Does the AVNeo valve reduce wall stress on the aortic wall?: A cardiac magnetic resonance analysis with 4D-flow for the evaluation of aortic valve replacement with the Ozaki technique

Sergio Pirola; Selene Pirola; Giorgio Mastroiacovo; Alice Bonomi; Emily L Manchester; Serena M Fisichella; Riccardo Maragna; Andrea Baggiano; Saima Mushtaq; Giuseppe Muscogiuri; Marco Guglielmo; Xiao Yun Xu; Gianluca Pontone; Gianluca Polvani

doi:10.1093/ejcts/ezad299

Does the AVNeo valve reduce wall stress on the aortic wall? A cardiac magnetic resonance analysis with 4D-flow for the evaluation of aortic valve replacement with the Ozaki technique

Sergio Pirola, Selene Pirola, Giorgio Mastroiacovo^*, Alice Bonomi, Emily L Manchester, Serena M Fisichella, Riccardo Maragna, Andrea Baggiano, Saima Mushtaq, Giuseppe Muscogiuri, Marco Guglielmo, Xiao Yun Xu, Gianluca Pontone, Gianluca Polvani

^*Corresponding author for this work

Division of Heart & Lungs

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

OBJECTIVES: Aortic valve neocuspidalization aims to replace the 3 aortic cusps with autologous pericardium pre-treated with glutaraldehyde, and it is a surgical alternative to the classical aortic valve replacement (AVR). Image-based patient-specific computational fluid dynamics allows the derivation of shear stress on the aortic wall [wall shear stress (WSS)]. Previous studies support a potential link between increased WSS and histological alterations of the aortic wall. The aim of this study is to compare the WSS of the ascending aorta in patients undergoing aortic valve neocuspidalization versus AVR with biological prostheses.

METHODS: This is a prospective nonrandomized clinical trial. Each patient underwent a 4D-flow cardiac magnetic resonance scan after surgery, which informed patient-specific computational fluid dynamics models to evaluate WSS at the ascending aortic wall. The adjusted variables were calculated by summing the residuals obtained from a multivariate linear model (with ejection fraction and left ventricle outflow tract-aorta angle as covariates) to the mean of the variables.

RESULTS: Ten patients treated with aortic valve neocuspidalization were enrolled and compared with 10 AVR patients. The aortic valve neocuspidalization group showed a significantly lower WSS in the outer curvature segments of the proximal and distal ascending aorta as compared to AVR patients (P = 0.0179 and 0.0412, respectively). WSS levels remained significantly lower along the outer curvature of the proximal aorta in the aortic valve neocuspidalization population, even after adjusting the WSS for the ejection fraction and the left ventricle outflow tract-aorta angle [2.44 Pa (2.17-3.01) vs 1.94 Pa (1.72-2.01), P = 0.02].

CONCLUSIONS: Aortic valve neocuspidalization hemodynamical features are potentially associated with a lower WSS in the ascending aorta as compared to commercially available bioprosthetic valves.

Original language	English
Article number	ezad299
Number of pages	10
Journal	European Journal of Cardio-thoracic Surgery
Volume	64
Issue number	6
DOIs	https://doi.org/10.1093/ejcts/ezad299
Publication status	Published - 1 Dec 2023

Keywords

Aorta/diagnostic imaging
Aortic Valve/diagnostic imaging
Blood Flow Velocity
Hemodynamics
Humans
Magnetic Resonance Imaging/methods
Magnetic Resonance Spectroscopy
Prospective Studies
Stress, Mechanical

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10.1093/ejcts/ezad299

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Pirola, S., Pirola, S., Mastroiacovo, G., Bonomi, A., Manchester, E. L., Fisichella, S. M., Maragna, R., Baggiano, A., Mushtaq, S., Muscogiuri, G., Guglielmo, M., Yun Xu, X., Pontone, G., & Polvani, G. (2023). Does the AVNeo valve reduce wall stress on the aortic wall? A cardiac magnetic resonance analysis with 4D-flow for the evaluation of aortic valve replacement with the Ozaki technique. European Journal of Cardio-thoracic Surgery, 64(6), Article ezad299. https://doi.org/10.1093/ejcts/ezad299

