A clinically relevant sheep model of orthotopic heart transplantation 24 h after donor brainstem death

Hoe, Louise E. See; Wildi, Karin; Obonyo, Nchafatso G.; Bartnikowski, Nicole; McDonald, Charles; Sato, Kei; Heinsar, Silver; Engkilde-Pedersen, S.; Diab, Sara; Passmore, Margaret; Wells, M.; Boon, Ai-Ching; Esguerra, Arlanna; Platts, D.; James, L.; Bouquet, Mahé; Hyslop, Kieran; Shuker, T.; Ainola, Carmen; Colombo, Sebastiano Maria; Wilson, Emily; Millar, Jonathan; Malfertheiner, Maximillian V; Reid, J.; O'Neill, H.; Livingstone, Samantha; Abbate, Gabriella; Sato, Noriko; He, Ting; Bahr, Viktor von; Rozencwajg, Sacha; Byrne, Liam; Pimenta, Leticia Pretti; Marshall, Liam E.; Nair, Lawrence; Tung, John‐Paul; Chan, Jonathan; Haqqani, Haris M.; Molenaar, Peter; Bassi, Gianluigi Li; Suen, Jacky Y.; McGiffin, David C.; Fraser, John F.

doi:10.1186/s40635-021-00425-4

Cited by 6 publications

(1 citation statement)

References 68 publications

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“…In large-animal models, the porcine heart is one of the preferred choices considering its anatomical similarity to the human heart [ 38 , 39 ]. However, ovine hearts are also comparable on a physiological and anatomical level to human heart and have been studied comprehensively [ 40 – 42 ]. The advantage of using ovine hearts for experimental studies is that the slaughter process for sheep is shorter than that for pigs.…”

Section: Discussionmentioning

confidence: 99%

Ex Situ Left Ventricular Pressure-Volume Loop Analyses for Donor Hearts: Proof of Concept in an Ovine Experimental Model

Ertugrul,

Puspitarani,

Wijntjes

et al. 2024

Transpl Int

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Ex situ heart perfusion (ESHP) has emerged as an important strategy to preserve donation after brain death (DBD) and donation after circulatory death (DCD) donor hearts. Clinically, both DBD and DCD hearts are successfully preserved using ESHP. Viability assessment is currently based on biochemical values, while a reliable method for graft function assessment in a physiologic working mode is unavailable. As functional assessment during ESHP has demonstrated the highest predictive value of outcome post-transplantation, this is an important area for improvement. In this study, a novel method for ex situ assessment of left ventricular function with pressure-volume loop analyses is evaluated. Ovine hearts were functionally evaluated during normothermic ESHP with the novel pressure-volume loop system. This system provides an afterload and adjustable preload to the left ventricle. By increasing the preload and measuring end-systolic elastance, the system could successfully assess the left ventricular function. End-systolic elastance at 60 min and 120 min was 2.8 ± 1.8 mmHg/mL and 2.7 ± 0.7 mmHg/mL, respectively. In this study we show a novel method for functional graft assessment with ex situ pressure-loop analyses during ESHP. When further validated, this method for pressure-volume assessments, could be used for better graft selection in both DBD and DCD donor hearts.

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Section: Discussionmentioning

confidence: 99%

Ex Situ Left Ventricular Pressure-Volume Loop Analyses for Donor Hearts: Proof of Concept in an Ovine Experimental Model

Ertugrul,

Puspitarani,

Wijntjes

et al. 2024

Transpl Int

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Donor heart ischemic time can be extended beyond 9 hours using hypothermic machine perfusion in sheep

Hoe¹,

Bassi²,

Wildi³

et al. 2023

The Journal of Heart and Lung Transplantation

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Echocardiographic surrogate of left ventricular stroke work in a model of brain stem death donors

Sato,

Hoe,

Chan

et al. 2024

Eur J Clin Investigation

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BackgroundThe commonest echocardiographic measurement, left ventricular ejection fraction, can not necessarily predict mortality of recipients following heart transplantation potentially due to afterload dependency. Afterload‐independent left ventricular stroke work index (LVSWI) is alternatively recommended by the current guideline; however, pulmonary artery catheters are rarely inserted in organ donors in most jurisdictions. We propose a novel non‐invasive echocardiographic parameter, Pressure‐Strain Product (PSP), as a potential surrogate of catheter‐based LVSWI. This study aimed to investigate if PSP could correlate with catheter‐based LVSWI in an ovine model of brain stem death (BSD) donors. The association between PSP and myocardial mitochondrial function in the post‐transplant hearts was also evaluated.MethodsThirty‐one female sheep (weight 47 ± 5 kg) were divided into two groups; BSD (n = 15), and sham neurologic injury (n = 16). Echocardiographic parameters including global circumferential strain (GCS) and global radial strain (GRS) and pulmonary artery catheter‐based LVSWI were simultaneously measured at 8‐timepoints during 24‐h observation. PSP was calculated as a product of GCS or GRS, and mean arterial pressure for PSPcirc or PSPrad, respectively. Myocardial mitochondrial function was evaluated following 6‐h observation after heart transplantation.ResultsIn BSD donor hearts, PSPcirc (n = 96, rho = .547, p < .001) showed the best correlation with LVSWI among other echocardiographic parameters. PSPcirc returned AUC of .825 to distinguish higher values of cardiomyocyte mitochondrial function (cut‐off point; mean value of complex 1,2 O2 Flux) in post‐transplant hearts, which was greater than other echocardiographic parameters.ConclusionsPSPcirc could be used as a surrogate of catheter‐based LVSWI reflecting mitochondrial function.

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A clinically relevant sheep model of orthotopic heart transplantation 24 h after donor brainstem death

Cited by 6 publications

References 68 publications

Ex Situ Left Ventricular Pressure-Volume Loop Analyses for Donor Hearts: Proof of Concept in an Ovine Experimental Model

Ex Situ Left Ventricular Pressure-Volume Loop Analyses for Donor Hearts: Proof of Concept in an Ovine Experimental Model

Donor heart ischemic time can be extended beyond 9 hours using hypothermic machine perfusion in sheep

Echocardiographic surrogate of left ventricular stroke work in a model of brain stem death donors

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