To evaluate the efficacy of a microwave radiometry system in detecting
in-line air emboli in radiographic contrast media, air emboli ranging
in volume from 0.1 to 0.005 ml were introduced into ionic (ioxaglate)
and nonionic (iohexol) contrast media at 22 of 37 degrees pumped at f
low rates of 16.7, 180 or 300 ml/min through polyvinlychloride tubing
with an inner diameter of 0.100 inches (2.54 mm) over which was fitted
a radiometer antenna connected to a Microwave Medical Systems F+ radi
ometer and a computerized data acquisition system. A total of 400 dete
rminations were run, with 10 replicate determinations for each unique
set of experimental conditions. The success of air emboli detection wa
s not significantly related to contrast media (p = 0.73) or contrast t
emperature (p = 0.68). Embolus volume (p < 0.0001) and pump speed (p <
0.0001) were significant factors affecting system performance. The sy
stem could reliable detect small (0.005 ml) emboli in both ionic and n
onionic low-osmolar contrast media.