Bipolar electrode for the impedimetric examination and manipulation of living cells in vitro

The invention claimed is: 1. An electrode array adapted for being wetted with an electrolyte solution and for adherently growing cells in order to perform impedimetric cell analysis comprising: a bipolar electrode on a substrate, wherein said bipolar electrode is formed as a conductive path on said substrate; wherein said bipolar electrode has an inherent resistance between two connecting points of said conductive path which is a multiple of an AC impedance of said electrolyte solution at 1 MHz, as measured at said two connecting points, wherein said two connecting points are configured to be connected with an impedance analyzer and receive an alternating voltage or an alternating current with a low, non-invasive amplitude; and wherein an anode and a cathode of the bipolar electrode are at the same time disposed in a continuous conductive film representing the conductive path due to the resistance of the bipolar electrode being high. 2. The electrode array according to claim 1 , wherein said substrate and said conductive path are transparent in a measuring region intended for adherent cells. 3. The electrode array according to claim 2 , wherein said transparent substrate is glass, polycarbonate, polyethylene terephthalate (PET), a porous membrane, or polyethylene naphthalate (PEN). 4. The electrode array according to claim 1 , wherein the inherent resistance of said bipolar electrode is at least 300Ω. 5. The electrode array according to claim 1 , wherein said bipolar electrode is a gold film with a layer thickness between 10 nm to 30 nm. 6. The electrode array according to claim 1 , wherein said bipolar electrode comprises at least one elongate narrow region having a length that is at least ten times a width. 7. The electrode array according to claim 6 , wherein said elongate narrow region is U-shaped, L-shaped, or of a meandering shape. 8. The electrode array according to claim 1 , wherein said bipolar electrode comprises at least one planar narrow region having a length that is less than ten times a width. 9. The electrode array according to claim 1 , further comprising an insulating layer covering said bipolar electrode and comprising at least two recesses at defined locations above said bipolar electrode. 10. The electrode array according to claim 1 , further comprising a boundary above said bipolar electrode with which a measuring chamber is defined. 11. The electrode array according to claim 10 , wherein said boundary is made of material that is compatible to cell cultures. 12. The electrode array of claim 1 , wherein said bipolar electrode is a film electrode made of gold, indium tin oxide (ITO), conductive polymers, polyaniline, polypyrrole, polythiophene, PEDOT, or their doped and/or chemically modified variants. 13. A measuring device for impedimetric cell analysis comprising: a support device holding a chip with an electrode array on a transparent carrier material wherein the electrode array comprises a bipolar electrode on a substrate adapted for being wetted with an electrolyte solution and for adherently growing cells in order to perform the impedimetric cell analysis, wherein an anode and a cathode of the bipolar electrode are at the same time disposed in a continuous conductive film representing the conductive path due to a high inherent resistance of the bipolar electrode; an impedance analyzer which is electrically connectable to two connecting points of said electrode array; and a fluorescence microscope arranged such that a cell culture on said electrode array can be examined from a back side direction of said chip with said fluorescence microscope and an electrical measurement or manipulation can be monitored optically in parallel; wherein said bipolar electrode is formed as a conductive path on said substrate; and wherein said bipolar electrode has an inherent resistance between two connecting points of said conductive path which is a multiple of an AC impedance of an electrolytic solution at 1 MHz, as measured at said two connecting points. 14. The electrode array of claim 11 , wherein the boundary is glass or polystyrene. 15. The electrode array of claim 1 , wherein said bipolar electrode has an inherent resistance of at least at least 600 Ω. 16. The electrode array of claim 1 , wherein said bipolar electrode has an inherent resistance of at least 1200 Ω. 17. The electrode array according to claim 12 , wherein said film electrode was photolithographically structured in a wet-chemical etching process.