Dielectrophoretic separation of mammalian cells studied by computerized image analysis

Abstract

A method was developed for studying the dielectrophoretic properties of both homogeneous and mixed populations of mammalian cells. Computerized image analysis was employed to quantify the rate of motion of cells suspended in low conductivity medium as they moved under the influence of a non-uniform alternating electric field produced by an interdigitated electrode array. As expected for dielectrophoresis, cells collected at highly inhomogeneous electric field regions of the array when the electrical polarizability of cells exceeded that of the suspending medium or away from such regions when their polarizability was less than that of their medium. These two types of behaviour are classified as positive or negative dielectrophoresis respectively, and the cell collection patterns agreed well with those computed for the electrode configuration employed. The dielectrophoretic characteristics of normal, leukaemic, and differentiation-induced leukaemic mouse erythrocytes were measured as a function of frequency in the range 5*10²-10⁵ Hz and were shown to be significantly different.