Performance of a new carbon dioxide absorbent, Yabashi lime® as compared to conventional carbon dioxide absorbent during sevoflurane anesthesia in dogs

Performance of a new carbon dioxide absorbent, Yabashi lime® as compared to conventional carbon dioxide absorbent during sevoflurane anesthesia in dogs

In the present study, we compare a new carbon dioxide (CO2) absorbent, Yabashi lime® with a conventional CO2 absorbent, Sodasorb® as a control CO2 absorbent for Compound A (CA) and Carbon monoxide (CO) productions. Four dogs were anesthetized with sevoflurane. Each dog was anesthetized with four pre...

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Bibliographic Details
Published in:Journal of Veterinary Medical Science Vol. 77; no. 8; pp. 961 - 965
Main Authors: KONDOH, Kei, ATIBA, Ayman, NAGASE, Kiyoshi, OGAWA, Shizuko, MIWA, Takashi, KATSUMATA, Teruya, UENO, Hiroshi, UZUKA, Yuji
Format: Journal Article
Language:English
Published: Japan JAPANESE SOCIETY OF VETERINARY SCIENCE 01-08-2015
Japan Science and Technology Agency
The Japanese Society of Veterinary Science
Subjects:
Adsorption
Anesthesia, Closed-Circuit - instrumentation
Anesthesia, Closed-Circuit - methods
Anesthesia, Closed-Circuit - veterinary
Anesthesia, Inhalation - methods
Anesthesia, Inhalation - veterinary
Anesthetics, Inhalation
Animals
Calcium Hydroxide - therapeutic use
canine
Carbon Dioxide - blood
Carboxyhemoglobin - analysis
compound A
Dogs - surgery
Female
Male
Methyl Ethers
Oxygen - blood
Sevoflurane
Surgery
Yabashi lime
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Summary:In the present study, we compare a new carbon dioxide (CO2) absorbent, Yabashi lime® with a conventional CO2 absorbent, Sodasorb® as a control CO2 absorbent for Compound A (CA) and Carbon monoxide (CO) productions. Four dogs were anesthetized with sevoflurane. Each dog was anesthetized with four preparations, Yabashi lime® with high or low-flow rate of oxygen and control CO2 absorbent with high or low-flow rate. CA and CO concentrations in the anesthetic circuit, canister temperature and carbooxyhemoglobin (COHb) concentration in the blood were measured. Yabashi lime® did not produce CA. Control CO2 absorbent generated CA, and its concentration was significantly higher in low-flow rate than a high-flow rate. CO was generated only in low-flow rate groups, but there was no significance between Yabashi lime® groups and control CO2 absorbent groups. However, the CO concentration in the circuit could not be detected (≤5ppm), and no change was found in COHb level. Canister temperature was significantly higher in low-flow rate groups than high-flow rate groups. Furthermore, in low-flow rate groups, the lower layer of canister temperature in control CO2 absorbent group was significantly higher than Yabashi lime® group. CA and CO productions are thought to be related to the composition of CO2 absorbent, flow rate and canister temperature. Though CO concentration is equal, it might be safer to use Yabashi lime® with sevoflurane anesthesia in dogs than conventional CO2 absorbent at the point of CA production.
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content type line 23
ISSN:0916-7250
1347-7439
DOI:10.1292/jvms.14-0279