Andrew Tumen scite author profile

Although machine perfusion has gained momentum as an organ preservation technique in liver transplantation, persistent organ shortages and high waitlist mortality highlight unmet needs for improved organ salvage strategies. Beyond preservation, extracorporeal organ support platforms can also aid the development and evaluation of novel therapeutics. Here, we report the use of veno-arterial-venous (V-AV) cross-circulation (XC) with a swine host to provide normothermic support to extracorporeal livers. Functional, biochemical, and morphological analyses of the extracorporeal livers and swine hosts were performed over 12 hours of support. Extracorporeal livers maintained synthetic function through alkaline bile production and metabolic activity through lactate clearance and oxygen consumption. Beyond initial reperfusion, no biochemical evidence of hepatocellular injury was observed. Histopathologic injury scoring showed improvements in sinusoidal dilatation and composite acute injury scores after 12 hours. Swine hosts remained hemodynamically stable throughout XC support. Altogether, these outcomes demonstrate the feasibility of using a novel V-AV XC technique to provide support for extracorporeal livers in a swine model. V-AV XC has potential applications as a translational research platform and clinical biotechnology for donor organ salvage.

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Left Pulmonary Artery Ligation and Chronic Pulmonary Artery Banding Model for Inducing Right Ventricular—Pulmonary Hypertension in Sheep

Ukita

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Tumen

et al. 2020

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Animal Animal Animal AnimalSupplementary Figure 1: Changes in main pulmonary artery cuff pressure over the twomonth period of sheep PH-RVH model Supplementary Figure 2: The evaluation of PH-RVH model: a) the transthoracic echocardiograph of the heart, demonstrating RV hypertrophy and interventricular septal flattening; b) the necropsy of the heart-lung en bloc with the pulmonary artery cuff (white arrow); c) the weight ratio between right ventricular free wall and left ventricle + interventricular septum (RV:(LV+IVS)). The data show minimum, maximum, interquartile range, and median of the ratio for 4 animals, and the dotted line represents an average RV:(LV+IVS) value in normal sheep from previous study. 6 d) Gömöri trichrome stain comparing RV tissue between healthy sheep (left) and PH-RVH sheep from the presented model (right).

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Progression Toward Decompensated Right Ventricular Failure in the Ovine Pulmonary Hypertension Model

Ukita

Tumen

Stokes

et al. 2021

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Decompensated right ventricular failure (RVF) in patients with pulmonary hypertension (PH) is fatal, with limited treatment options. Novel mechanical circulatory support systems have therapeutic potential for RVF, but the development of these devices requires a large animal disease model that replicates the pathophysiology observed in humans. We previously reported an effective disease model of PH in sheep through ligation of the left pulmonary artery (PA) and progressive occlusion of the main PA. Herein, we report a case of acute decompensation with this model of chronic RVF. Gradual PA banding raised the RV pressure (maximum RV systolic/mean pressure = 95 mmHg/56 mmHg). Clinical findings and laboratory serum parameters suggested appropriate physiologic compensation for 7 weeks. However, mixed venous saturation declined precipitously on week 7, and creatinine increased markedly on week 9. By the 10th week, the animal developed dependent, subcutaneous edema. Subsequently, the animal expired during the induction of general anesthesia. Post-mortem evaluation revealed several liters of pleural effusion and ascites, RV dilatation, eccentric RV hypertrophy, and myocardial fibrosis. The presented case supports this model's relevance to the human pathophysiology of RVF secondary to PH and its value in the development of novel devices, therapeutics, and interventions.

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Andrew Tumen

Xenogeneic cross-circulation for extracorporeal recovery of injured human lungs

The Vanderbilt Open-Source Ventilator: From Napkin Sketch to Ready to Save Lives in Three Weeks

Cross-Circulation for Extracorporeal Liver Support in a Swine Model

Left Pulmonary Artery Ligation and Chronic Pulmonary Artery Banding Model for Inducing Right Ventricular—Pulmonary Hypertension in Sheep

Progression Toward Decompensated Right Ventricular Failure in the Ovine Pulmonary Hypertension Model

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