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Microstructure of early embryonic aortic arch and its reversibility following mechanically altered hemodynamic load release

Celik, Merve; Goktas, Selda; Karakaya, Cansu; Cakiroglu, Ayse Idil; Karahuseyinoglu, Sercin; Lashkarinia, S. Samaneh; Ermek, Erhan; Pekkan, Kerem


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  <identifier identifierType="URL">https://aperta.ulakbim.gov.tr/record/7557</identifier>
  <creators>
    <creator>
      <creatorName>Celik, Merve</creatorName>
      <givenName>Merve</givenName>
      <familyName>Celik</familyName>
      <affiliation>Koc Univ, Dept Mech Engn, Istanbul, Turkey</affiliation>
    </creator>
    <creator>
      <creatorName>Goktas, Selda</creatorName>
      <givenName>Selda</givenName>
      <familyName>Goktas</familyName>
      <affiliation>Koc Univ, Dept Mech Engn, Istanbul, Turkey</affiliation>
    </creator>
    <creator>
      <creatorName>Karakaya, Cansu</creatorName>
      <givenName>Cansu</givenName>
      <familyName>Karakaya</familyName>
      <affiliation>Koc Univ, Dept Mech Engn, Istanbul, Turkey</affiliation>
    </creator>
    <creator>
      <creatorName>Cakiroglu, Ayse Idil</creatorName>
      <givenName>Ayse Idil</givenName>
      <familyName>Cakiroglu</familyName>
      <affiliation>Koc Univ, Dept Mech Engn, Istanbul, Turkey</affiliation>
    </creator>
    <creator>
      <creatorName>Karahuseyinoglu, Sercin</creatorName>
      <givenName>Sercin</givenName>
      <familyName>Karahuseyinoglu</familyName>
      <affiliation>Koc Univ, Sch Med, Dept Histol &amp; Embryol, Istanbul, Turkey</affiliation>
    </creator>
    <creator>
      <creatorName>Lashkarinia, S. Samaneh</creatorName>
      <givenName>S. Samaneh</givenName>
      <familyName>Lashkarinia</familyName>
      <affiliation>Koc Univ, Dept Mech Engn, Istanbul, Turkey</affiliation>
    </creator>
    <creator>
      <creatorName>Ermek, Erhan</creatorName>
      <givenName>Erhan</givenName>
      <familyName>Ermek</familyName>
      <affiliation>Koc Univ, Dept Mech Engn, Istanbul, Turkey</affiliation>
    </creator>
    <creator>
      <creatorName>Pekkan, Kerem</creatorName>
      <givenName>Kerem</givenName>
      <familyName>Pekkan</familyName>
      <affiliation>Koc Univ, Dept Mech Engn, Istanbul, Turkey</affiliation>
    </creator>
  </creators>
  <titles>
    <title>Microstructure Of Early Embryonic Aortic Arch And Its Reversibility Following Mechanically Altered Hemodynamic Load Release</title>
  </titles>
  <publisher>Aperta</publisher>
  <publicationYear>2020</publicationYear>
  <dates>
    <date dateType="Issued">2020-01-01</date>
  </dates>
  <resourceType resourceTypeGeneral="Text">Journal article</resourceType>
  <alternateIdentifiers>
    <alternateIdentifier alternateIdentifierType="url">https://aperta.ulakbim.gov.tr/record/7557</alternateIdentifier>
  </alternateIdentifiers>
  <relatedIdentifiers>
    <relatedIdentifier relatedIdentifierType="DOI" relationType="IsIdenticalTo">10.1152/ajpheart.00495.2019</relatedIdentifier>
  </relatedIdentifiers>
  <rightsList>
    <rights rightsURI="http://www.opendefinition.org/licenses/cc-by">Creative Commons Attribution</rights>
    <rights rightsURI="info:eu-repo/semantics/openAccess">Open Access</rights>
  </rightsList>
  <descriptions>
    <description descriptionType="Abstract">In the embryonic heart, blood flow is distributed through a bilaterally paired artery system composed of the aortic arches (AAs). The purpose of this study is to establish an understanding of the governing mechanism of microstructural maturation of the AA matrix and its reversibility, toward the desired macroscopic vessel lumen diameter and thickness for healthy, abnormal, and in ovo repaired abnormal mechanical loading. While matrix-remodeling mechanisms were significantly different for normal versus conotruncal banding (CTB), both led to an increase in vessel lumen. Correlated with right-sided flow increase at Hamburger &amp;amp; Hamilton stages 21, intermittent load switching between collagen I and III with elastin and collagen-IV defines the normal process. However, decreases in collagen I. elastin, vascular endothelial growth factor-A, and fibrillin-1 in CTB were recovered almost fully following the CTB-release model, primarily because of the pressure load changes. The complex temporal changes in matrix proteins are illustrated through a predictive finite-element model based on elastin and collagen load-sharing mechanism to achieve lumen area increase and thickness increase resulting from wall shear stress and tissue strain, respectively. The effect of embryonic timing in cardiac interventions on AA microstructure was established where abnormal mechanical loading was selectively restored at the key stage of development. Recovery of the normal mechanical loading via early fetal intervention resulted in delayed microstructural maturation. Temporal elastin increase, correlated with wall shear stress, is required for continuous lumen area growth.</description>
  </descriptions>
</resource>
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