Abstract: A container having at least one wall protrusion for mounting at least one sensor from the outside for sensing at least one variable of a medium contained in a container interior is provided. The wall protrusion can be arranged on a container wall and configured to at least partly extend around the container interior and the medium. The wall protrusion can include at least one sensor region that is configured so that the at least one variable can be sensed through the sensor region by means of the sensor.

Abstract: A computer-implemented method for spectroscopic analysis of biological material is provided that includes analyzing samples of biological material from a plurality of sources, and delivering samples of biological material to at least one flow cell for spectroscopy, and determining whether the spectroscopic analysis for each sample of the plurality of samples is or is predicted to be ambiguous in that it is affected by at least two non-discriminable factors. If such a determination is made, a disambiguating step can be performed.

Abstract: A flow cell assembly for use in a bioprocess including a housing and a glass body. The housing includes an inlet tube connector and an outlet tube connector and a holding structure for immovably holding the glass body. The glass body is a universal single-piece glass body surrounding a measurement channel. The measurement channel has an inlet end and an outlet end defining a medium flow direction, and a defined dimension along an optical measurement axis perpendicular to the medium flow direction. The inlet end and outlet end of the measurement channel are in fluid communication with the inlet tube connector and the outlet tube connector of the housing, respectively. The housing or the glass body includes an aligning structure for aligning a probe head. The housing or the glass body includes a fixing structure for immovably fixing the aligned probe head relative to the glass body.

Abstract: A bag for containing a biopharmaceutical product includes at least one fluid input/output port and a measurement opening remote from the fluid port. A probe holder port has a body with an axial through-bore and a peripheral collar with a second fastening zone and defining a fastening plane. A contact probe, extending in the axial through-bore, is assembled on the probe holder port, has an active measurement end portion in contact with the product, and has an end portion opposite the end portion. The probe holder port includes a transition portion between the body and the collar, which extends between a radially central end portion of the collar and a first axial end portion of the body. The first axial end portion is the axial end portion closest to the radially central end portion of the collar. The first axial end portion is disposed on the outer side relative to the fastening plane, and the active measurement end portion is axially disposed on the outer side relative to the fastening plane.

Abstract: A computer-implemented method for spectroscopic analysis of biological material is provided that includes analyzing samples of biological material from a plurality of sources, and delivering samples of biological material to at least one flow cell for spectroscopy, and determining whether the spectroscopic analysis for each sample of the plurality of samples is or is predicted to be ambiguous in that it is affected by at least two non-discriminable factors. If such a determination is made, a disambiguating step can be performed.

Abstract: The invention relates to a pinch valve comprising a valve element (4) with precisely one flow channel (20) that is surrounded by a circumferential wall (21) and has an inlet opening (24), which is designed for connecting a connection member (2) or which adjoins a connection element (2a), at a first end and an outlet opening (25), which is designed for connecting a connection member (2) or adjoins a connection element (2a), at a second end. The valve element (4) additionally has a pair of force transmitting elements (19, 19?) or a force transmitting element (19) and a fixing element (26) which are connected to the circumferential wall (21) in a central closing region (18) that is arranged between the inlet opening and the outlet opening. The force transmitting elements (19, 19?) or the force transmitting element (19) and the fixing element (26) are arranged at least substantially perpendicularly to the flow direction of the flow channel (20).

Abstract: A device for mechanically stabilizing a sensor port on a flexible bag including a rigid, substantially plate-shaped support part, which has a receptacle for a rigid connecting part integrated in the bag, in particular a sensor, and a holding mechanism on the receptacle. The device further includes a fastening element adapted to be attached to the holding mechanism of the support part such that it fixes the support part to the connecting part. The device may include a rigid support part which can be assembled from at least two parts, preferably struts. The parts surround a free area or an opening in which a rigid connecting part integrated in the bag can be placed. In an assembled state of the parts, the free area or the opening has a smaller diameter than the connecting part, so that the parts form a load-receiving mechanism for the connecting part.

Abstract: The invention relates to a bioprocess container (10) having an optical measuring device (100) for non-invasive spectroscopic measurement comprising: a container housing (12), a port housing (102), which is connected to the container housing (12) and is sealed off with respect to the interior (18) of the container housing (12); at least one radiation-emitting element (124), which is designed to transmit electromagnetic radiation through the at least one fluid contained in the container housing (12); at least one radiation-receiving element (126), which is designed to at least partly receive the radiation which was transmitted by the radiation-emitting element (124); and at least one measuring insert (122), which holds and supports the at least one radiation-emitting element (124) and/or the at least one radiation-receiving element (126).

Abstract: The invention relates to a bioprocess container (10) having an optical measuring device (100) for non-invasive spectroscopic measurement comprising: a container housing (12), a port housing (102), which is connected to the container housing (12) and is sealed off with respect to the interior (18) of the container housing (12); at least one radiation-emitting element (124), which is designed to transmit electromagnetic radiation through the at least one fluid contained in the container housing (12); at least one radiation-receiving element (126), which is designed to at least partly receive the radiation which was transmitted by the radiation-emitting element (124); and at least one measuring insert (122), which holds and supports the at least one radiation-emitting element (124) and/or the at least one radiation-receiving element (126).

Abstract: A disposable port device for connecting a functional unit to a flexible wall of a disposable container includes a flange to be connected to the flexible wall of the disposable container and an insert providing or receiving the functional unit. The flange and the insert are separate parts made from different materials with different material characteristics. A method of manufacturing such a disposable port device includes the steps of producing the flange from a first material, producing the insert from a different second material, the first and second materials having different material characteristics, and connecting the insert to the flange.

