Digital Image Correlation (DIC) Assessment of the Non-Linear Response of the Anterior Longitudinal Ligament of the Spine during Flexion and Extension

Digital Image Correlation (DIC) Assessment of the Non-Linear Response of the Anterior Longitudinal Ligament of the Spine during Flexion and Extension

While the non-linear behavior of spine segments has been extensively investigated in the past, the behavior of the Anterior Longitudinal Ligament (ALL) and its contribution during flexion and extension has never been studied considering the spine as a whole. The aims of the present study were to exp...

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Main Authors: Maria Luisa Ruspi, Marco Palanca, Luca Cristofolini, Christian Liebsch, Tomaso Villa, Marco Brayda-Bruno, Fabio Galbusera, Hans-Joachim Wilke, Luigi La Barbera
Format: Article
Language:English
Published: MDPI AG 2020-01-01
Series:Materials
Subjects:
spine biomechanics
anterior longitudinal ligament (all)
digital image correlation (dic)
in vitro testing
non-linear material properties
Online Access:https://www.mdpi.com/1996-1944/13/2/384
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spelling doaj-8b4dbeb0758f4d889852c68a300466982020-11-25T02:05:54ZengMDPI AGMaterials1996-19442020-01-0113238410.3390/ma13020384ma13020384Digital Image Correlation (DIC) Assessment of the Non-Linear Response of the Anterior Longitudinal Ligament of the Spine during Flexion and ExtensionMaria Luisa Ruspi0Marco Palanca1Luca Cristofolini2Christian Liebsch3Tomaso Villa4Marco Brayda-Bruno5Fabio Galbusera6Hans-Joachim Wilke7Luigi La Barbera8Department of Industrial Engineering, School of Engineering and Architecture, Alma Mater Studiorum—Università di Bologna, I-40131 Bologna, ItalyDepartment of Industrial Engineering, School of Engineering and Architecture, Alma Mater Studiorum—Università di Bologna, I-40131 Bologna, ItalyDepartment of Industrial Engineering, School of Engineering and Architecture, Alma Mater Studiorum—Università di Bologna, I-40131 Bologna, ItalyInstitute of Orthopaedic Research and Biomechanics, Trauma Research Center Ulm (ZTF), University Hospital Ulm, D-89081 Ulm, GermanyLaboratory of Biological Structure Mechanics, Department of Chemistry, Materials and Chemical Engineering “G. Natta”, Politecnico di Milano, I-20133 Milan, ItalyDepartment of Spine Surgery III, IRCCS Istituto Ortopedico Galeazzi, I-20161 Milan, ItalyIRCCS Istituto Ortopedico Galeazzi, I-20161 Milan, ItalyInstitute of Orthopaedic Research and Biomechanics, Trauma Research Center Ulm (ZTF), University Hospital Ulm, D-89081 Ulm, GermanyLaboratory of Biological Structure Mechanics, Department of Chemistry, Materials and Chemical Engineering “G. Natta”, Politecnico di Milano, I-20133 Milan, ItalyWhile the non-linear behavior of spine segments has been extensively investigated in the past, the behavior of the Anterior Longitudinal Ligament (ALL) and its contribution during flexion and extension has never been studied considering the spine as a whole. The aims of the present study were to exploit Digital Image Correlation (DIC) to: (I) characterize the strain distribution on the ALL during flexion-extension, (II) compare the strain on specific regions of interest (ROI) of the ALL in front of the vertebra and of the intervertebral disc, (III) analyze the non-linear relationship between the surface strain and the imposed rotation and the resultant moment. Three specimens consisting of 6 functional spinal units (FSUs) were tested in flexion-extension. The full-field strain maps were measured on the surface of the ALL, and the most strained areas were investigated in detail. The DIC-measured strains showed different values of peak strain in correspondence with the vertebra and the disc but the average over the ROIs was of the same order of magnitude. The strain-moment curves showed a non-linear response like the moment-angle curves: in flexion the slope of the strain-moment curve was greater than in extension and with a more abrupt change of slope. To the authors’ knowledge, this is the first study addressing, by means of a full-field strain measurement, the non-linear contribution of the ALL to spine biomechanics. This study was limited to only three specimens; hence the results must be taken with caution. This information could be used in the future to build more realistic numerical models of the spine.https://www.mdpi.com/1996-1944/13/2/384spine biomechanicsanterior longitudinal ligament (all)digital image correlation (dic)in vitro testingnon-linear material properties
