Understanding Pulmonary Autograft Remodeling After the Ross Procedure: Stick to the Facts

Lucas Van Hoof*, Peter Verbrugghe, Elizabeth A V Jones, Jay D Humphrey, Stefan Janssens, Nele Famaey, Filip Rega

*Corresponding author for this work

Research output: Contribution to journal(Systematic) Review article peer-review

Abstract

The Ross, or pulmonary autograft, procedure presents a fascinating mechanobiological scenario. Due to the common embryological origin of the aortic and pulmonary root, the conotruncus, several authors have hypothesized that a pulmonary autograft has the innate potential to remodel into an aortic phenotype once exposed to systemic conditions. Most of our understanding of pulmonary autograft mechanobiology stems from the remodeling observed in the arterial wall, rather than the valve, simply because there have been many opportunities to study the walls of dilated autografts explanted at reoperation. While previous histological studies provided important clues on autograft adaptation, a comprehensive understanding of its determinants and underlying mechanisms is needed so that the Ross procedure can become a widely accepted aortic valve substitute in select patients. It is clear that protecting the autograft during the early adaptation phase is crucial to avoid initiating a sequence of pathological remodeling. External support in the freestanding Ross procedure should aim to prevent dilatation while simultaneously promoting remodeling, rather than preventing dilatation at the cost of vascular atrophy. To define the optimal mechanical properties and geometry for external support, the ideal conditions for autograft remodeling and the timeline of mechanical adaptation must be determined. We aimed to rigorously review pulmonary autograft remodeling after the Ross procedure. Starting from the developmental, microstructural and biomechanical differences between the pulmonary artery and aorta, we review autograft mechanobiology in relation to distinct clinical failure mechanisms while aiming to identify unmet clinical needs, gaps in current knowledge and areas for further research. By correlating clinical and experimental observations of autograft remodeling with established principles in cardiovascular mechanobiology, we aim to present an up-to-date overview of all factors involved in extracellular matrix remodeling, their interactions and potential underlying molecular mechanisms.

Original languageEnglish
Article number829120
Number of pages20
JournalFrontiers in Cardiovascular Medicine
Volume9
DOIs
Publication statusPublished - 9 Feb 2022
Externally publishedYes

Keywords

  • ASCENDING AORTA
  • BICUSPID AORTIC-VALVE
  • BIOMECHANICAL PROPERTIES
  • BLOOD-FLOW
  • DILATATION
  • INTERSTITIAL-CELLS
  • MECHANICAL-PROPERTIES
  • ROOT REPLACEMENT
  • Ross procedure
  • VASCULAR SMOOTH-MUSCLE
  • WALL SHEAR-STRESS
  • external support
  • extracellular matrix
  • mechanobiology
  • pulmonary autograft
  • remodeling

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