Communications Biology (Oct 2023)

Valvulogenesis of a living, innervated pulmonary root induced by an acellular scaffold

  • Magdi H. Yacoub,
  • Yuan-Tsan Tseng,
  • Jolanda Kluin,
  • Annemijn Vis,
  • Ulrich Stock,
  • Hassiba Smail,
  • Padmini Sarathchandra,
  • Elena Aikawa,
  • Hussam El-Nashar,
  • Adrian H. Chester,
  • Nairouz Shehata,
  • Mohamed Nagy,
  • Amr El-sawy,
  • Wei Li,
  • Gaetano Burriesci,
  • Jacob Salmonsmith,
  • Soha Romeih,
  • Najma Latif

DOI
https://doi.org/10.1038/s42003-023-05383-z
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 15

Abstract

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Abstract Heart valve disease is a major cause of mortality and morbidity worldwide with no effective medical therapy and no ideal valve substitute emulating the extremely sophisticated functions of a living heart valve. These functions influence survival and quality of life. This has stimulated extensive attempts at tissue engineering “living” heart valves. These attempts utilised combinations of allogeneic/ autologous cells and biological scaffolds with practical, regulatory, and ethical issues. In situ regeneration depends on scaffolds that attract, house and instruct cells and promote connective tissue formation. We describe a surgical, tissue-engineered, anatomically precise, novel off-the-shelf, acellular, synthetic scaffold inducing a rapid process of morphogenesis involving relevant cell types, extracellular matrix, regulatory elements including nerves and humoral components. This process relies on specific material characteristics, design and “morphodynamism”.