Literature DB >> 16350377

Gaseous microemboli and the influence of microporous membrane oxygenators.

Heinz-H Weitkemper1, Bernd Oppermann, Andreas Spilker, Hermann-J Knobl, Reiner Körfer.   

Abstract

Gaseous microemboli (GME) are still an unsolved problem of extracorporeal circuits. They are associated with organ injury during cardiopulmonary bypass. Microbubbles of different sizes and number are generated in the blood as the result of different components of the extracorporeal circuit as well as surgical maneuvers. The aim of our study was to observe the behavior of microporous membrane oxygenators to GME in the daily use and in an in vitro model. For the detection of microbubbles, we used a two-channel ultrasonic bubble counter based on 2-MHz Doppler-System with special ultrasound probes. The amount and size of GME were monitored before and after membrane. In 28 scheduled cases with 3 different oxygenators and variability of surgical procedures, we observed the bubble activity in the extracorporeal circuit. In addition, we used an in-vitro model to study the ability of six different oxygenators by removing air in various tests. The oxygenators tested were manufactured with different membrane technologies. The results of our investigations showed varying membrane design lead to a partial removal of GME as well as a change in size and numbers of microbubbles.

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Year:  2005        PMID: 16350377      PMCID: PMC4680782     

Source DB:  PubMed          Journal:  J Extra Corpor Technol        ISSN: 0022-1058


  13 in total

Review 1.  The pathophysiology of cerebral arterial gas embolism.

Authors:  Simon Mitchell; Des Gorman
Journal:  J Extra Corpor Technol       Date:  2002-03

2.  Improved methods for measurement of gaseous microbubbles during extracorporeal circulation.

Authors:  Simon Urbanek; Hans-Jürgen Tiedtke
Journal:  Perfusion       Date:  2002-11       Impact factor: 1.972

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Journal:  J Thorac Cardiovasc Surg       Date:  2001-04       Impact factor: 5.209

Review 4.  Bubbles and bypass: an update.

Authors:  Mark Kurusz; Bruce D Butler
Journal:  Perfusion       Date:  2004       Impact factor: 1.972

5.  Demonstration of cerebral microemboli occurring during coronary artery bypass graft surgery using fluorescein angiography.

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Journal:  J Audiov Media Med       Date:  1990-07

6.  Clinical comparison of two devices for detection of microemboli during cardiopulmonary bypass.

Authors:  R H Clayton; D T Pearson; A Murray
Journal:  Clin Phys Physiol Meas       Date:  1990-11

7.  The effectiveness of low-prime cardiopulmonary bypass circuits at removing gaseous emboli.

Authors:  Matthew J Norman; Joseph J Sistino; Jeffrey R Acsell
Journal:  J Extra Corpor Technol       Date:  2004-12

Review 8.  Cerebral emboli and cognitive outcome after cardiac surgery.

Authors:  D A Stump; A T Rogers; J W Hammon; S P Newman
Journal:  J Cardiothorac Vasc Anesth       Date:  1996-01       Impact factor: 2.628

9.  Cerebral microemboli during cardiopulmonary bypass: increased emboli during perfusionist interventions.

Authors:  R L Taylor; M A Borger; R D Weisel; L Fedorko; C M Feindel
Journal:  Ann Thorac Surg       Date:  1999-07       Impact factor: 4.330

10.  Brain embolic phenomena associated with cardiopulmonary bypass.

Authors:  V R Challa; D M Moody; B T Troost
Journal:  J Neurol Sci       Date:  1993-07       Impact factor: 3.181
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  9 in total

1.  In vitro evaluation of gaseous microemboli handling of cardiopulmonary bypass circuits with and without integrated arterial line filters.

Authors:  Saifei Liu; Richard F Newland; Phillip J Tully; Sigrid C Tuble; Robert A Baker
Journal:  J Extra Corpor Technol       Date:  2011-09

2.  Evidence-based used, yet still controversial: the arterial filter.

Authors:  Filip De Somer
Journal:  J Extra Corpor Technol       Date:  2012-03

3.  Sequential Blood Filtration for Extracorporeal Circulation: Initial Results from a Proof-of-Concept Prototype.

Authors:  Daniel P Herbst
Journal:  J Extra Corpor Technol       Date:  2014-09

4.  In vitro evaluation of the air separation ability of four cardiovascular manufacturer extracorporeal circuit designs.

Authors:  Timothy A Dickinson; Jeffrey B Riley; Jeffrey C Crowley; Paul M Zabetakis
Journal:  J Extra Corpor Technol       Date:  2006-09

5.  Application of Micropore Filter Technology: Exploring the Blood Flow Path in Arterial-Line Filters and Its Effect on Bubble Trapping Functions.

Authors:  Daniel P Herbst
Journal:  J Extra Corpor Technol       Date:  2017-03

6.  Endogenous gas formation--an in vitro study with relevance to gas microemboli during cardiopulmonary bypass.

Authors:  Lena Lindholm; Karl Gunnar Engström
Journal:  J Extra Corpor Technol       Date:  2012-09

7.  Gaseous microemboli: do we finally start to comprehend how to remove them?

Authors:  Filip De Somer
Journal:  J Extra Corpor Technol       Date:  2014-03

8.  Post-arterial filter gaseous microemboli activity of five integral cardiotomy reservoirs during venting: an in vitro study.

Authors:  Gerard J Myers; Cheri Voorhees; Rob Haynes; Bob Eke
Journal:  J Extra Corpor Technol       Date:  2009-03

9.  Neural network-based modeling of the number of microbubbles generated with four circulation factors in cardiopulmonary bypass.

Authors:  Satoshi Miyamoto; Zu Soh; Shigeyuki Okahara; Akira Furui; Taiichi Takasaki; Keijiro Katayama; Shinya Takahashi; Toshio Tsuji
Journal:  Sci Rep       Date:  2021-01-12       Impact factor: 4.379
  9 in total

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