This investigation was designed to show an original methodology for the assessment of lung preservation and to analyze the efficacy of a low potassium polygelin solution (haemaccel [HM]) on isolated human pulmonary artery endothelial cells. The effects of HM were compared with those of low potassium dextran (LPD), Belzer (University of Wisconsin [UWS]), and Euro-Collins solutions. The viability of the endothelial cultures was assessed by means of both total protein content and recovery of metabolic cellular function expressed as the protein synthesis rate after 6 hr and 16 hr of incubation at 10 degrees C. Our results failed to show any significant difference in the total protein content for HM, LPD, and UWS, both after 6 and 16 hr of incubation; however, the Euro-Collins-preserved sample revealed a significant drop in this parameter as early as 6 hr after the start. This finding was regarded as a clear indication of cellular cytotoxicity. In contrast, the metabolism recovery capacity of the cells varied significantly between HM and UWS at 6 hr and among HM, LPD, and UWS at 16 hr; at 6 hr, however, no significant difference was observed between HM and LPD. In conclusion, HM appears to exert a more significant effect on human pulmonary artery endothelial cell metabolism recovery than do the other fluids, thus suggesting its suitability as a long-term pulmonary perfusate
Methodology for the assessment of lung protection. Human pulmonary artery endothelial cell preservation using haemaccel / L. Spaggiari, P. Carbognani, M. Rusca, R. Alfieri, P. Solli, L. Cattelani, S. Urbani, P. Petronini, A.F. Borghetti, P. Bobbio. - In: TRANSPLANTATION. - ISSN 0041-1337. - 60:9(1995 Nov 15), pp. 1040-1043.
Methodology for the assessment of lung protection. Human pulmonary artery endothelial cell preservation using haemaccel
L. SpaggiariPrimo
;
1995
Abstract
This investigation was designed to show an original methodology for the assessment of lung preservation and to analyze the efficacy of a low potassium polygelin solution (haemaccel [HM]) on isolated human pulmonary artery endothelial cells. The effects of HM were compared with those of low potassium dextran (LPD), Belzer (University of Wisconsin [UWS]), and Euro-Collins solutions. The viability of the endothelial cultures was assessed by means of both total protein content and recovery of metabolic cellular function expressed as the protein synthesis rate after 6 hr and 16 hr of incubation at 10 degrees C. Our results failed to show any significant difference in the total protein content for HM, LPD, and UWS, both after 6 and 16 hr of incubation; however, the Euro-Collins-preserved sample revealed a significant drop in this parameter as early as 6 hr after the start. This finding was regarded as a clear indication of cellular cytotoxicity. In contrast, the metabolism recovery capacity of the cells varied significantly between HM and UWS at 6 hr and among HM, LPD, and UWS at 16 hr; at 6 hr, however, no significant difference was observed between HM and LPD. In conclusion, HM appears to exert a more significant effect on human pulmonary artery endothelial cell metabolism recovery than do the other fluids, thus suggesting its suitability as a long-term pulmonary perfusatePubblicazioni consigliate
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