Issue |
J Extra Corpor Technol
Volume 44, Number 2, June 2012
|
|
---|---|---|
Page(s) | 53 - 59 | |
DOI | https://doi.org/10.1051/ject/201244053 | |
Published online | 15 June 2012 |
Original Articles
Oxygenator Safety Evaluation: A Focus on Connection Grip Strength and Arterial Temperature Measurement Accuracy
* Flinders Medical Centre and Flinders University, Bedford Park, South Australia, Australia
† Ashford Hospital, Ashford, South Australia, Australia
Address correspondence to: Richard F. Newland, BSc, Dip Perf, CCP (Aust), Cardiac Surgery Research and Perfusion, Flinders Medical Centre and Flinders University, 1 Flinders Drive, Bedford Park, SA 5042, Australia. E-mail: richard.newland@flinders.edu.au
Received:
15
November
2011
Accepted:
30
April
2012
This report describes the assessment of three specific safety-related specifications in the consideration of an alternate oxygenator; first the grip strength relationship between various oxygenator connectors and SMARxT® tubing, second, the grip strength of various biopassive tubings and an isolated SMARxT® connector, and finally, the accuracy of the arterial outlet temperature measurement. Grip strength experiments for the connections between the SMARxT® tubing and the venous reservoir outlet and the oxygenator venous inlet and oxygenator arterial outlet of the Medtronic Affinity®, Sorin Synthesis®, Sorin Primox®, and Terumo Capiox® RX25 oxygenators were performed. In addition we compared the grip strength of polyvinyl chloride, Physio®, Trillium®, Carmeda®, X-Coating®, and SMARxT® tubing. The accuracy of the integrated arterial outlet temperature probes was determined by comparing the temperatures measured by the integrated probe with a precision reference thermometer. Connector grip strength comparisons for the evaluation oxygenators with SMARxT® tubing showed significant variation between oxygenators and connections (p = .02). Evaluation of the arterial outlet showed significant variation between evaluation oxygenators, while at the venous reservoir outlet and oxygenator inlet, there were no significant differences. Grip strength comparison data for the various tubing types demonstrated a main effect for tubing type F(5, 18) = 8.01, p = .002, ηp2 = .77. Temperature accuracy measurements demonstrated that all oxygenators overread the arterial outlet temperature at 15°C, whilst at temperatures ≥25°C, all oxygenators underread the arterial outlet temperature. The integrity of SMARxT® tubing connection is influenced by the connector type, and may decline over time, highlighting the importance to not consider interchanging components of the bypass circuit as inconsequential.
Key words: cardiopulmonary bypass / tubing / temperature accuracy / rewarming / safety / cardiac surgery
© 2012 AMSECT
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