Circuit Oxygenator Contributes to Extracorporeal Membrane Oxygenation–Induced Hemolysis

Hemolysis can occur as a consequence of extracorporeal membrane oxygenation (ECMO) and is associated with increased mortality and morbidity. Shear stress generated by flow through the circuit and oxygenator is believed to cause ECMO-induced hemolysis. We hypothesize that either a smaller dimension o...

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Veröffentlicht in:	ASAIO journal (1992) 2015-03, Vol.61 (2), p.190-195
Hauptverfasser:	Williams, Duane C, Turi, Jennifer L, Hornik, Christoph P, Bonadonna, Desiree K, Williford, Walter L, Walczak, Richard J, Watt, Kevin M, Cheifetz, Ira M
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Sprache:	eng
Schlagworte:	Adult Child Equipment Design Extracorporeal Membrane Oxygenation - adverse effects Extracorporeal Membrane Oxygenation - instrumentation Hemofiltration - adverse effects Hemofiltration - instrumentation Hemoglobins - metabolism Hemolysis Humans In Vitro Techniques Oxygenators, Membrane - adverse effects Plasma - metabolism Pressure
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container_issue	2
container_start_page	190
container_title	ASAIO journal (1992)
container_volume	61
creator	Williams, Duane C Turi, Jennifer L Hornik, Christoph P Bonadonna, Desiree K Williford, Walter L Walczak, Richard J Watt, Kevin M Cheifetz, Ira M
description	Hemolysis can occur as a consequence of extracorporeal membrane oxygenation (ECMO) and is associated with increased mortality and morbidity. Shear stress generated by flow through the circuit and oxygenator is believed to cause ECMO-induced hemolysis. We hypothesize that either a smaller dimension oxygenator or an in-line hemofilter will increase ECMO-associated hemolysis. Circuits were configured with a Quadrox-D Adult oxygenator (surface area 1.8 m), Quadrox-iD Pediatric oxygenator (surface area 0.8 m), or Quadrox-D Adult oxygenator with an in-line hemofilter (N = 4) and ran for 6 hours. Samples were collected hourly from the ECMO circuit and a time-based hemolysis control. Plasma hemoglobin levels were assayed. Circuit-induced hemolysis at each time point was defined as the change in plasma hemoglobin standardized to the time-based hemolysis control. Plasma hemoglobin increased with the use of the smaller dimension pediatric oxygenator as compared with the adult oxygenator when controlling for ECMO run time (p = 0.02). Furthermore, there was a greater pressure gradient with the smaller dimension pediatric oxygenator (p < 0.05). Plasma hemoglobin did not change with the addition of the in-line hemofilter. The use of a smaller dimension pediatric oxygenator resulted in greater hemolysis and a higher pressure gradient. This may indicate that the increased shear forces augment ECMO-induced hemolysis.
doi_str_mv	10.1097/MAT.0000000000000173
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Shear stress generated by flow through the circuit and oxygenator is believed to cause ECMO-induced hemolysis. We hypothesize that either a smaller dimension oxygenator or an in-line hemofilter will increase ECMO-associated hemolysis. Circuits were configured with a Quadrox-D Adult oxygenator (surface area 1.8 m), Quadrox-iD Pediatric oxygenator (surface area 0.8 m), or Quadrox-D Adult oxygenator with an in-line hemofilter (N = 4) and ran for 6 hours. Samples were collected hourly from the ECMO circuit and a time-based hemolysis control. Plasma hemoglobin levels were assayed. Circuit-induced hemolysis at each time point was defined as the change in plasma hemoglobin standardized to the time-based hemolysis control. Plasma hemoglobin increased with the use of the smaller dimension pediatric oxygenator as compared with the adult oxygenator when controlling for ECMO run time (p = 0.02). Furthermore, there was a greater pressure gradient with the smaller dimension pediatric oxygenator (p < 0.05). Plasma hemoglobin did not change with the addition of the in-line hemofilter. The use of a smaller dimension pediatric oxygenator resulted in greater hemolysis and a higher pressure gradient. 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Furthermore, there was a greater pressure gradient with the smaller dimension pediatric oxygenator (p < 0.05). Plasma hemoglobin did not change with the addition of the in-line hemofilter. The use of a smaller dimension pediatric oxygenator resulted in greater hemolysis and a higher pressure gradient. 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subjects	Adult Child Equipment Design Extracorporeal Membrane Oxygenation - adverse effects Extracorporeal Membrane Oxygenation - instrumentation Hemofiltration - adverse effects Hemofiltration - instrumentation Hemoglobins - metabolism Hemolysis Humans In Vitro Techniques Oxygenators, Membrane - adverse effects Plasma - metabolism Pressure
title	Circuit Oxygenator Contributes to Extracorporeal Membrane Oxygenation–Induced Hemolysis
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