Literature DB >> 19730004

The relationships between air exposure, negative pressure, and hemolysis.

Joshua R Pohlmann1, John M Toomasian, Claire E Hampton, Keith E Cook, Gail M Annich, Robert H Bartlett.   

Abstract

The purpose of this study was to describe the hemolytic effects of both negative pressure and an air-blood interface independently and in combination in an in vitro static blood model. Samples of fresh ovine or human blood (5 ml) were subjected to a bubbling air interface (0-100 ml/min) or negative pressure (0-600 mm Hg) separately, or in combination, for controlled periods of time and analyzed for hemolysis. Neither negative pressure nor an air interface alone increased hemolysis. However, when air and negative pressure were combined, hemolysis increased as a function of negative pressure, the air interface, and time. Moreover, when blood samples were exposed to air before initiating the test, hemolysis was four to five times greater than samples not preexposed to air. When these experiments were repeated using freshly drawn human blood, the same phenomena were observed, but the hemolysis was significantly higher than that observed in sheep blood. In this model, hemolysis is caused by combined air and negative pressure and is unrelated to either factor alone.

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Year:  2009        PMID: 19730004      PMCID: PMC3662481          DOI: 10.1097/MAT.0b013e3181b28a5a

Source DB:  PubMed          Journal:  ASAIO J        ISSN: 1058-2916            Impact factor:   2.872


  24 in total

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Authors:  Kenneth G Shann; Donald S Likosky; John M Murkin; Robert A Baker; Yvon R Baribeau; Gordon R DeFoe; Timothy A Dickinson; Timothy J Gardner; Hilary P Grocott; Gerald T O'Connor; David J Rosinski; Frank W Sellke; Timothy W Willcox
Journal:  J Thorac Cardiovasc Surg       Date:  2006-08       Impact factor: 5.209

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6.  Pericardial suction blood separation attenuates inflammatory response and hemolysis after cardiopulmonary bypass.

Authors:  Christian A Skrabal; Amir Khosravi; Yeong H Choi; Alexander Kaminski; Bernd Westphal; Gustav Steinhoff; Andreas Liebold
Journal:  Scand Cardiovasc J       Date:  2006-08       Impact factor: 1.589

7.  Brain microemboli associated with cardiopulmonary bypass: a histologic and magnetic resonance imaging study.

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8.  An ultrasonic analysis of the comparative efficiency of various cardiotomy reservoirs and micropore blood filters.

Authors:  D T Pearson; B G Watson; P S Waterhouse
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9.  Hydrodynamic hemolysis in extracorporeal machines.

Authors:  K A Yarborough; L F Mockros; F J Lewis
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  8 in total

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Review 2.  Renal replacement therapy in critically ill patients receiving extracorporeal membrane oxygenation.

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Journal:  Clin J Am Soc Nephrol       Date:  2012-04-12       Impact factor: 8.237

3.  Effect of air exposure and suction on blood cell activation and hemolysis in an in vitro cardiotomy suction model.

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Journal:  ASAIO J       Date:  2013 Sep-Oct       Impact factor: 2.872

4.  Nitric Oxide Attenuates the Inflammatory Effects of Air During Extracorporeal Circulation.

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Journal:  ASAIO J       Date:  2020-07       Impact factor: 3.826

5.  Inflammatory Effects of Blood-Air Interface in a Porcine Cardiopulmonary Bypass Model.

Authors:  Benjamin D Carr; Thomas J Johnson; Amalia Gomez-Rexrode; Azmath Mohammed; Megan Coughlin; John M Toomasian; Alvaro Rojas-Pena; Robert H Bartlett; Jonathan W Haft
Journal:  ASAIO J       Date:  2020-01       Impact factor: 3.826

6.  Comparison of effectiveness of the piston-pump method versus the pressure-infusor method for rapid infusion of crystalloids: A bench study.

Authors:  Wataru Hashimoto; Ichiro Takenaka; Keisuke Yasunami; Tomoko Minami; Haruhiko Sano
Journal:  Indian J Anaesth       Date:  2020-12-12

7.  Hemolysis and Inflammatory Response to Extracorporeal Circulation during On-Pump CABG: Comparison between Roller and Centrifugal Pump Systems.

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8.  Extracorporeal Hyperoxygenation Therapy (EHT) for Carbon Monoxide Poisoning: In-Vitro Proof of Principle.

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  8 in total

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