Effect of Fatigue Load on Internal Mechanical Properties of the Intervertebral Disc

Effect of Fatigue Load on Internal Mechanical Properties of the Intervertebral Disc

SUMMARY: Lumbar disc herniation is considered to be the main pathological factor for the common clinical disease of low back pain. Biomechanical factor is an important cause of lumbar disc herniation, so it is urgent to analyze the stress/strain behavior of intervertebral disc under different loading condition. Slow repetitive loading is considered to be an important factor of spine and disc injuries, and the effect of fatigue load on internal displacement in the intervertebral disc was investigated by applying the optimized digital image correlation technique in this study. The first finding was that fatigue load had a significant effect on the displacement distribution in the intervertebral disc under compression. Superficial AF exhibited the largest axial displacements before fatigue load, while it exhibited the smallest axial displacements after fatigue load. Inner AF exhibited slightly smaller radial displacements than outer AF before fatigue load, while it exhibited significantly greater radial displacements than outer AF displacements after fatigue load. The second finding was that fatigue load had a certain effect on the internal displacement distribution in the flexed intervertebral disc under compression. Middle AF exhibited the smallest axial displacements before fatigue load, while deep AF exhibited the smallest axial displacements after fatigue load. The radial displacement distribution did not change before and after fatigue load, as the radial displacement in outer AF was the smallest, while the radial displacement in inner AF was the largest. The third finding was that with the increase in fatigue time and amplitude, the Young's modulus of the intervertebral disc increased significantly. This study can provide the basis for clinical intervertebral disc disease prevention and treatment? and is important for mechanical function evaluation of artificial intervertebral disc as well.

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Main Authors: Liu,Qing, Liu,Bing, Zhang,Kun-Peng, Zhang,Tao, Zhang,Chun-Qiu, Li,Kun, Sun,Yan-Fang
Format: Digital revista
Language:English
Published: Sociedad Chilena de Anatomía 2020
Online Access:http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0717-95022020000601597
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spelling oai:scielo:S0717-950220200006015972020-10-30Effect of Fatigue Load on Internal Mechanical Properties of the Intervertebral DiscLiu,QingLiu,BingZhang,Kun-PengZhang,TaoZhang,Chun-QiuLi,KunSun,Yan-Fang Lumbar disc herniation Fatigue Forward flexion Internal displacement Optimized DIC technique SUMMARY: Lumbar disc herniation is considered to be the main pathological factor for the common clinical disease of low back pain. Biomechanical factor is an important cause of lumbar disc herniation, so it is urgent to analyze the stress/strain behavior of intervertebral disc under different loading condition. Slow repetitive loading is considered to be an important factor of spine and disc injuries, and the effect of fatigue load on internal displacement in the intervertebral disc was investigated by applying the optimized digital image correlation technique in this study. The first finding was that fatigue load had a significant effect on the displacement distribution in the intervertebral disc under compression. Superficial AF exhibited the largest axial displacements before fatigue load, while it exhibited the smallest axial displacements after fatigue load. Inner AF exhibited slightly smaller radial displacements than outer AF before fatigue load, while it exhibited significantly greater radial displacements than outer AF displacements after fatigue load. The second finding was that fatigue load had a certain effect on the internal displacement distribution in the flexed intervertebral disc under compression. Middle AF exhibited the smallest axial displacements before fatigue load, while deep AF exhibited the smallest axial displacements after fatigue load. The radial displacement distribution did not change before and after fatigue load, as the radial displacement in outer AF was the smallest, while the radial displacement in inner AF was the largest. The third finding was that with the increase in fatigue time and amplitude, the Young's modulus of the intervertebral disc increased significantly. This study can provide the basis for clinical intervertebral disc disease prevention and treatment? and is important for mechanical function evaluation of artificial intervertebral disc as well.info:eu-repo/semantics/openAccessSociedad Chilena de AnatomíaInternational Journal of Morphology v.38 n.6 20202020-12-01text/htmlhttp://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0717-95022020000601597en10.4067/S0717-95022020000601597
institution SCIELO
collection OJS
country Chile
countrycode CL
component Revista
access En linea
databasecode rev-scielo-cl
tag revista
region America del Sur
libraryname SciELO
language English
format Digital
author Liu,Qing
Liu,Bing
Zhang,Kun-Peng
Zhang,Tao
Zhang,Chun-Qiu
Li,Kun
Sun,Yan-Fang
spellingShingle Liu,Qing
Liu,Bing
Zhang,Kun-Peng
Zhang,Tao
Zhang,Chun-Qiu
Li,Kun
Sun,Yan-Fang
Effect of Fatigue Load on Internal Mechanical Properties of the Intervertebral Disc
author_facet Liu,Qing
Liu,Bing
Zhang,Kun-Peng
Zhang,Tao
Zhang,Chun-Qiu
Li,Kun
Sun,Yan-Fang
author_sort Liu,Qing
title Effect of Fatigue Load on Internal Mechanical Properties of the Intervertebral Disc
title_short Effect of Fatigue Load on Internal Mechanical Properties of the Intervertebral Disc
title_full Effect of Fatigue Load on Internal Mechanical Properties of the Intervertebral Disc
title_fullStr Effect of Fatigue Load on Internal Mechanical Properties of the Intervertebral Disc
title_full_unstemmed Effect of Fatigue Load on Internal Mechanical Properties of the Intervertebral Disc
title_sort effect of fatigue load on internal mechanical properties of the intervertebral disc
description SUMMARY: Lumbar disc herniation is considered to be the main pathological factor for the common clinical disease of low back pain. Biomechanical factor is an important cause of lumbar disc herniation, so it is urgent to analyze the stress/strain behavior of intervertebral disc under different loading condition. Slow repetitive loading is considered to be an important factor of spine and disc injuries, and the effect of fatigue load on internal displacement in the intervertebral disc was investigated by applying the optimized digital image correlation technique in this study. The first finding was that fatigue load had a significant effect on the displacement distribution in the intervertebral disc under compression. Superficial AF exhibited the largest axial displacements before fatigue load, while it exhibited the smallest axial displacements after fatigue load. Inner AF exhibited slightly smaller radial displacements than outer AF before fatigue load, while it exhibited significantly greater radial displacements than outer AF displacements after fatigue load. The second finding was that fatigue load had a certain effect on the internal displacement distribution in the flexed intervertebral disc under compression. Middle AF exhibited the smallest axial displacements before fatigue load, while deep AF exhibited the smallest axial displacements after fatigue load. The radial displacement distribution did not change before and after fatigue load, as the radial displacement in outer AF was the smallest, while the radial displacement in inner AF was the largest. The third finding was that with the increase in fatigue time and amplitude, the Young's modulus of the intervertebral disc increased significantly. This study can provide the basis for clinical intervertebral disc disease prevention and treatment? and is important for mechanical function evaluation of artificial intervertebral disc as well.
publisher Sociedad Chilena de Anatomía
publishDate 2020
url http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0717-95022020000601597
work_keys_str_mv AT liuqing effectoffatigueloadoninternalmechanicalpropertiesoftheintervertebraldisc
AT liubing effectoffatigueloadoninternalmechanicalpropertiesoftheintervertebraldisc
AT zhangkunpeng effectoffatigueloadoninternalmechanicalpropertiesoftheintervertebraldisc
AT zhangtao effectoffatigueloadoninternalmechanicalpropertiesoftheintervertebraldisc
AT zhangchunqiu effectoffatigueloadoninternalmechanicalpropertiesoftheintervertebraldisc
AT likun effectoffatigueloadoninternalmechanicalpropertiesoftheintervertebraldisc
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