Dual dielectropheretic membrane for monitoring cell migration

What is claimed is: 1. A dual dielectropheretic article for monitoring cell migration, the dual dielectropheretic article comprising: a membrane to selectively migrate a plurality of cells across the membrane, the membrane comprising: a first surface to receive the cells; a second surface opposed to the first surface; and a plurality of communication paths disposed in the membrane to provide the selective migration of the cells across the membrane from the first surface to the second surface; a first electrode disposed on the first surface to: provide an electric field for dielectrophoresis of the cells at the first surface; and provide a first potential for monitoring an impedance at the first surface; a third electrode disposed on the second surface to: provide an electric field for dielectrophoresis of the cells at the second surface; and provide a third potential for monitoring an impedance at the second surface, a second electrode disposed on the first surface to: provide the electric field, in combination with the first electrode, for dielectrophoresis of the cells at the first surface; and provide a second potential for monitoring the impedance at the first surface; and a fourth electrode disposed on the second surface to: provide the electric field, in combination with the third electrode, for dielectrophoresis of the cells at the second surface; and provide a fourth potential for monitoring the impedance at the second surface. 2. The dual dielectropheretic article of claim 1 , further comprising: a substrate on which the membrane is disposed. 3. The dual dielectropheretic article of claim 2 , further comprising: a first flow channel disposed on the substrate and in fluid communication with the first surface to provide the cells to the first surface for dielectrophoresis of the cells at the first surface and selective migration through the membrane from the first surface to the second surface. 4. The dual dielectropheretic article of claim 2 , further comprising: a second flow channel disposed on the substrate and in fluid communication with the second surface to receive the cells from the second surface after selective migration of the cells to the second surface from the first surface via communication of the cells through the membrane. 5. The dual dielectropheretic article of claim 3 , further comprising: a first probe electrode disposed on the substrate and in electrical communication with the first flow channel to provide a fifth potential for monitoring, in combination with the first electrode, the impedance at the first surface of the membrane, wherein the first probe electrode is spatially separated from the membrane. 6. The dual dielectropheretic article of claim 4 , further comprising: a second probe electrode disposed on the substrate and in electrical communication with the second flow channel to provide a sixth potential for monitoring, in combination with the third electrode, the impedance at the second surface of the membrane, wherein the second probe electrode is spatially separated from the membrane. 7. The dual dielectropheretic article of claim 1 , further comprising: a substrate on which the membrane is disposed; a first flow channel disposed on the substrate and in fluid communication with the first surface to provide the cells to the first surface for dielectrophoresis of the cells at the first surface and selective migration through the membrane from the first surface to the second surface; a second flow channel disposed on the substrate and in fluid communication with the second surface to receive the cells from the second surface after selective migration of the cells to the second surface from the first surface via communication of the cells through the membrane; a first probe electrode disposed on the substrate and in electrical communication with the first flow channel to provide a fifth potential for monitoring, in combination with the first electrode, the impedance at the first surface of the membrane, wherein the first probe electrode is spatially separated from the membrane; and a second probe electrode disposed on the substrate and in electrical communication with the second flow channel to provide a sixth potential for monitoring, in combination with the third electrode, the impedance at the second surface of the membrane, wherein the second probe electrode is spatially separated from the membrane. 8. The dual dielectropheretic article of claim 7 , further comprising: an impedance analyzer in electrical communication with the first electrode and the second electrode. 9. The dual dielectropheretic article of claim 8 , wherein: the impedance analyzer further is in electrical communication with the first probe electrode and the second probe electrode; the impedance at the first surface is with respect to an impedance between the first electrode and the first probe electrode; and the impedance at the second surface is with respect to an impedance between the third electrode and the second probe electrode. 10. The dual dielectropheretic article of claim 8 , wherein: the impedance analyzer further is in electrical communication with the second electrode and the fourth electrode; the impedance at the first surface is with respect to an impedance between the first electrode and the second electrode; and the impedance at the second surface is with respect to an impedance between the third electrode and the fourth electrode. 11. The dual dielectropheretic article of claim 8 , wherein the impedance at the first surface and the impedance at the second surface is with respect to an impedance between the first electrode and the third electrode. 12. The dual dielectropheretic article of claim 4 , further comprising: an optical objective disposed proximate to the second flow channel and second surface and in optical communication with the second surface, wherein the optical objective comprises a field of view that includes the second surface such that cells received at the second surface by communication from the first surface through the membrane are within the field of view of the optical objective. 13. The dual dielectropheretic article of claim 1 , further comprising: a cell adhesive material disposed on the first surface, the second surface, or a combination of the first surface and the second surface, the cell adhesive material to adhere cells to the first surface, the second surface, or the combination of the first surface and the second surface on which the cell adhesive material is disposed, wherein the cell adhesive material comprises an extracellular matrix component, a polyelectrolyte, or a combination comprising at least one of the foregoing cell adhesive materials. 14. The dual dielectropheretic article of claim 1 , wherein the communication path comprises an open pore. 15. The dual dielectropheretic article of claim 14 , wherein the open pores comprise a diameter from 2 nm to 100 μm to provide selective migration of cells across the membrane from the first surface to the second surface. 16. The dual dielectropheretic article of claim 14 , wherein the open pores are disposed in an ordered arrangement in the membrane. 17. The dual dielectropheretic article of claim 14 , wherein the open pores are disposed in a random arrangement in the membrane. 18. The dual dielectropheretic article of claim 1 , wherein the first electrode and the third electrode independently comprise a metal, an electrically conductive polymer, an electrically conductive glass, an