Theoretical Explorations Generate New Hypotheses About the Role of the Cartilage Endplate in Early Intervertebral Disk Degeneration

Theoretical Explorations Generate New Hypotheses About the Role of the Cartilage Endplate in Early Intervertebral Disk Degeneration

Altered cell nutrition in the intervertebral disk (IVD) is considered a main cause for disk degeneration (DD). The cartilage endplate (CEP) provides a major path for the diffusion of nutrients from the peripheral vasculature to the IVD nucleus pulposus (NP). In DD, sclerosis of the adjacent bony end...

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Main Authors: Carlos Ruiz Wills, Baptiste Foata, Miguel Á. González Ballester, Jaro Karppinen, Jérôme Noailly
Format: Article
Language:English
Published: Frontiers Media S.A. 2018-09-01
Series:Frontiers in Physiology
Subjects:
intervertebral disk degeneration
cartilage endplates
composition-dependent tissue permeability
finite elements simulations
disc cell nutrition
indirect mechanotransduction
Online Access:https://www.frontiersin.org/article/10.3389/fphys.2018.01210/full
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spelling doaj-daea6fcaa0ff4ba288b59d729ac94a822020-11-25T00:13:15ZengFrontiers Media S.A.Frontiers in Physiology1664-042X2018-09-01910.3389/fphys.2018.01210347212Theoretical Explorations Generate New Hypotheses About the Role of the Cartilage Endplate in Early Intervertebral Disk DegenerationCarlos Ruiz Wills0Carlos Ruiz Wills1Baptiste Foata2Miguel Á. González Ballester3Miguel Á. González Ballester4Jaro Karppinen5Jaro Karppinen6Jaro Karppinen7Jérôme Noailly8Jérôme Noailly9BCN MedTech, Department of Information and Communication Technologies, Universitat Pompeu Fabra (UPF), Barcelona, SpainInstitute for Bioengineering of Catalonia (IBEC), Barcelona, SpainInstitute for Bioengineering of Catalonia (IBEC), Barcelona, SpainBCN MedTech, Department of Information and Communication Technologies, Universitat Pompeu Fabra (UPF), Barcelona, SpainCatalan Institution for Research and Advanced Studies (ICREA), Barcelona, SpainMedical Research Center Oulu, Oulu University Hospital and University of Oulu, Oulu, FinlandCenter for Life Course Health Research, Oulu University Hospital, Oulu, FinlandFinnish Institute of Occupational Health, Oulu, FinlandBCN MedTech, Department of Information and Communication Technologies, Universitat Pompeu Fabra (UPF), Barcelona, SpainInstitute for Bioengineering of Catalonia (IBEC), Barcelona, SpainAltered cell nutrition in the intervertebral disk (IVD) is considered a main cause for disk degeneration (DD). The cartilage endplate (CEP) provides a major path for the diffusion of nutrients from the peripheral vasculature to the IVD nucleus pulposus (NP). In DD, sclerosis of the adjacent bony endplate is suggested to be responsible for decreased diffusion and disk cell nutrition. Yet, experimental evidence does not support this hypothesis. Hence, we evaluated how moderate CEP composition changes related to tissue degeneration can affect disk nutrition and cell viability. A novel composition-based permeability formulation was developed for the CEP, calibrated, validated, and used in a mechano-transport finite element IVD model. Fixed solute concentrations were applied at the outer surface of the annulus and the CEP, and three cycles of daily mechanical load were simulated. The CEP model indicated that CEP permeability increases with the degeneration/aging of the tissue, in accordance with recent measurements reported in the literature. Additionally, our results showed that CEP degeneration might be responsible for mechanical load-induced NP dehydration, which locally affects oxygen and lactate levels, and reduced glucose concentration by 16% in the NP-annulus transition zone. Remarkably, CEP degeneration was a condition sine-qua-non to provoke cell starvation and death, while simulating the effect of extracellular matrix depletion in DD. This theoretical study cast doubts about the paradigm that CEP calcification is needed to provoke cell starvation, and suggests an alternative path for DD whereby the early degradation of the CEP plays a key role.https://www.frontiersin.org/article/10.3389/fphys.2018.01210/fullintervertebral disk degenerationcartilage endplatescomposition-dependent tissue permeabilityfinite elements simulationsdisc cell nutritionindirect mechanotransduction
