen in anthropometrischen Parametern zwischen verschiedenen Modellen beeinflussen Rotationen zwischen Wirbelkörpern wenn man Finite-Elemente-Modelle mit Muskelkräften aus inversen statischen Analysen lädt
PY  - 2014
N2  - In only a few published finite element (FE) simulations have muscle forces been applied to the spine. Recently, muscle forces determined using an inverse static (IS) model of the spine were transferred to a spinal FE model, and the effect of methodical parameters was investigated. However, the sensitivity of anthropometric differences between FE and IS models, such as body height and spinal orientation, was not considered. The aim of this sensitivity study was to determine the influence of those differences on the intervertebral rotations (IVRs) following the transfer of muscle forces from an IS model to a FE model. Muscle forces were estimated for 20° flexion and 10° extension of the upper body using an inverse static musculoskeletal model. These forces were subsequently transferred to a nonlinear FE model of the spino-pelvic complex, which includes 243 muscle fascicles. Deviations of body height (±10 cm), spinal orientation in the sagittal plane (±10°), and body weight (±10 kg) between both models were intentionally generated, and their influences on IVRs were determined. The changes in each factor relative to their corresponding reference value of the IS model were calculated. Deviations in body height, spinal orientation, and body weight resulted in maximum changes in the IVR of 19.2%, 26% and 4.2%, respectively, relative to T12-S1 IVR. When transferring muscle forces from an IS to a FE model, it is crucial that both models have the same spinal orientation and height. Additionally, the body weight should be equal in both models. Verf.-Referat
L2  - https://dx.doi.org/10.1515/bmt-2013-0121
DO  - 10.1515/bmt-2013-0121
SP  - S. 197–202
SN  - 0013-5585
JO  - Biomedizinische Technik
IS  - 3
VL  - 59
M3  - Elektronische Ressource (online)
M3  - Gedruckte Ressource
ID  - PU201503002429
ER  -

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