Abstract: A computer-implemented method for spectroscopic analysis of biological material is provided that includes analyzing samples of biological material from a plurality of sources, and delivering samples of biological material to at least one flow cell for spectroscopy, and determining whether the spectroscopic analysis for each sample of the plurality of samples is or is predicted to be ambiguous in that it is affected by at least two non-discriminable factors. If such a determination is made, a disambiguating step can be performed.

Abstract: The invention relates to a pinch valve comprising a valve element (4) with precisely one flow channel (20) that is surrounded by a circumferential wall (21) and has an inlet opening (24), which is designed for connecting a connection member (2) or which adjoins a connection element (2a), at a first end and an outlet opening (25), which is designed for connecting a connection member (2) or adjoins a connection element (2a), at a second end. The valve element (4) additionally has a pair of force transmitting elements (19, 19?) or a force transmitting element (19) and a fixing element (26) which are connected to the circumferential wall (21) in a central closing region (18) that is arranged between the inlet opening and the outlet opening. The force transmitting elements (19, 19?) or the force transmitting element (19) and the fixing element (26) are arranged at least substantially perpendicularly to the flow direction of the flow channel (20).

Abstract: A container having at least one wall protrusion for mounting at least one sensor from the outside for sensing at least one variable of a medium contained in a container interior is provided. The wall protrusion can be arranged on a container wall and configured to at least partly extend around the container interior and the medium. The wall protrusion can include at least one sensor region that is configured so that the at least one variable can be sensed through the sensor region by means of the sensor.

Abstract: A bag for containing a biopharmaceutical product includes at least one fluid input/output port and a measurement opening remote from the fluid port. A probe holder port has a body with an axial through-bore and a peripheral collar with a second fastening zone and defining a fastening plane. A contact probe, extending in the axial through-bore, is assembled on the probe holder port, has an active measurement end portion in contact with the product, and has an end portion opposite the end portion. The probe holder port includes a transition portion between the body and the collar, which extends between a radially central end portion of the collar and a first axial end portion of the body. The first axial end portion is the axial end portion closest to the radially central end portion of the collar. The first axial end portion is disposed on the outer side relative to the fastening plane, and the active measurement end portion is axially disposed on the outer side relative to the fastening plane.

Abstract: A method for implementing a channel (56) includes providing a preform (20) having a recess (22) therein and heating a channel implementation element (30?) to a temperature greater than a melting temperature of a material of the preform (20). An external contour of the channel implementation element (30?) at least regionally corresponds to an internal contour of the channel (56) to be implemented. The method then moves the heated channel implementation and/or the preform (20) in relation to one another so that the heated channel implementation element (56) at least regionally moves into the recess (22) in a moving-in direction. The material of the preform (20) is at least partially melted in a region around the recess (20) and is at least partially displaced by the channel implementation element (30?), wherein at least a part of the channel (56) to be implemented is thus implemented.

Abstract: A receptacle has a wall defining a receptacle interior and a shaft housing for guiding a shaft through the wall into the receptacle interior. The shaft housing defines an annular cap with spaced apart inner and outer walls connected by an inner end face facing the receptacle interior. A shaft guide part has an end facing the receptacle interior and an outer surface that defines a gap relative to the inner wall of the shaft housing. The shaft guide part has an annular wall spaced apart from and parallel to its outer surface. The annular wall extends over the free end of the inner wall of the shaft housing and is sealed to the inner and outer walls of the shaft housing by at least one seal each. The shaft guide part is mounted in the shaft housing by a radial ball bearing and by an axial ball bearing.

Abstract: The present invention relates to a device for installation into a hose and/or plastic pipe system and mounting of flow measurement sensors which comprises a plastic flow part as a hollow body with a centrally arranged and deformable region with a rectangular cross section. The present invention further relates to the use of the abovementioned device as well as to a method of flow measurement using the device.

Abstract: A bioreactor has a reactor bag (12) with a predominantly flexible bag wall (121) that has a rigid bearing area. A stirrer arrangement (14) is in the bearing area and includes rigid profile ring (16) made of a non-magnetic material and fixed in the bearing area. The stirrer arrangement (14) also includes a shaftless stirrer (18) rotatably engaged with the profile ring (16) and having parts that are permanently magnetic. An electric coil arrangement (20) is outside the reactor bag (12) and can produce a rotating magnetic field that interacts with the permanent-magnetic areas of the stirrer (18) to produce a torque that rotates the stirrer (18) and circulates the contents of the bag (12).

Abstract: A method for testing a flexible container includes arranging the flexible container on a winding core that can be rotated about a winding axis W and forms an internal support. The method continues by winding the flexible container around the winding axis W arranging an external support around the wound container and connecting at least one container opening of the container to a fluid source. The method proceeds by filling the container with a fluid from the fluid source to generate a predetermined positive pressure P1 in the flexible container at a first time T1 and determining whether the container is sufficiently leaktight.

Abstract: A receptacle has a wall defining a receptacle interior and a shaft housing for guiding a shaft through the wall into the receptacle interior. The shaft housing defines an annular cap with spaced apart inner and outer walls connected by an inner end face facing the receptacle interior. A shaft guide part has an end facing the receptacle interior and an outer surface that defines a gap relative to the inner wall of the shaft housing. The shaft guide part has an annular wall spaced apart from and parallel to its outer surface. The annular wall extends over the free end of the inner wall of the shaft housing and is sealed to the inner and outer walls of the shaft housing by at least one seal each. The shaft guide part is mounted in the shaft housing by a radial ball bearing and by an axial ball bearing.