INTRODUCTION: Ex vivo lung perfusion (EVLP) has been recently proposed to recondition organs before transplantation from donors with marginal or unacceptable features. The aim of our investigation was to explore glucose consumption during EVLP. MATERIALS AND METHODS: We investigated 8 domestic pigs (mean weight, 21 ± 0.8 kg). After perfusion with Perfadex, retrieval, and back table surgery, we initiated EVLP. The lungs were perfused with Steen solution with added methylprednisolone, cefazoline, and heparin. The blood flow was gradually increased with a target of 40% of the estimated cardiac output (or less if the pulmonary artery pressure was >15 mm Hg), while keeping the left atrial pressure between 3 and 5 mm Hg. The temperature of the perfusate was increased from 25 °C to 37 °C. Once the temperature of the lung outflow was >32 °C, we began gas flow (4 L/min, 5%-8% CO(2) in air) and mechanical ventilation. EVLP parameters and blood gases were measured throughout the experiment; glucose consumption was calculated as (glucose initial-glucose final)/time. The wet to dry ratio was also calculated as an index of lung edema. RESULTS: When stratified by median glucose consumption (0.237 mg/min), high glucose consumers (0.588 ± 0.17) were characterized by worse lung function, as assessed by oxygenation (partial pressure of oxygen/inspiratory fraction of oxygen [PaO(2)/FiO(2)] 326 ± 63 mm Hg vs 218 ± 84; P=.083 low vs high, respectively), and lung edema (wet/dry ratio 6.5 ± 0.7 vs 8.6 ± 0.9; P=.012). Glucose consumption correlated with wet to dry ratio (R(2)=0.663; P=.014). CONCLUSIONS: We found that the worse the lung function, the greater the consumption of glucose during EVLP. This observation suggests the need to explore lung metabolism during EVLP to possibly obtain metrics for evaluation.
INTRODUCTION: Ex vivo lung perfusion (EVLP) has been recently proposed to recondition organs before transplantation from donors with marginal or unacceptable features. The aim of our investigation was to explore glucose consumption during EVLP. MATERIALS AND METHODS: We investigated 8 domestic pigs (mean weight, 21 ± 0.8 kg). After perfusion with Perfadex, retrieval, and back table surgery, we initiated EVLP. The lungs were perfused with Steen solution with added methylprednisolone, cefazoline, and heparin. The blood flow was gradually increased with a target of 40% of the estimated cardiac output (or less if the pulmonary artery pressure was >15 mm Hg), while keeping the left atrial pressure between 3 and 5 mm Hg. The temperature of the perfusate was increased from 25 °C to 37 °C. Once the temperature of the lung outflow was >32 °C, we began gas flow (4 L/min, 5%-8% CO(2) in air) and mechanical ventilation. EVLP parameters and blood gases were measured throughout the experiment; glucose consumption was calculated as (glucose initial-glucose final)/time. The wet to dry ratio was also calculated as an index of lung edema. RESULTS: When stratified by median glucose consumption (0.237 mg/min), high glucose consumers (0.588 ± 0.17) were characterized by worse lung function, as assessed by oxygenation (partial pressure of oxygen/inspiratory fraction of oxygen [PaO(2)/FiO(2)] 326 ± 63 mm Hg vs 218 ± 84; P=.083 low vs high, respectively), and lung edema (wet/dry ratio 6.5 ± 0.7 vs 8.6 ± 0.9; P=.012). Glucose consumption correlated with wet to dry ratio (R(2)=0.663; P=.014). CONCLUSIONS: We found that the worse the lung function, the greater the consumption of glucose during EVLP. This observation suggests the need to explore lung metabolism during EVLP to possibly obtain metrics for evaluation.
Authors: Micha Sam Brickman Raredon; Alexander J Engler; Yifan Yuan; Allison M Greaney; Laura E Niklason Journal: J Appl Physiol (1985) Date: 2021-09-23
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Authors: Timothy M Sladden; Stephanie Yerkovich; Douglas Wall; Maxine Tan; William Hunt; Jonathan Hill; Ian Smith; Peter Hopkins; Daniel C Chambers Journal: J Transplant Date: 2019-08-25