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Metabolite-enhanced normothermic machine perfusion improves kidney transplant viability
Jan Czogalla, Fabian Hausmann, Simon Lagies, Sydney E. Gies, Sabrina Christiansen, Nico Kaiser, Fabian Haas, Yusuke Okabayashi, Dominik Kylies, Smilla Hofmann, Rossana Franzin, Niklas Sabra, Sarah Bouari, Yitian Fang, Gisela Ambagtsheer, Ilka Edenhofer, Silvia Chilla, Anne K. Mühlig, Marina Zimmermann, Milagros N. Wong, Takashi Yokoo, Oliver Kretz, Maja Lindenmeyer, Florian Grahammer, Martin J. Hoogduijn, Ron de Bruin, Malte Kuehl, Sonja Hänzelmann, Bernd Kammerer, Loreto Gesualdo, Stefan Bonn, Robert C. Minnee, Tobias B. Huber, Victor G. Puelles
Jan Czogalla, Fabian Hausmann, Simon Lagies, Sydney E. Gies, Sabrina Christiansen, Nico Kaiser, Fabian Haas, Yusuke Okabayashi, Dominik Kylies, Smilla Hofmann, Rossana Franzin, Niklas Sabra, Sarah Bouari, Yitian Fang, Gisela Ambagtsheer, Ilka Edenhofer, Silvia Chilla, Anne K. Mühlig, Marina Zimmermann, Milagros N. Wong, Takashi Yokoo, Oliver Kretz, Maja Lindenmeyer, Florian Grahammer, Martin J. Hoogduijn, Ron de Bruin, Malte Kuehl, Sonja Hänzelmann, Bernd Kammerer, Loreto Gesualdo, Stefan Bonn, Robert C. Minnee, Tobias B. Huber, Victor G. Puelles
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Research Article Cell biology Metabolism Nephrology

Metabolite-enhanced normothermic machine perfusion improves kidney transplant viability

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Abstract

Normothermic machine perfusion (NMP) has become a valuable tool to expand the pool of transplantable organs. However, the application of NMP to kidneys presents substantial challenges, mostly due to high variability in the composition of currently used perfusion solutions. Here, we provide a multimodal cross-species cellular atlas of kidney injury associated with NMP using a literature-based consensus buffer. This resource provided a systematic framework that was used to develop a metabolite-enhanced perfusion solution, which protected renal proximal tubular cells, improving cellular viability and transplantation outcomes across species, including human kidneys.

Authors

Jan Czogalla, Fabian Hausmann, Simon Lagies, Sydney E. Gies, Sabrina Christiansen, Nico Kaiser, Fabian Haas, Yusuke Okabayashi, Dominik Kylies, Smilla Hofmann, Rossana Franzin, Niklas Sabra, Sarah Bouari, Yitian Fang, Gisela Ambagtsheer, Ilka Edenhofer, Silvia Chilla, Anne K. Mühlig, Marina Zimmermann, Milagros N. Wong, Takashi Yokoo, Oliver Kretz, Maja Lindenmeyer, Florian Grahammer, Martin J. Hoogduijn, Ron de Bruin, Malte Kuehl, Sonja Hänzelmann, Bernd Kammerer, Loreto Gesualdo, Stefan Bonn, Robert C. Minnee, Tobias B. Huber, Victor G. Puelles

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Figure 7

MEPS improves survival in a rat model of kidney transplantation after NMP

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MEPS improves survival in a rat model of kidney transplantation after NM...
(A) In a rat model of NMP followed by transplantation, MEPS was compared with consensus buffer and animals followed for 14 days after surgery. (B) Survival of animals was significantly improved after MEPS perfusion. One day before death or sacrifice, bodyweight was significantly higher in MEPS perfused animals. In addition, estimated glomerular filtration rate (eGFR) was significantly improved after MEPS. Data are shown as median with 95% CI. Log-rank test and unpaired student’s t test has been used for statistical analysis. (C) There was an evident macroscopic improvement in the kidneys at time of sacrifice with MEPS compared with consensus buffer after NMP. (D) Histopathology showed reduced tissue injury after MEPS. Scale bar: 20 μm. TUNEL staining returned significantly less apoptotic nuclei with MEPS compared with consensus buffer after NMP. Scale bar: 30 μm. Data are shown as median with 95% CI, unpaired student’s t test has been used for statistics.

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