Bag assembly for cultivation of cells

The invention claimed is: 1. A flexible bag assembly for cultivation of cells in multi-stage expansion, comprising one or more bags forming a plurality of cultivation compartments of different sizes that are adapted for multi-stage cultivation stages respectively, wherein a drain port in at least a first cultivation compartment is adapted to be fluidically connected with a second cultivation compartment upon opening of a valve means of the drain port to transfer the content of the first cultivation compartment to the second cultivation compartment upon completion of a first cell cultivation stage to leave the first cultivation compartment empty, and wherein the drain port is closed during each stage of cell cultivation. 2. The flexible bag assembly of claim 1 , wherein said second cultivation compartment has a volume of at least 120% of the volume of the first cultivation compartment. 3. The flexible bag assembly of claim 1 , comprising at least three cultivation compartments and wherein a second drain port in the second cultivation compartment is adapted to be fluidically connected with a third cultivation compartment upon opening of a second valve means. 4. The flexible bag assembly of claim 3 , wherein said third cultivation compartment has a volume of at least 120% of the volume of the second cultivation compartment. 5. The flexible bag assembly of claim 1 , wherein the first cultivation compartment is a rigid or semirigid vessel. 6. The flexible bag assembly of claim 1 , wherein said valve means is a valve or a clamp. 7. The flexible bag assembly of claim 6 , wherein said valve means is a pinch valve or a pinch clamp. 8. The flexible bag assembly of claim 7 , wherein said pinch valve or pinch clamp is adapted for application on tubing or conduits of up to 15 mm outer diameter. 9. The flexible bag assembly of claim 1 , wherein at least one of said drain ports is a dip tube. 10. The flexible bag assembly of claim 1 , comprising at least two bags connected by tubing. 11. The flexible bag assembly of claim 10 , wherein said at least two bags are adapted to be placed beside each other on a tray. 12. The flexible bag assembly of claim 10 , wherein said at least two bags are adapted to be stacked on a tray or a stack of trays. 13. The flexible bag assembly of claim 1 , comprising at least one multicompartment bag with cultivation compartments connected or connectable via internal conduits. 14. The flexible bag assembly of claim 1 , comprising at least one multicompartment bag with cultivation compartments connectable via at least one breakable seal. 15. The flexible bag assembly of claim 1 , comprising at least one bag comprising at least one temperature control compartment. 16. The flexible bag assembly of claim 15 , wherein said at least one bag comprises a top film, a bottom film and a delimiting film, wherein the delimiting film delimits the at least one temperature control compartment from at least said first cultivation compartment. 17. The flexible bag assembly of claim 16 , wherein said temperature control compartment comprises a thermostating fluid inlet and optionally a thermostating fluid outlet. 18. The flexible bag assembly of claim 16 , wherein the volume of said first cultivation compartment is less than 1 L and/or the volume of said temperature control compartment is at least 10 times the volume of said first cultivation compartment. 19. The flexible bag assembly of claim 1 , adapted for cell cultivation on a rocking tray platform having a gas inlet and a gas outlet for each cultivation compartments. 20. The flexible bag assembly of claim 16 , wherein each cultivation compartment comprises a top film and a bottom delimiting film, delimiting one temperature control compartment from said each cultivation compartment. 21. The flexible bag assembly of claim 1 , supplied presterilized by radiation sterilization. 22. A bioreactor assembly, comprising the flexible bag assembly of claim 1 mounted on a tray, or a stack of trays, adapted to rock back and forth around at least one axis. 23. The bioreactor assembly of claim 22 , comprising a cell culture in at least one of said cultivation compartments. 24. A method of cultivating cells, comprising the steps of: a) providing the bioreactor assembly of claim 22 ; b) introducing culture media and cells in said first cultivation compartment; c) cultivating the cells in said first cultivation compartment to provide a first cell culture; d) opening a first valve means to fluidically connect said first cultivation compartment with said second cultivation compartment; e) transferring said first cell culture to said second cultivation compartment; f) introducing media to said second cultivation compartment, and; g) cultivating the cells in said second cultivation compartment to provide a second cell culture. 25. The method of claim 24 , further comprising a step e′), after step e), of closing the first valve means. 26. The method of claim 25 , further comprising the steps of: h) opening a second valve means to fluidically connect said second cultivation compartment with a third cultivation compartment; i) transferring said second cell culture to said third cultivation compartment; j) introducing media to said third cultivation compartment, and; k) cultivating the cells in said third cultivation compartment to provide a third cell culture. 27. The method of claim 26 , further comprising a step i′), after step i), of closing said (second) valve means. 28. A flexible bag assembly for cultivation of cells in multi-stage expansion, comprising one or more bags forming a plurality of cultivation compartments of different sizes that are adapted for cell cultivation in multi-stages respectively, wherein a drain port in at least a first cultivation compartment is adapted to be fluidically connected with a second cultivation compartment upon opening of a valve means of the drain port to transfer the content of the first cultivation compartment to the second cultivation compartment upon completion of a first cell cultivation stage to leave the first cultivation compartment empty, wherein the drain port is closed during each stage of cell cultivation, wherein said second cultivation compartment has a volume of at least 150% volume of the first cultivation compartment, and wherein said valve means is a pinch valve or a pinch clamp adapted for application on tubing or conduits of up to 15 mm outer diameter. 29. The flexible bag assembly of claim 28 , comprising at least three cultivation compartments and wherein a second drain port in the second cultivation compartment is adapted to be fluidically connected with a third cultivation compartment upon opening of a second valve means and wherein said third cultivation compartment has a volume of at least 150% of the volume of the second cultivation compartment. 30. The flexible bag assembly of claim 28 , comprising at least two bags connected by tubing, wherein said at least two bags are adapted to be placed beside each other on a tray or to be stacked on a tray or a stack of trays. 31. The flexible bag assembly of claim 28 , comprising at least one multicompartment bag with cultivation compartments connected or connectable via internal conduits and/or via at least one breakable seal.