Abstract: A combined impedance and fluorescence particle detection system including an optically transmissive plate having an orifice for the flow of particles therethrough, a light source which operably directs light on a particle at the orifice, and a light detector positioned so as to detect light which is emitted by the particle, and wherein the plate acts as a waveguide to direct light along part of its path between the light source and light detector.

Abstract: A combined impedance and fluorescence particle detecting system comprising a divider separating a first and a second chamber, the divider having a small orifice enabling flow of liquid sample between the chambers, and technique for determining an impedance signal representative of variations in impedance at the orifice due to the flow therethrough of particles within the liquid sample; a light source for irradiating the particles within the orifice and a detector for receiving a fluorescence signal emitted by the particles within the orifice, such that the impedance signal and fluorescence signal are substantially synchronous and wherein the divider comprises a plate through which the orifice passes, the plate being disposed within the system such that the direction of measurement of impedance and the incident direction of light at the orifice are both substantially perpendicular to the plane of the plate.