Cell culture bag with internal dialysis membrane

The invention claimed is: 1. A flexible bag for cell cultivation, comprising: a) one or more walls; b) a cultivation compartment defined by the one or more walls; c) at least one dialysis compartment surrounded by the cultivation compartment, the at least one dialysis compartment being delimited from the cultivation compartment by at least one tubular dialysis membrane, wherein the at least one tubular dialysis membrane has a lumen, and two ends; and d) a first and second port, each port having one end extending through a wall of the flexible bag, and an opposite end fluidically connected to the ends of the at least one tubular dialysis membrane, wherein the lumen forms the at least one dialysis compartment, wherein the at least one tubular dialysis membrane does not have a housing around it and has a length longer than the straight-line distance between the first and second ports such that the tubular dialysis membrane is free to move in relation to the bag. 2. The flexible bag according to claim 1 , wherein the total volume of the at least one dialysis compartment is less than 10% of the volume of the cultivation compartment. 3. The flexible bag according to claim 1 , wherein the maximum thickness of the at least one dialysis compartment is less than 2 cm. 4. The flexible bag according to claim 1 , further comprising a bundle of tubular dialysis membranes. 5. The flexible bag according to claim 1 , wherein the at least one tubular dialysis membrane is a hollow fiber membrane. 6. The flexible bag according to claim 5 , further comprising a bundle of hollow fiber membranes. 7. The flexible bag according to claim 1 , wherein the at least one tubular dialysis membrane is arranged directly in the cultivation compartment. 8. The flexible bag according to claim 1 , wherein the at least one tubular dialysis membrane has a length of 1.1-2 times the straight-line distance between the first and second ports. 9. The flexible bag according to claim 4 , wherein the bundle of tubular dialysis membranes is reinforced with fibrous braids. 10. The flexible bag according to claim 3 , wherein the maximum thickness of the at least one dialysis compartment is less than 1 cm. 11. The flexible bag according to claim 3 , wherein the maximum thickness of the at least one dialysis compartment is less than 2 mm. 12. The flexible bag according to claim 8 , wherein the at least one tubular dialysis membrane has a length 1.1-1.5 times the straight-line distance between the first and second ports. 13. A bioreactor comprising the flexible bag according claim 1 . 14. The bioreactor according to claim 13 , wherein the flexible bag is mounted on a support plate which is pivotally mounted to a base about a movable axis. 15. The bioreactor according to claim 13 , further comprising cells and a cell culture medium. 16. A method of cultivating cells, comprising the steps of: a) providing the flexible bag for cell cultivation of claim 1 , b) introducing cell culture media and cells in the cultivation compartment and cultivating the cells under agitation, c) flowing a dialysis liquid through the dialysis compartment(s) via the first and second ports to allow for mass transport of at least one component from the cultivation compartment via the dialysis membrane into the dialysis liquid, wherein the pressure differential between the cultivation compartment and the dialysis compartment is less than 10 kPa.