Abstract: The bioprocessing perfusion system (10) includes a bioreactor (12) and a feed flow path (14). A first tangential flow filter (16) is coupled to the bioreactor (12) via the feed flow path (14) and a second tangential flow filter (18) is coupled to the bioreactor (12) via the feed flow path (14). The first tangential flow filter (16) is a microfiltration-type filter and the second tangential flow filter (18) is an ultrafiltration-type filter. The first tangential flow filter (16) and the second tangential flow filter (18) are further coupled to a receiving unit (58) via the permeate flow path (60). The first tangential flow filter (16) and the second tangential flow filter (18) are further coupled to the bioreactor (12) via the retentate flow path (46).

Abstract: A bioprocessing system (100, 200) including a storage unit (102, 202) for storing a feed fluid (103, 203), a filter (106, 206) coupled to the storage unit (102, 202) via a feed path (104, 204), and a feed pump (114, 212) coupled to the feed path (104, 204). The bioprocessing system (100, 200) further includes a collection unit (102, 216) coupled to the filter (106, 206) via a downstream path (118, 218) and a turbidity sensor (134, 224) coupled to the downstream path (118, 218). Furthermore, the bioprocessing system (100, 200) includes a processing unit (136, 226) configured to receive an output from the turbidity sensor (134, 224) and determine a concentration of a product in a filtration fluid (121, 222) based on the output. The processing unit (136, 226) is further configured to monitor an operating condition of the filter (106, 206) on-line based on concentration of the product.

Abstract: Systems (700) and methods (800) for method of continuous fluid flow in a bioreactor (700) is provided. The method (800) comprises providing (805) a bioreactor system (700) including a bioreactor volume (720), a filtration part (730), and a recirculation line (721) including a recirculation pump (722) is provided between the bioreactor volume (720) and the filtration part (730). The method (800) further comprises providing (810) a plurality of sensors (760) along the recirculation line (721) and monitoring the fluid flow parameters using the sensors (760). The method further comprises sending (820) a plurality of signals from the sensors (760) indicative of the fluid flow parameters to one or more controllers; and controlling (830) the fluid flow rate at the recirculation pump (722) by means of the or each controller.

Abstract: The present subject matter discloses a bioreactor apparatus. The bioreactor apparatus comprises a bioreactor vessel configured to culture cells. The bioreactor apparatus furthermore comprises a sensor configured to measure Dissolved Oxygen (DO) in the bioreactor vessel. The DO measurements comprise a plurality of DO values recorded at, at least, a plurality of time instances during operation of the bioreactor apparatus. The bioreactor apparatus furthermore comprises a controller configured to obtain the DO measurements. The controller furthermore is to determine, in real-time or approximately real-time, an oxygen mass transfer co-efficient (kLa) associated with the operation of the bioreactor apparatus. Furthermore, the controller is configured to control, in real-time or approximately real-time, at least one cell culture parameter associated with the operation of the bioreactor apparatus based on the kLa.

Abstract: Systems (100) and methods for perfusion control in a bioreactor (120) are provided. The system (100) comprises a media container (110) connected to the bioreactor (120) and weighing scales (113, 123) measure weight of the bioreactor (120) and the media container (110). A plurality of controllers (225, 245) are connected to the weighing scales and configured to continuously feed the media from media container (110) to the bioreactor (120) at a user defined rate using a motor pump (112). A filter (130) is provided to receive feed from the bioreactor (120) through a recirculation line (121) and a permeate flow line (141) is connected to the filter (130) to flow out the permeate from the filter (130).

Abstract: A perfusion bioprocessing system (10) includes a bioreactor (12) and a recirculation flow path (14) provided with at least in one first feed flow control device (46) and at least one second feed control device (48). The perfusion bioprocessing system (10) further includes a first tangential flow filter (16) coupled to the bioreactor (12) via the recirculation flow path (14) and a second tangential flow filter (18) coupled to the bioreactor (12) via the recirculation flow path (14). The first tangential flow filter and the second tangential flow filter are coupled to a permeate flow path and a retentate flow path. Additionally, the perfusion bioprocessing system (10) includes a control unit (90) coupled to the at least one first feed flow control device (38) and the at least one second feed control device (40).

Abstract: A method includes inducing a first quantity of a feed fluid (28) to flow along a first direction (72) from a bioreactor (12) to a tangential flow filter (16) to separate the first quantity of the feed fluid (28) into a permeate fluid (42) and a retentate fluid (48). Further, the control unit (66) is operated to control at least one feed flow control device (24, 26) to inhibit the flow of first quantity of the feed fluid (28). Furthermore, the control unit (66) is operated to control the at least one feed flow control device (24, 26) to direct at least one of further flow of a second quantity of the feed fluid (28) from the bioreactor (12), a portion of the permeate fluid (42), and a portion of a nutrient fluid, along a second direction (74) opposite to the first direction (72) via the tangential flow filter (16).