In vitro performance of prefilled CO sub(2) absorbers with the Aisys super( registered )

Low flow anesthesia increases the use of CO sub(2) absorbents, but independent data that compare canister life of the newest CO sub(2) absorbents are scarce. Seven different pre-packed CO sub(2) canisters were tested in vitro: Amsorb Plus, Spherasorb, LoFloSorb, Medisorb, Medisorb EF, LithoLyme, and...

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Bibliographic Details
Published in:Journal of clinical monitoring and computing 2016-04, Vol.30 (2), p.193-202
Main Authors: Hendrickx, Jan FA, Ridder, Simon PAJ, Dehouwer, Alexander, Carette, Rik, Cooman, Sofie, Wolf, Andre M
Format: Article
Language:English
Subjects:
Absorbents
Anesthesia
Canisters
Carbon dioxide
Exhaustion
Granular materials
In vitro testing
Thresholds
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Summary:Low flow anesthesia increases the use of CO sub(2) absorbents, but independent data that compare canister life of the newest CO sub(2) absorbents are scarce. Seven different pre-packed CO sub(2) canisters were tested in vitro: Amsorb Plus, Spherasorb, LoFloSorb, Medisorb, Medisorb EF, LithoLyme, and SpiraLith. CO sub(2) (160 mL min super(-1)) flowed into the tip of a 2 L breathing bag that was ventilated with a tidal volume of 500 mL, a respiratory rate of 10/min, and an I:E ratio of 1:1 using the controlled mechanical ventilation mode of the Aisys super( registered ) (GE, Madison, WI, USA). In part I, canister life of each brand (all of the same lot) was tested with 12 different fresh gas flows (FGF) ranging from 0.25 to 4 L min super(-1). In part II, canister life of six canisters each of two different lots of each brand were tested with a 350 mL min super(-1) FGF. Canister life is presented as "FCU", fractional canister usage, the fraction of a canister used per hour, and is defined for the inspired CO sub(2) concentration (F sub(I)CO sub(2)) that denotes exhaustion. In part III, canister life per 100 g fresh granule content was calculated. FCU decreased linearly with increasing FGF. The relative position of the FCU-FGF curves of the different brands depends on the F sub(I)CO sub(2) threshold because the exhaustion rate (the rate of rise once F sub(I)CO sub(2) starts to increase) differs among the brands. Intra-lot variability was 18 % or less. The different prepacks can be ranked according their efficiency (least to most efficient) as follows: Amsorb Plus = Medisorb EF < LoFloSorb < Medisorb = Spherasorb = LithoLyme < SpiraLith (all for an F sub(I)CO sub(2) threshold = 0.5 %). Canister life per 100 g fresh granule content is almost twice as long when LiOH is used as the primary absorbent. The most important factors that determine canister life of prepacks in a circle breathing system are the chemical composition of the canister, the absolute amount of absorbent present in the canister, and the F sub(I)CO sub(2) replacement threshold. The use of the fractional canister usage allows cost comparisons among different prepacks. Results should not be extrapolated to prepacks that fit onto other anesthesia machines.
ISSN:1387-1307
1573-2614
DOI:10.1007/s10877-015-9699-2