Weissenbacher, A., Huang, H., Surik, T., Lo Faro, M. L., Ploeg, R. J., Coussios, C. C., . . . Kessler, B. M. (2020). Urine recirculation prolongs normothermic kidney perfusion via more optimal metabolic homeostasis—a proteomics study. Am J Transplant.
Stile di citazione ChicagoWeissenbacher, Annemarie, Honglei Huang, Tomas Surik, Maria L. Lo Faro, Rutger J. Ploeg, Constantin C. Coussios, Peter J. Friend, e Benedikt M. Kessler. "Urine Recirculation Prolongs Normothermic Kidney Perfusion Via More Optimal Metabolic Homeostasis—a Proteomics Study." Am J Transplant 2020.
Citazione MLAWeissenbacher, Annemarie, et al. "Urine Recirculation Prolongs Normothermic Kidney Perfusion Via More Optimal Metabolic Homeostasis—a Proteomics Study." Am J Transplant 2020.