Physiologically Relevant Fluid-Induced Oscillatory Shear Stress Stimulation of Mesenchymal Stem Cells Enhances the Engineered Valve Matrix Phenotype Article

Gonzalez, Brittany A, Perez-Nevarez, Manuel, Mirza, Asad et al. (2020). Physiologically Relevant Fluid-Induced Oscillatory Shear Stress Stimulation of Mesenchymal Stem Cells Enhances the Engineered Valve Matrix Phenotype . FRONTIERS IN CARDIOVASCULAR MEDICINE, 7 10.3389/fcvm.2020.00069

Open Access

cited authors

  • Gonzalez, Brittany A; Perez-Nevarez, Manuel; Mirza, Asad; Perez, Marcos Gonzalez; Lin, Yih-Mei; Hsu, Chia-Pei Denise; Caobi, Allen; Raymond, Andrea; Hernandez, Mario E Gomez; Fernandez-Lima, Francisco; George, Florence; Ramaswamy, Sharan

sustainable development goals

authors

publication date

  • May 19, 2020

webpage

published in

keywords

  • AORTIC-VALVE
  • CHILDREN
  • Cardiac & Cardiovascular Systems
  • Cardiovascular System & Cardiology
  • DIFFERENTIATION
  • FLOW
  • HEART-VALVES
  • Life Sciences & Biomedicine
  • REPLACEMENT
  • Science & Technology
  • endothelial phenotype
  • engineered valve
  • mechanical conditioning
  • mesenchymal stem cells
  • oscillatory flow
  • physiologically relevant
  • smooth muscle phenotype
  • somatic growth

Digital Object Identifier (DOI)

publisher

  • FRONTIERS MEDIA SA

volume

  • 7