Aseptic filter vent valve and port for integrity testing

What is claimed is: 1. A filter capsule that supports direct integrity testing of an internal filter element, comprising: a filter housing comprising an inlet port, an outlet port spaced from the inlet port, a housing volume between the inlet port and the outlet port and containing a filter element, a vent assembly, and an integrity test assembly integral to said filter capsule providing a direct aseptic connection to said filter element, wherein said integrity test assembly comprises a port on the filter housing and a valve configured to connect to integrity testing hardware positioned in said port on the filter housing. 2. The filter capsule of claim 1 , wherein the vent assembly and integrity test assembly are aseptic. 3. The filter capsule of claim 1 , wherein a fluid passes from the inlet port to the outlet port through the filter element, and the integrity test assembly is located on an upstream side of the filter element. 4. The filter capsule of claim 1 , further comprising a first handle protecting the integrity test assembly from accidental contact, and a second handle protecting the vent assembly from accidental contact. 5. The filter capsule of claim 1 , further comprising feet. 6. The filter capsule of claim 1 , wherein the integrity test assembly comprises: a body having a bore formed through at least a portion of its interior, the bore including a cam slot; a movable plunger positioned within the bore, the plunger having a shape corresponding to that of the bore, the movable plunger further comprising: an outer surface; a cam formed on the outer surface and contained within the cam slot; and an actuator to move the plunger within the bore between a closed position and an open position; one or more seals between the plunger and the body to form a liquid fluid tight seal between various portions of the plunger and the body; wherein the cam remains within the cam slot as the plunger moves between the closed position and the open position. 7. The filter capsule of claim 6 , wherein the one or more seals are arranged along the outer surface of the plunger to form a liquid fluid tight seal between various portions of the plunger and the body. 8. The filter capsule of claim 6 , wherein the seals comprise O-rings. 9. The filter capsule of claim 6 , wherein the plunger further comprises a fluid channel in fluid communication with a passage of the filter capsule when the plunger is in the open position. 10. The filter capsule of claim 6 , wherein the one or more seals comprise a shut-off seal, an outside seal, and a sterility seal. 11. The filter capsule of claim 10 , wherein the outside seal and the sterility seal are arranged along the outer surface of the plunger such that the portion of body in contact with the outside seal never comes into contact with the sterility seal as the plunger moves between the closed position and the open position. 12. The filter capsule of claim 10 , wherein the outside seal and the sterility seal comprise a single seal. 13. The filter capsule of claim 6 , wherein the body has a first section having a first inner diameter, a second section having a second inner diameter greater than the first inner diameter, and a transition section between the first and second sections having a tapering inner diameter along its length from the first section to the second section which is a progression of the difference in diameters between the first inner diameter and the second inner diameter. 14. The filter capsule of claim 13 , wherein the progression of the difference in diameters is a linear progression. 15. The filter capsule of claim 6 , further comprising an indicator strip on the integrity test assembly. 16. The filter capsule of claim 15 , wherein the indicator strip is located on the plunger. 17. A system for integrity testing a single-use filtration assembly, comprising: an integrity testing device; a source of a fluid to be processed; a holding container; and a filtration device, said filtration device comprising an inlet port in fluid communication with said source of fluid to be processed, an outlet port in fluid communication with said holding container, a filter element, an aseptic vent assembly, and an aseptic integrity test assembly, said integrity test assembly being integral to said filtration device providing a direct aseptic connection to said filter element and comprising: a body having a bore formed through at least a portion of its interior; a plunger contained within the bore, the plunger having a shape corresponding to that of the bore; an actuator to move said plunger between a closed position and an open position; a shut-off seal, an outside seal, and a sterility seal; wherein said integrity testing device is attached to said integrity test assembly to facilitate integrity testing of said filter element. 18. A method of performing an integrity test of a filter element through a port of a filter capsule, comprising: attaching a gas line to an integrity test assembly that is integral to said filter capsule providing a direct aseptic connection to said filter element, said integrity test assembly comprising a port and a valve providing fluid communication to an interior of the filter capsule; actuating the integrity test assembly to an open position; pressurizing the filter capsule using the gas line; measuring a resulting pressure change; and determining whether the measured pressure change indicates that a filter within the filter capsule has been compromised. 19. The method of claim 18 , further comprising: actuating the integrity test assembly to a closed position; after actuating the integrity test assembly to a closed position, using the filter capsule to filter a product; after using the filter capsule to filter a product: actuating the integrity test assembly to the open position; pressurizing the filter capsule using the gas line; measuring a second resulting pressure change; and determining whether the second measured pressure change indicates that the filter within the filter capsule has been compromised after using the filter capsule to filter a product; wherein the integrity test assembly remains aseptic after each actuation. 20. The method of claim 18 , wherein said pressure change is measured upstream of the filter element.