Enclosed filtration system processes

What is claimed is: 1. An enclosed filtration system process, said process comprising the steps of: 1) discharging fluid from a retentate chamber via a fluid connector into a vessel such that during said discharging a portion of said fluid is directed via a semipermeable barrier into a filtrate chamber and is then directed via a selective barrier into a reactor chamber, wherein said discharging is due to the force exerted by a diaphragm pump connected to the retentate chamber at a position distal to the fluid connector; and 2) reversing the direction of the force exerted by the diaphragm pump so that at least some fluid from the vessel flows back into the retentate chamber, at least some fluid from the retentate chamber flows into the filtrate chamber and some fluid from the filtrate chamber flows into the reactor chamber; and 3) repeating steps (1) and (2) at least once, wherein fluid discharged from the retentate chamber is selected from the group consisting of a suspension and a solution, and wherein the retentate chamber, filtrate chamber, reactor chamber, and diaphragm pump together form an enclosed filtration system, wherein (a) said retentate chamber of said enclosed filtration system comprises an entrance at its entrance end and an exit at its exit end, said retentate chamber comprising a retentate chamber wall, at least a portion of said wall being semi-permeable; (b) said filtrate chamber of said enclosed filtration system at least partially encloses said retentate chamber, said filtrate chamber comprising a filter chamber inner wall and a filter chamber outer wall, wherein at least a portion of the filter chamber inner wall corresponds to the semi-permeable portion of the retentate chamber wall; said filtrate chamber outer wall comprising a filtrate chamber outer barrier; (c) said reactor chamber of said enclosed filtration system is disposed so that it at least partially encloses both the filtrate chamber and the retentate chamber in a sealed manner but does not block fluid flow in and out of the retentate chamber entrance, said reactor chamber comprising a reactor chamber inner wall and a reactor chamber outer wall, said reactor chamber inner wall comprising the filtrate chamber outer barrier, said reactor chamber outer wall being sealed to the outside of either the retentate chamber or to the outside of the filtrate chamber, said reactor chamber outer wall optionally sealed to the alternating pump outer wall; and (d) wherein said enclosed filtration system further comprises (i) an alternating flow pump connected to the perimeter of the retentate chamber exit so as to permit fluid from the pump to enter the retentate chamber and fluid from the retentate chamber to flow into the pump; said pump comprising an outer wall, a diaphragm, and two chambers separated by the diaphragm, and (ii) a harvest port attached to the reactor chamber outer wall so as to allow fluid to leave or enter the reactor chamber. 2. The process of claim 1 , wherein said enclosed filtration system is presterilized. 3. The process of claim 1 , further comprising harvesting at least some of the fluid from the filtrate chamber. 4. The process of claim 1 , further comprising measuring a culture condition using at least one probe, the at least one probe enclosed within said enclosed filtration system. 5. The process of claim 1 , further comprising a processing chamber connected via a fluid connector to said retentate chamber. 6. The process of claim 5 , wherein the processing chamber is single-use. 7. The process of claim 5 , wherein the processing chamber comprises one or more ports in a processing chamber wall. 8. The process of claim 7 , further comprising adding fluid through one of the one or more ports in the processing chamber wall. 9. The process of claim 5 , wherein the processing chamber is a bag.