@article{f230b8af60a349438026db974a78208b,

title = "Does the AVNeo valve reduce wall stress on the aortic wall?: A cardiac magnetic resonance analysis with 4D-flow for the evaluation of aortic valve replacement with the Ozaki technique",

abstract = "OBJECTIVES: Aortic valve neocuspidalization aims to replace the 3 aortic cusps with autologous pericardium pre-treated with glutaraldehyde, and it is a surgical alternative to the classical aortic valve replacement (AVR). Image-based patient-specific computational fluid dynamics allows the derivation of shear stress on the aortic wall [wall shear stress (WSS)]. Previous studies support a potential link between increased WSS and histological alterations of the aortic wall. The aim of this study is to compare the WSS of the ascending aorta in patients undergoing aortic valve neocuspidalization versus AVR with biological prostheses.METHODS: This is a prospective nonrandomized clinical trial. Each patient underwent a 4D-flow cardiac magnetic resonance scan after surgery, which informed patient-specific computational fluid dynamics models to evaluate WSS at the ascending aortic wall. The adjusted variables were calculated by summing the residuals obtained from a multivariate linear model (with ejection fraction and left ventricle outflow tract-aorta angle as covariates) to the mean of the variables.RESULTS: Ten patients treated with aortic valve neocuspidalization were enrolled and compared with 10 AVR patients. The aortic valve neocuspidalization group showed a significantly lower WSS in the outer curvature segments of the proximal and distal ascending aorta as compared to AVR patients (P = 0.0179 and 0.0412, respectively). WSS levels remained significantly lower along the outer curvature of the proximal aorta in the aortic valve neocuspidalization population, even after adjusting the WSS for the ejection fraction and the left ventricle outflow tract-aorta angle [2.44 Pa (2.17-3.01) vs 1.94 Pa (1.72-2.01), P = 0.02].CONCLUSIONS: Aortic valve neocuspidalization hemodynamical features are potentially associated with a lower WSS in the ascending aorta as compared to commercially available bioprosthetic valves.",

keywords = "Aorta/diagnostic imaging, Aortic Valve/diagnostic imaging, Blood Flow Velocity, Hemodynamics, Humans, Magnetic Resonance Imaging/methods, Magnetic Resonance Spectroscopy, Prospective Studies, Stress, Mechanical",

author = "Sergio Pirola and Selene Pirola and Giorgio Mastroiacovo and Alice Bonomi and Manchester, {Emily L} and Fisichella, {Serena M} and Riccardo Maragna and Andrea Baggiano and Saima Mushtaq and Giuseppe Muscogiuri and Marco Guglielmo and {Yun Xu}, Xiao and Gianluca Pontone and Gianluca Polvani",

year = "2023",

month = dec,

day = "1",

doi = "10.1093/ejcts/ezad299",

language = "English",

volume = "64",

journal = "European Journal of Cardio-thoracic Surgery",

issn = "1010-7940",

publisher = "Elsevier",

number = "6",

}

Pirola, S, Pirola, S, Mastroiacovo, G, Bonomi, A, Manchester, EL, Fisichella, SM, Maragna, R, Baggiano, A, Mushtaq, S, Muscogiuri, G, Guglielmo, M, Yun Xu, X, Pontone, G & Polvani, G 2023, 'Does the AVNeo valve reduce wall stress on the aortic wall? A cardiac magnetic resonance analysis with 4D-flow for the evaluation of aortic valve replacement with the Ozaki technique', European Journal of Cardio-thoracic Surgery, vol. 64, no. 6, ezad299. https://doi.org/10.1093/ejcts/ezad299

Does the AVNeo valve reduce wall stress on the aortic wall? A cardiac magnetic resonance analysis with 4D-flow for the evaluation of aortic valve replacement with the Ozaki technique. / Pirola, Sergio; Pirola, Selene; Mastroiacovo, Giorgio et al.
In: European Journal of Cardio-thoracic Surgery, Vol. 64, No. 6, ezad299, 01.12.2023.

Research output: Contribution to journal › Article › Academic › peer-review

TY - JOUR

T1 - Does the AVNeo valve reduce wall stress on the aortic wall?

T2 - A cardiac magnetic resonance analysis with 4D-flow for the evaluation of aortic valve replacement with the Ozaki technique

