OBJECTIVE: In heart transplantation a well-preserved myocardial ultrastructure is an important precondition for functional regeneration. Aim of the study is to optimize the conditions in this new established model of extracorporeal cardiac perfusion. METHODS: (I) In six pigs, hearts were arrested with Bretschneider Histidine-Tryptophan-Ketoglutarate cardioplegia and cold ischemia, explanted and connected to a circulating constant pressure Langendorff system (80-90mmHg) and perfused with leukocyte depleted autologous blood. (II) Beating hearts of seven pigs were explanted and connected immediately to the Langendorff system (40-50mmHg). Myocardial biopsies (n=55) were taken in situ and during the following 12h of reperfusion, and were prepared for electron microscopy. RESULTS: Cardioplegia and hypothermia (group I) induced mitochondrial edema and myofibrillar degeneration in cardiomyocytes and severe endothelial edema. During 4h of reperfusion, mitochondrial edema, myofibrillar, and sarcolemmal damages in cardiomyocytes increased. Moderate endothelial degeneration, interstitial edema, and bleedings appeared. In contrast, in group II after 6h of reperfusion endothelia showed only mild alterations. Cardiomyocytes showed myofibrillary but not mitochondrial degeneration. Interstitial edema and bleedings were mild. CONCLUSION: Avoiding cardioplegia and hypothermia, and using lower perfusion pressure resulted in a better preservation of the ultrastructure in explanted hearts at the Langendorff system.
OBJECTIVE: In heart transplantation a well-preserved myocardial ultrastructure is an important precondition for functional regeneration. Aim of the study is to optimize the conditions in this new established model of extracorporeal cardiac perfusion. METHODS: (I) In six pigs, hearts were arrested with Bretschneider Histidine-Tryptophan-Ketoglutarate cardioplegia and cold ischemia, explanted and connected to a circulating constant pressure Langendorff system (80-90mmHg) and perfused with leukocyte depleted autologous blood. (II) Beating hearts of seven pigs were explanted and connected immediately to the Langendorff system (40-50mmHg). Myocardial biopsies (n=55) were taken in situ and during the following 12h of reperfusion, and were prepared for electron microscopy. RESULTS:Cardioplegia and hypothermia (group I) induced mitochondrial edema and myofibrillar degeneration in cardiomyocytes and severe endothelial edema. During 4h of reperfusion, mitochondrial edema, myofibrillar, and sarcolemmal damages in cardiomyocytes increased. Moderate endothelial degeneration, interstitial edema, and bleedings appeared. In contrast, in group II after 6h of reperfusion endothelia showed only mild alterations. Cardiomyocytes showed myofibrillary but not mitochondrial degeneration. Interstitial edema and bleedings were mild. CONCLUSION: Avoiding cardioplegia and hypothermia, and using lower perfusion pressure resulted in a better preservation of the ultrastructure in explanted hearts at the Langendorff system.
Authors: Gert Jan Pelgrim; Marco Das; Ulrike Haberland; Cees Slump; Astri Handayani; Sjoerd van Tuijl; Marco Stijnen; Ernst Klotz; Matthijs Oudkerk; Joachim E Wildberger; Rozemarijn Vliegenthart Journal: Biomed Res Int Date: 2015-06-21 Impact factor: 3.411
Authors: Alexander Weymann; Anton Sabashnikov; Nikhil P Patil; Wolfgang Konertz; Diethelm Modersohn; Pascal M Dohmen Journal: Med Sci Monit Basic Res Date: 2014-04-25