collection DOAJ
language English
format Article
sources DOAJ
author Carlos Ruiz Wills
Carlos Ruiz Wills
Baptiste Foata
Miguel Á. González Ballester
Miguel Á. González Ballester
Jaro Karppinen
Jaro Karppinen
Jaro Karppinen
Jérôme Noailly
Jérôme Noailly
spellingShingle Carlos Ruiz Wills
Carlos Ruiz Wills
Baptiste Foata
Miguel Á. González Ballester
Miguel Á. González Ballester
Jaro Karppinen
Jaro Karppinen
Jaro Karppinen
Jérôme Noailly
Jérôme Noailly
Theoretical Explorations Generate New Hypotheses About the Role of the Cartilage Endplate in Early Intervertebral Disk Degeneration
Frontiers in Physiology
intervertebral disk degeneration
cartilage endplates
composition-dependent tissue permeability
finite elements simulations
disc cell nutrition
indirect mechanotransduction
author_facet Carlos Ruiz Wills
Carlos Ruiz Wills
Baptiste Foata
Miguel Á. González Ballester
Miguel Á. González Ballester
Jaro Karppinen
Jaro Karppinen
Jaro Karppinen
Jérôme Noailly
Jérôme Noailly
author_sort Carlos Ruiz Wills
title Theoretical Explorations Generate New Hypotheses About the Role of the Cartilage Endplate in Early Intervertebral Disk Degeneration
title_short Theoretical Explorations Generate New Hypotheses About the Role of the Cartilage Endplate in Early Intervertebral Disk Degeneration
title_full Theoretical Explorations Generate New Hypotheses About the Role of the Cartilage Endplate in Early Intervertebral Disk Degeneration
title_fullStr Theoretical Explorations Generate New Hypotheses About the Role of the Cartilage Endplate in Early Intervertebral Disk Degeneration
title_full_unstemmed Theoretical Explorations Generate New Hypotheses About the Role of the Cartilage Endplate in Early Intervertebral Disk Degeneration
title_sort theoretical explorations generate new hypotheses about the role of the cartilage endplate in early intervertebral disk degeneration
publisher Frontiers Media S.A.
series Frontiers in Physiology
issn 1664-042X
publishDate 2018-09-01
description Altered cell nutrition in the intervertebral disk (IVD) is considered a main cause for disk degeneration (DD). The cartilage endplate (CEP) provides a major path for the diffusion of nutrients from the peripheral vasculature to the IVD nucleus pulposus (NP). In DD, sclerosis of the adjacent bony endplate is suggested to be responsible for decreased diffusion and disk cell nutrition. Yet, experimental evidence does not support this hypothesis. Hence, we evaluated how moderate CEP composition changes related to tissue degeneration can affect disk nutrition and cell viability. A novel composition-based permeability formulation was developed for the CEP, calibrated, validated, and used in a mechano-transport finite element IVD model. Fixed solute concentrations were applied at the outer surface of the annulus and the CEP, and three cycles of daily mechanical load were simulated. The CEP model indicated that CEP permeability increases with the degeneration/aging of the tissue, in accordance with recent measurements reported in the literature. Additionally, our results showed that CEP degeneration might be responsible for mechanical load-induced NP dehydration, which locally affects oxygen and lactate levels, and reduced glucose concentration by 16% in the NP-annulus transition zone. Remarkably, CEP degeneration was a condition sine-qua-non to provoke cell starvation and death, while simulating the effect of extracellular matrix depletion in DD. This theoretical study cast doubts about the paradigm that CEP calcification is needed to provoke cell starvation, and suggests an alternative path for DD whereby the early degradation of the CEP plays a key role.
topic intervertebral disk degeneration
cartilage endplates
composition-dependent tissue permeability
finite elements simulations
disc cell nutrition
indirect mechanotransduction
url https://www.frontiersin.org/article/10.3389/fphys.2018.01210/full
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