Distinguishing between activated and nonactivated eosinophils by AC impedance measurements

A cellular electrical impedance device which can detect the activated state of eosinophils has been developed and tested. This impedance device consists of a small gold electrode (50 μm×50 μm) and a large gold electrode (1.5 cm×0.5 cm) on a glass substrate, and it was fabricated by standard photolithographic techniques. Eosinophils, which belong to the granulocytic class of white blood cells, exhibit different physical properties when they change from the nonactivated state to the activated state. Hypothetically, these changes should correspond to a change in the measured electrical impedance. In this paper, data from the measured electrical impedance of eosinophils is presented. The measurements show that the average impedance of the activated eosinophils is 26% lower than the average impedance of the nonactivated eosinophils. Statistical analysis of the measured data shows that there is a significant difference between the measured impedances of activated and nonactivated eosinophils.