Ads. Shaw et al., NITROUS-OXIDE AND CARBON-DIOXIDE HAVE NO EFFECT ON THE BLOOD-GAS SOLUBILITIES OF SEVOFLURANE AND ISOFLURANE, Anesthesia and analgesia, 87(6), 1998, pp. 1412-1415
Nitrous oxide (N2O) has been shown to decrease the solubility (lambda(
B:G)) of volatile anesthetics in human blood and, consequently, affect
their rate of uptake. If this is true, then carbon dioxide (CO2) may
also have an effect, which is important because methods that measure t
he tension of volatile anesthetics in blood washout CO, in the process
. Blood samples were obtained from fasted, healthy volunteers and pati
ents undergoing major surgery. Each sam pie was divided into two aliqu
ots: one was equilibrated at 37 degrees C in a closed glass tonometer
with a mixture of isoflurane 1% and sevoflurane 2% in a test gas mixtu
re of either 50:50 N2O/O-2 or 5:95 CO2/O-2; the other aliquot was equi
librated with isoflurane and sevoflurane in O-2 alone as a control. Us
ing a two-stage headspace technique using gas chromatography, we measu
red the lambda(B:G) of isoflurane and sevoflurane in the presence and
absence of the test gas in each subject. There was no significant diff
erence between the lambda(B:G) of sevoflurane and isoflurane obtained
from the N2O group and their controls or between the CO2 group and the
ir controls. We conclude that neither N2O nor CO2 has an effect on the
lambda(B:G) of sevoflurane or isoflurane in the concentrations tested
. Implications: The blood solubilities of sevoflurane and isoflurane w
ere measured with and without nitrous oxide and carbon dioxide. No dif
ferences were found. Nitrous oxide does not affect the kinetics of oth
er anesthetics by altering their solubility. Carbon dioxide tensions n
eed not be controlled when measuring anesthetic tensions in blood.