Evaluation of different cannulation strategies for aortic arch surgery using a cardiovascular numerical simulator

De Lazzari, Beatrice and Capoccia, Massimo and Cheshire, Nicholas J. and Rosendahl, Ulrich P. and Badagliacca, Roberto and De Lazzari, Claudio (2023) Evaluation of different cannulation strategies for aortic arch surgery using a cardiovascular numerical simulator. Bioengineering, 10 (1). 60. ISSN 2306-5354 (https://doi.org/10.3390/bioengineering10010060)

[thumbnail of De-Lazzari-etal-Bioengineering-2023-Evaluation-of-different-cannulation-strategies-for-aortic-arch-surgery]
Preview
Text. Filename: De_Lazzari_etal_Bioengineering_2023_Evaluation_of_different_cannulation_strategies_for_aortic_arch_surgery.pdf
Final Published Version
License: Creative Commons Attribution 4.0 logo

Download (2MB)| Preview

Abstract

Aortic disease has a significant impact on quality of life. The involvement of the aortic arch requires the preservation of blood supply to the brain during surgery. Deep hypothermic circulatory arrest is an established technique for this purpose, although neurological injury remains high. Additional techniques have been used to reduce risk, although controversy still remains. A three-way cannulation approach, including both carotid arteries and the femoral artery or the ascending aorta, has been used successfully for aortic arch replacement and redo procedures. We developed circuits of the circulation to simulate blood flow during this type of cannulation set up. The CARDIOSIM© cardiovascular simulation platform was used to analyse the effect on haemodynamic and energetic parameters and the benefit derived in terms of organ perfusion pressure and flow. Our simulation approach based on lumped-parameter modelling, pressure–volume analysis and modified time-varying elastance provides a theoretical background to a three-way cannulation strategy for aortic arch surgery with correlation to the observed clinical practice.