O. Stenqvist et al., EVALUATION OF A NEW SYSTEM FOR VENTILATORY ADMINISTRATION OF NITRIC-OXIDE, Acta anaesthesiologica Scandinavica, 37(7), 1993, pp. 687-691
A new system for delivery of nitric oxide (NO) to inspiratory gas cons
isting of two mass flow regulators and a soda-lime absorber for scaven
ging of nitrogen dioxide (NO2) is described. The system was evaluated
using three different techniques for NO analysis (infrared, chemi-lumi
nescence and electro-chemical fuel cell technique). The electro-chemic
al fuel cell was less sensitive to humidity in the sample and is suita
ble for clinical routine use. The infrared analyser was very sensitive
to humidity and the gas sample must be dried by silica gel, which abs
orbs NO2 and will cause falsely low NO2 values. NO2 was analysed with
ultra-violet methodology. NO2 is highly toxic and the highest recommen
ded occupational health and safety level for inhalation is 5 ppm. The
highest values of NO2 in our system were detected before the absorber
in the inspiratory limb of the breathing system, being 5 ppm at 100% o
xygen and 100 ppm NO using ''infant'' respiratory settings (3 l/min in
ventilation, frequency of 30/min). The corresponding value for ''adul
t'' respiratory settings (10 l/min in ventilation, frequency of 15/min
) was 3.2 ppm. The absorber reduced these levels to well below 1 ppm.
When clinically relevant levels of NO were used (20 ppm), no NO2 could
be detected after the absorber, irrespective of oxygen concentration
in the breathing gas. It was observed that gas cylinders with NO mixed
in nitrogen may initially have a high NO2 concentration (around 12 pp
m) and should be flushed thoroughly before use.