2016
DOI: 10.1111/ajt.13543
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Physiologic Changes in the Heart Following Cessation of Mechanical Ventilation in a Porcine Model of Donation After Circulatory Death: Implications for Cardiac Transplantation

Abstract: Hearts donated following circulatory death (DCD) may represent an additional source of organs for transplantation; however, the impact of donor extubation on the DCD heart has not been well characterized. We sought to describe the physiologic changes that occur following withdrawal of life-sustaining therapy (WLST) in a porcine model of DCD. Physiologic changes were monitored continuously for 20 min following WLST. Ventricular pressure, volume, and function were recorded using a conductance catheter placed int… Show more

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Cited by 66 publications
(66 citation statements)
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“…This study does possess some limitations. Our experimental (ex-situ) model and the specific conditions were chosen in order to limit variability and strictly control the energy substrate availability and duration and temperature of ischemia to simulate DCD conditions; however, it does not incorporate the physiologic changes in the body following withdrawal of life sustaining therapy (typical DCD heart donor), such as the catecholamine storm or pulmonary vasoconstriction leading to a pressure-volume overload in the right heart [51,52]. Furthermore, although we provide new information about potential mechanisms of MPC-mediated cardioprotection, additional studies are required to fully characterize the precise molecular causes of MPC-induced effects.…”
Section: Discussionmentioning
confidence: 99%
“…This study does possess some limitations. Our experimental (ex-situ) model and the specific conditions were chosen in order to limit variability and strictly control the energy substrate availability and duration and temperature of ischemia to simulate DCD conditions; however, it does not incorporate the physiologic changes in the body following withdrawal of life sustaining therapy (typical DCD heart donor), such as the catecholamine storm or pulmonary vasoconstriction leading to a pressure-volume overload in the right heart [51,52]. Furthermore, although we provide new information about potential mechanisms of MPC-mediated cardioprotection, additional studies are required to fully characterize the precise molecular causes of MPC-induced effects.…”
Section: Discussionmentioning
confidence: 99%
“…In a porcine DCD model, White et al 7 established that similar to a DBD animal model, the DCD donor process also produces a catecholamine surge (up to 591 times the baseline value) with an increase in heart rate and contractility, followed by a decrease in blood pressure and tissue oxygenation. It is important to note that oxygen delivery to tissue ceases within 4 minutes following the withdrawal of ventilation.…”
Section: Preclinical Data Paving the Way To Perform Human Dcd Heart Tmentioning
confidence: 99%
“…The FWIT is meant to provide a more accurate estimate of the actual ischemic injury sustained by donor organs following WLST. However, insufficient end-organ oxygen delivery and the onset of organ ischemia (evidenced by rising systemic lactate concentrations) may occur before a significant decline in blood pressure has occurred ( 24 ). Oxygen desaturation may be a more sensitive indicator of end-organ ischemia and should be included in the FWIT definition ( 24 ).…”
Section: Donation After Circulatory Death (Dcd)mentioning
confidence: 99%
“…Understanding the physiologic impact of donor extubation and warm ischemia on the DCD heart is fundamental to developing a successful resuscitation strategy ( 24 ). After extubation, the DCD heart is forced to function in an increasingly hypoxemic environment while attempting to maintain systemic oxygen delivery ( 24 ). Progressive hypoxemia and hypercarbia cause constriction of the pulmonary vasculature and distention of the right ventricle.…”
Section: Dcd Heart Transplantationmentioning
confidence: 99%