Quantitative stiffness assessment of cardiac grafts using ultrasound in a porcine model: A tissue biomarker for heart transplantation

Olivier Pedreira; Clement Papadacci; Lionel Augeul; Joseph Loufouat; Mégane Lo-Grasso; Mickael Tanter; René Ferrera; Mathieu Pernot

doi:10.1016/j.ebiom.2022.104201

Quantitative stiffness assessment of cardiac grafts using ultrasound in a porcine model: A tissue biomarker for heart transplantation

EBioMedicine. 2022 Sep:83:104201. doi: 10.1016/j.ebiom.2022.104201. Epub 2022 Aug 3.

Authors

Olivier Pedreira¹, Clement Papadacci², Lionel Augeul³, Joseph Loufouat³, Mégane Lo-Grasso³, Mickael Tanter¹, René Ferrera³, Mathieu Pernot¹

Affiliations

¹ Physics for Medicine, ESPCI, INSERM U1273, CNRS UMR 8063, PSL University, Paris, France.
² Physics for Medicine, ESPCI, INSERM U1273, CNRS UMR 8063, PSL University, Paris, France. Electronic address: clement.papadacci@espci.fr.
³ CarMeN, 27102INSERM U1060, INRA U1397, INSA de Lyon, Université Claude Bernard Lyon 1, Université de Lyon, Villeurbanne, France.

Abstract

Background: Heart transplantation is the definitive treatment for many cardiovascular diseases. However, no ideal approach is established to evaluate heart grafts and it mostly relies on qualitative interpretation of surgeon based on the organ aspect including anatomy, color and manual palpation. In this study we propose to assess quantitatively the Shear Wave Velocity (SWV) using ultrasound as a biomarker of cardiac viability on a porcine model.

Methods: The SWV was assessed quantitatively using a clinical ultrasound elastography device (Aixplorer, Supersonics Imagine, France) linked to a robotic motorized arm (UR3, Universal Robots, Denmark) and the elastic anisotropy was obtained using a custom ultrasound research system. SWV was evaluated as function of time in two porcine heart model during 20h at controlled temperature (4°C). One control group (N = 8) with the heart removed and arrested by cold cardioplegia and immerged in a preservation solution. One ischemic group (N = 6) with the organ harvested after 30 min of in situ warm ischemia, to mimic a donation after cardiac death. Hearts graft were revived at two preservation times, at 4 h (N = 11) and 20 h (N = 10) and the parameters of the cardiac function evaluated.

Findings: On control hearts, SWV remained unchanged during the 4h of preservation. SWV increased significantly between 4 and 20h. For the ischemic group, SWV was found higher after 4h (3.04 +/- 0.69 vs 1.69+/-0.19 m/s, p = 0.007) and 20h (4.77+/-1.22 m/s vs 3.40+/-0.75 m/s, p = 0.034) of preservation with significant differences. A good correlation between SWV and cardiac function index was found (r²=0.88) and manual palpation score (r²=0.81).

Interpretation: Myocardial stiffness increase was quantified as a function of preservation time and harvesting conditions. The correlation between SWV and cardiac function index suggests that SWV could be used as a marker of graft viability. This technique may be transposed to clinical transplantation for assessing the graft viability during transplantation process.

Funding: FRM PME20170637799, Agence Biomédecine AOR Greffe 2017, ANR-18-CE18-0015.

Keywords: Cardiac transplantation; Medical imaging; Shear wave elastography; Ultrasound.

MeSH terms

Animals
Elasticity Imaging Techniques* / methods
Heart
Heart Transplantation* / adverse effects
Humans
Swine
Tissue Donors
Ultrasonography