AU - Pirola, Sergio

AU - Pirola, Selene

AU - Mastroiacovo, Giorgio

AU - Bonomi, Alice

AU - Manchester, Emily L

AU - Fisichella, Serena M

AU - Maragna, Riccardo

AU - Baggiano, Andrea

AU - Mushtaq, Saima

AU - Muscogiuri, Giuseppe

AU - Guglielmo, Marco

AU - Yun Xu, Xiao

AU - Pontone, Gianluca

AU - Polvani, Gianluca

PY - 2023/12/1

Y1 - 2023/12/1

N2 - OBJECTIVES: Aortic valve neocuspidalization aims to replace the 3 aortic cusps with autologous pericardium pre-treated with glutaraldehyde, and it is a surgical alternative to the classical aortic valve replacement (AVR). Image-based patient-specific computational fluid dynamics allows the derivation of shear stress on the aortic wall [wall shear stress (WSS)]. Previous studies support a potential link between increased WSS and histological alterations of the aortic wall. The aim of this study is to compare the WSS of the ascending aorta in patients undergoing aortic valve neocuspidalization versus AVR with biological prostheses.METHODS: This is a prospective nonrandomized clinical trial. Each patient underwent a 4D-flow cardiac magnetic resonance scan after surgery, which informed patient-specific computational fluid dynamics models to evaluate WSS at the ascending aortic wall. The adjusted variables were calculated by summing the residuals obtained from a multivariate linear model (with ejection fraction and left ventricle outflow tract-aorta angle as covariates) to the mean of the variables.RESULTS: Ten patients treated with aortic valve neocuspidalization were enrolled and compared with 10 AVR patients. The aortic valve neocuspidalization group showed a significantly lower WSS in the outer curvature segments of the proximal and distal ascending aorta as compared to AVR patients (P = 0.0179 and 0.0412, respectively). WSS levels remained significantly lower along the outer curvature of the proximal aorta in the aortic valve neocuspidalization population, even after adjusting the WSS for the ejection fraction and the left ventricle outflow tract-aorta angle [2.44 Pa (2.17-3.01) vs 1.94 Pa (1.72-2.01), P = 0.02].CONCLUSIONS: Aortic valve neocuspidalization hemodynamical features are potentially associated with a lower WSS in the ascending aorta as compared to commercially available bioprosthetic valves.

AB - OBJECTIVES: Aortic valve neocuspidalization aims to replace the 3 aortic cusps with autologous pericardium pre-treated with glutaraldehyde, and it is a surgical alternative to the classical aortic valve replacement (AVR). Image-based patient-specific computational fluid dynamics allows the derivation of shear stress on the aortic wall [wall shear stress (WSS)]. Previous studies support a potential link between increased WSS and histological alterations of the aortic wall. The aim of this study is to compare the WSS of the ascending aorta in patients undergoing aortic valve neocuspidalization versus AVR with biological prostheses.METHODS: This is a prospective nonrandomized clinical trial. Each patient underwent a 4D-flow cardiac magnetic resonance scan after surgery, which informed patient-specific computational fluid dynamics models to evaluate WSS at the ascending aortic wall. The adjusted variables were calculated by summing the residuals obtained from a multivariate linear model (with ejection fraction and left ventricle outflow tract-aorta angle as covariates) to the mean of the variables.RESULTS: Ten patients treated with aortic valve neocuspidalization were enrolled and compared with 10 AVR patients. The aortic valve neocuspidalization group showed a significantly lower WSS in the outer curvature segments of the proximal and distal ascending aorta as compared to AVR patients (P = 0.0179 and 0.0412, respectively). WSS levels remained significantly lower along the outer curvature of the proximal aorta in the aortic valve neocuspidalization population, even after adjusting the WSS for the ejection fraction and the left ventricle outflow tract-aorta angle [2.44 Pa (2.17-3.01) vs 1.94 Pa (1.72-2.01), P = 0.02].CONCLUSIONS: Aortic valve neocuspidalization hemodynamical features are potentially associated with a lower WSS in the ascending aorta as compared to commercially available bioprosthetic valves.

KW - Aorta/diagnostic imaging

KW - Aortic Valve/diagnostic imaging

KW - Blood Flow Velocity

KW - Hemodynamics

KW - Humans

KW - Magnetic Resonance Imaging/methods

KW - Magnetic Resonance Spectroscopy

KW - Prospective Studies

KW - Stress, Mechanical

UR - http://www.scopus.com/inward/record.url?scp=85179849409&partnerID=8YFLogxK

U2 - 10.1093/ejcts/ezad299

DO - 10.1093/ejcts/ezad299

M3 - Article

C2 - 37656941

SN - 1010-7940

VL - 64

JO - European Journal of Cardio-thoracic Surgery

JF - European Journal of Cardio-thoracic Surgery

IS - 6

M1 - ezad299

ER -

Does the AVNeo valve reduce wall stress on the aortic wall? A cardiac magnetic resonance analysis with 4D-flow for the evaluation of aortic valve replacement with the Ozaki technique

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