Methods and devices for sorting cells and other biological particulates

Abstract

An optical pattern-driven light induced dielectrophoresis (DEP) apparatus and separation methods are described which provide for the manipulation of particles or cells and selection based on traits correlated with the DEP response. Embodiments of the apparatus use DEP electric field patterns in combination with microfluidic laminar flows to measure response, separate, segregate and extract particles from heterogeneous mixtures according to the relative response of the particles to one or more DEP fields without damaging living cells. The preferred OET-DEP devices generally comprise a planar liquid-filled structure having one or more portions which are photoconductive to convert incoming light to a localized virtual electrode with a DEP electric field gradient of selected intensity along with input and a plurality of output fluidic channels. The light patterns are dynamically generated to provide a number of manipulation structures that can manipulate single particles and cells or groups of particles/cells. The methods are particularly suited for selecting and extracting the best sperm and embryo candidates based on fitness for use with existing artificial reproduction procedures and excluding defective or non-viable gametes.