collection DOAJ
language English
format Article
sources DOAJ
author Maria Luisa Ruspi
Marco Palanca
Luca Cristofolini
Christian Liebsch
Tomaso Villa
Marco Brayda-Bruno
Fabio Galbusera
Hans-Joachim Wilke
Luigi La Barbera
spellingShingle Maria Luisa Ruspi
Marco Palanca
Luca Cristofolini
Christian Liebsch
Tomaso Villa
Marco Brayda-Bruno
Fabio Galbusera
Hans-Joachim Wilke
Luigi La Barbera
Digital Image Correlation (DIC) Assessment of the Non-Linear Response of the Anterior Longitudinal Ligament of the Spine during Flexion and Extension
Materials
spine biomechanics
anterior longitudinal ligament (all)
digital image correlation (dic)
in vitro testing
non-linear material properties
author_facet Maria Luisa Ruspi
Marco Palanca
Luca Cristofolini
Christian Liebsch
Tomaso Villa
Marco Brayda-Bruno
Fabio Galbusera
Hans-Joachim Wilke
Luigi La Barbera
author_sort Maria Luisa Ruspi
title Digital Image Correlation (DIC) Assessment of the Non-Linear Response of the Anterior Longitudinal Ligament of the Spine during Flexion and Extension
title_short Digital Image Correlation (DIC) Assessment of the Non-Linear Response of the Anterior Longitudinal Ligament of the Spine during Flexion and Extension
title_full Digital Image Correlation (DIC) Assessment of the Non-Linear Response of the Anterior Longitudinal Ligament of the Spine during Flexion and Extension
title_fullStr Digital Image Correlation (DIC) Assessment of the Non-Linear Response of the Anterior Longitudinal Ligament of the Spine during Flexion and Extension
title_full_unstemmed Digital Image Correlation (DIC) Assessment of the Non-Linear Response of the Anterior Longitudinal Ligament of the Spine during Flexion and Extension
title_sort digital image correlation (dic) assessment of the non-linear response of the anterior longitudinal ligament of the spine during flexion and extension
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2020-01-01
description While the non-linear behavior of spine segments has been extensively investigated in the past, the behavior of the Anterior Longitudinal Ligament (ALL) and its contribution during flexion and extension has never been studied considering the spine as a whole. The aims of the present study were to exploit Digital Image Correlation (DIC) to: (I) characterize the strain distribution on the ALL during flexion-extension, (II) compare the strain on specific regions of interest (ROI) of the ALL in front of the vertebra and of the intervertebral disc, (III) analyze the non-linear relationship between the surface strain and the imposed rotation and the resultant moment. Three specimens consisting of 6 functional spinal units (FSUs) were tested in flexion-extension. The full-field strain maps were measured on the surface of the ALL, and the most strained areas were investigated in detail. The DIC-measured strains showed different values of peak strain in correspondence with the vertebra and the disc but the average over the ROIs was of the same order of magnitude. The strain-moment curves showed a non-linear response like the moment-angle curves: in flexion the slope of the strain-moment curve was greater than in extension and with a more abrupt change of slope. To the authors’ knowledge, this is the first study addressing, by means of a full-field strain measurement, the non-linear contribution of the ALL to spine biomechanics. This study was limited to only three specimens; hence the results must be taken with caution. This information could be used in the future to build more realistic numerical models of the spine.
topic spine biomechanics
anterior longitudinal ligament (all)
digital image correlation (dic)
in vitro testing
non-linear material properties
url https://www.mdpi.com/1996-1944/13/2/384
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