Musculoskeletal modeling of scoliosis patients with acceptable kinematic accuracy

Hamed Shayestehpour; Mohammad Amin  Shayestehpour; Christos  Koutras; Christian Nai En Tierp-Wong; John Rasmussen

Musculoskeletal modeling of scoliosis patients with acceptable kinematic accuracy

Hamed Shayestehpour, Mohammad Amin Shayestehpour, Christos Koutras, Christian Nai En Tierp-Wong, John Rasmussen

Publikation: Konferencebidrag uden forlag/tidsskrift › Konferenceabstrakt til konference › Forskning

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Abstract

An anatomically valid musculoskeletal model might contribute to uncovering the biomechanical cause. We previously developed and validated a spine model capable of simulating scoliosis deformities, with joint definition compatible with anatomical joint properties. Further, we improved the muscle anatomy of the ribcage and the ribcage-scapula contact model.
In this study, we developed a semi-automated process to simulate scoliosis patients using all visible geometrical parameters retrieved from bi-planar radiographs, which improves the kinematics and, thus, the kinetic model.

Originalsprog	Engelsk
Publikationsdato	12 nov. 2021
Antal sider	1
Status	Udgivet - 12 nov. 2021
Begivenhed	13th Annual Meeting of the Danish Society of Biomechanics - Technical University of Denmark, Kgs. Lyngby, Danmark Varighed: 12 nov. 2021 → 12 nov. 2021 https://www.danskbiomekaniskselskab.dk/kopi-af-om-dbs

Konference

Konference	13th Annual Meeting of the Danish Society of Biomechanics
Lokation	Technical University of Denmark
Land/Område	Danmark
By	Kgs. Lyngby
Periode	12/11/2021 → 12/11/2021
Internetadresse	https://www.danskbiomekaniskselskab.dk/kopi-af-om-dbs

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Hamed Shayestehpour DBS_2021Forlagets udgivne version, 419 KBLicens: Ikke-specificeret

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Citationsformater

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title = "Musculoskeletal modeling of scoliosis patients with acceptable kinematic accuracy",

abstract = "An anatomically valid musculoskeletal model might contribute to uncovering the biomechanical cause. We previously developed and validated a spine model capable of simulating scoliosis deformities, with joint definition compatible with anatomical joint properties. Further, we improved the muscle anatomy of the ribcage and the ribcage-scapula contact model.In this study, we developed a semi-automated process to simulate scoliosis patients using all visible geometrical parameters retrieved from bi-planar radiographs, which improves the kinematics and, thus, the kinetic model.",

keywords = "Musculoskeletal Modeling, Scoliosis, Kinematics, Radiographs, Aetiology",

author = "Hamed Shayestehpour and Shayestehpour, {Mohammad Amin} and Christos Koutras and Tierp-Wong, {Christian Nai En} and John Rasmussen",

year = "2021",

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day = "12",

language = "English",

pages = "4",

note = "13th Annual Meeting of the Danish Society of Biomechanics ; Conference date: 12-11-2021 Through 12-11-2021",

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TY - ABST

T1 - Musculoskeletal modeling of scoliosis patients with acceptable kinematic accuracy

AU - Shayestehpour, Hamed

AU - Shayestehpour, Mohammad Amin

AU - Koutras, Christos

AU - Tierp-Wong, Christian Nai En

AU - Rasmussen, John

PY - 2021/11/12

Y1 - 2021/11/12

N2 - An anatomically valid musculoskeletal model might contribute to uncovering the biomechanical cause. We previously developed and validated a spine model capable of simulating scoliosis deformities, with joint definition compatible with anatomical joint properties. Further, we improved the muscle anatomy of the ribcage and the ribcage-scapula contact model.In this study, we developed a semi-automated process to simulate scoliosis patients using all visible geometrical parameters retrieved from bi-planar radiographs, which improves the kinematics and, thus, the kinetic model.

AB - An anatomically valid musculoskeletal model might contribute to uncovering the biomechanical cause. We previously developed and validated a spine model capable of simulating scoliosis deformities, with joint definition compatible with anatomical joint properties. Further, we improved the muscle anatomy of the ribcage and the ribcage-scapula contact model.In this study, we developed a semi-automated process to simulate scoliosis patients using all visible geometrical parameters retrieved from bi-planar radiographs, which improves the kinematics and, thus, the kinetic model.

KW - Musculoskeletal Modeling

KW - Scoliosis

KW - Kinematics

KW - Radiographs

KW - Aetiology

M3 - Conference abstract for conference

SP - 4

T2 - 13th Annual Meeting of the Danish Society of Biomechanics

Y2 - 12 November 2021 through 12 November 2021

ER -

Musculoskeletal modeling of scoliosis patients with acceptable kinematic accuracy

Abstract

Konference

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AUB Link

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Citationsformater