Medical treatment system and methods using a plurality of fluid lines

The invention claimed is: 1. A dialysis system comprising: a pumping cassette having a generally planar body and a first flexible membrane on a side of the cassette having a pumping chamber portion overlying a pumping chamber on the cassette; and a cycler having a control surface including a second flexible membrane having a movable portion arranged to contact and mate with the pumping chamber portion of the first flexible membrane, the cycler being arranged to control pneumatic pressure on a side of the movable portion of the second flexible membrane to move the movable portion of the second flexible membrane while mated with the pumping chamber portion of the first flexible membrane and thereby to move the pumping chamber portion of the first flexible membrane to cause fluid flow in the pumping chamber, the cycler further including at least one port at the control surface arranged to apply vacuum to remove fluid from a space between the pumping chamber portion of the first flexible membrane and the movable portion of the second flexible membrane to draw the pumping chamber portion and the movable portion toward each other such that the pumping chamber portion and the movable portion remain continuously mated and in contact so as to move with each other while causing fluid flow in the pumping chamber, the at least one port also arranged to introduce fluid into the space to move the first and second flexible membranes away from each other when separating the pumping cassette from the cycler; the cycler further including a fluid trap in fluid communication with the at least one port and arranged to collect liquid that leaks from the pumping cassette and enters between the first flexible membrane and second flexible membrane, and in valved fluid communication with a positive pressure source and a negative pressure source for introduction or removal of said fluid with respect to said space; wherein the pumping cassette including the first flexible membrane is separable from the cycler including the second flexible membrane, and the fluid trap includes a liquid detector. 2. The system of claim 1 , wherein the at least one port includes a vacuum port arranged to selectively remove fluid in the space between the first and second flexible membranes, or introduce fluid into the space between the first and second flexible membranes. 3. The system of claim 2 , wherein the fluid removed between the first and second flexible membranes includes air or liquid, and the fluid introduced into the space includes air. 4. The system of claim 1 , wherein the control surface is a sheet of resilient polymer material. 5. The system of claim 1 , wherein the control surface includes a plurality of movable portions, at least one movable portion being arranged to interact with the pumping chamber portion of the first flexible membrane overlying the pumping chamber, and at least one other movable portion being arranged to interact with another portion of the first flexible membrane to control flow in a channel of the pumping cassette. 6. The system of claim 1 , wherein the control surface includes a plurality of ports to remove fluid in spaces between the first and second flexible membranes. 7. The system of claim 6 , wherein the plurality of ports are also arranged to introduce fluid into the spaces between the first and second flexible membranes. 8. The system of claim 1 , wherein the cycler includes a valved manifold to control flow of negative and positive pressure to the at least one port. 9. The system of claim 8 , wherein the valved manifold is controllable to selectively provide negative pressure to the at least one port and positive pressure to the at least one port. 10. The system of claim 1 , wherein the at least one port includes a hole in the second flexible membrane. 11. The system of claim 1 , wherein introduction of fluid into the space between the first and second flexible membranes assists in separating the pumping cassette from the control surface of the cycler. 12. The system of claim 1 , wherein the cycler includes a pressure delivery block that backs the control surface and includes control chambers or depressions in association with corresponding control regions of the control surface, each control chamber or depression being arranged to move the corresponding control region based on a fluid pressure in the control region or depression. 13. The system of claim 1 further comprising: a base unit comprising the positive pressure source, the negative pressure source, a pressure distribution manifold, a pressure delivery block, and the control surface; the pressure distribution manifold comprising valved channels between the positive and negative pressure sources and the pressure delivery block; and the pressure delivery block comprising a depression in valved fluid communication with the positive and negative pressure sources; wherein the second flexible membrane is positioned on the pressure delivery block so as to be interposed between the first flexible membrane of the cassette and the depression of the pressure delivery block; wherein the pressure distribution manifold includes the fluid trap and is configured to provide a valved channel between the negative pressure source and the fluid trap, and the pressure distribution manifold is configured to provide a valved channel between the positive pressure source and the fluid trap. 14. The system of claim 1 , wherein the liquid detector comprises an electrical conductivity sensor. 15. The system of claim 1 , further comprising a controller configured to receive a signal from the liquid detector and to generate an alert, close one or more liquid inlet valves of the pumping cassette, or cease a pumping operation of the pumping cassette upon detection of liquid in the fluid trap. 16. The system of claim 15 , wherein the controller is configured to control a first valve to fluidically connect the negative pressure source with the at least one port during operation of the pumping cassette, and to control a second valve to fluidically connect the positive pressure source with the at least one port for separation of the pumping cassette from the cycler. 17. The system of claim 15 , further comprising a pressure sensor in fluid communication with the fluid trap, the pressure sensor configured to provide pressure data to the controller. 18. A dialysis system comprising: a pumping cassette having a generally planar body and a first flexible membrane on a side of the cassette having a pumping chamber portion overlying a pumping chamber on the cassette; and a cycler having a control surface including a second flexible membrane having a movable portion arranged to contact and mate with the pumping chamber portion of the first flexible membrane, the cycler being arranged to control pneumatic pressure on a side of the movable portion of the second flexible membrane to move the movable portion of the second flexible membrane while mated with the pumping chamber portion of the first flexible membrane and thereby to move the pumping chamber portion of the first flexible membrane to cause fluid flow in the pumping chamber, the cycler further including at least one port at the control surface arranged to apply vacuum to remove fluid from a space between the pumping chamber portion of the first flexible membrane and the movable portion of the second flexible membrane to draw the pumping chamber portion and the movable portion toward each other such that the pumping chamber portion and the movable portion remain continuously mated and in co