Abstract: A centrifugal blood processing apparatus comprising a centrifuge rotor, a separation chamber, a tubing set for conducting blood components and fluids and having an inlet line, an outlet line and a storage solution line in fluid communication with the outlet line at a junction. The apparatus controls pumps to conduct a predetermined quantity of storage solution to a collected blood component. The apparatus also purges blood components in the tubing set by applying a negative pressure and positive pressure. A disposable blood processing set has a separation chamber; a tubing set including an inlet line in fluid and an outlet and a storage solution line connected to the outlet line at a junction.

Abstract: The invention relates generally to methods of monitoring and controlling the processing of blood and blood samples, particularly the separation of blood and blood samples into its components. In one aspect, the invention relates to optical methods for measuring two-dimensional distributions of transmitted light intensities, scattered light intensities or both from a separation chamber of a density centrifuge. The method may include performing first and second measurements of an operating condition; analyzing the first and second measurements using a predictive data analysis algorithm; comparing the predicted operating condition to a desired operating condition; and adjusting at least one setting.

Abstract: An apparatus for separating blood into blood components using a separation vessel satellite bags mounted on a centrifuge rotor and a balancing assembly for the centrifuge to compensate for changes to the center of gravity.

Abstract: A density centrifuge blood processing system comprising a separation chamber rotating about a central rotation axis, the separation chamber being coupled to an elutriation chamber, a first detector for the separation chamber to detect light from an observation region, a computational apparatus distinguishing at least two regions in the observation region and distinguishing incipient spill over of cellular components out of the elutriation chamber as a function of light intensity received from the at least two regions in the separation chamber, and a controller regulating speed of at least one pump or of the separation chamber in response to signals from the computational apparatus to avoid spill over.

Abstract: A method and apparatus for separating at least two discrete volumes of a composite liquid into at least a first component and a second component and automatically washing at least one component on a centrifuge rotor. The method comprises transferring a wash solution from a wash solution bag on the rotor into a separation bag; mixing the wash solution and a separated blood component; separating and then transferring the sedimented wash solution into a wash solution discard bag on the rotor. The separated blood component may be washed a plurality of times. A disposable set of tube-connected bags comprises a primary bag, initially containing whole blood, connected to at component bags for receiving plasma or platelets and also connected to a wash solution bag and a wash solution discard bag. The disposable set may further comprise a red blood cell collection bag connected through a filter.

Abstract: A cell separation set for separating blood components, having a cell separation chamber with a first entry section having a wall with an outwardly flared curve, the entry section having an axial length and an inmost maximum diameter perpendicular to the axial length, the axial length being greater than the inmost maximum diameter. The cell separation chamber further comprises a separation section having a wall comprising an inward curve. A transition section between the entry section and the separation section has a wall comprising a second inward curve, the second inward curve being different from said first inward curve. The first curve may be tangent to the second curve at a first junction between the first and second curves and the second curve may be tangent to the third curve at a second junction between the second and third curves.

Abstract: A method and apparatus for separating a volume of whole blood contained in a separation bag into at least three components comprising centrifuging the separation bag so as to separate therein a first inner layer comprising plasma, a second intermediate layer comprising platelets, a third intermediate layer comprising lymphocytes, monocytes and granulocytes and a fourth outer layer comprising red blood cells, transferring, into a plasma component bag connected to the separation bag, a plasma component and transferring into a mononuclear cell component bag a mononuclear cell components.

Abstract: A density centrifuge blood processing system comprising a separation chamber rotating about a central rotation axis, the separation chamber being coupled to an elutriation chamber, a first detector for the separation chamber to detect light from an observation region, a computational apparatus distinguishing at least two regions in the observation region and distinguishing incipient spill over of cellular components out of the elutriation chamber as a function of light intensity received from the at least two regions in the separation chamber, and a controller regulating speed of at least one pump or of the separation chamber in response to signals from the computational apparatus to avoid spill over.

Abstract: Methods, devices and device components are presented for blood processing. Particularly, methods, devices and device components are presented for separating blood into blood components and collecting one or more separated blood components, which reduce the incidence of blood vessel infiltration and enhance donor comfort. In one aspect, the invention provides blood processing methods having a return flow rate which decreases systematically during a return time. In another aspect, the invention provides blood processing methods having a removal flow rate, return flow rate or both which are derived from a subject's total blood volume. In another aspect, the present invention provides blood processing methods wherein the fraction by volume of removed blood corresponding to collected components is selected to optimize blood processing efficiency and enhance the purities of collected blood components.

Abstract: A method for separating at least two discrete volumes of a composite liquid into at least a first component and a second component, comprising centrifuging at least two separation bags containing two discrete volumes of a composite liquid respectively, so as to separate therein the first and second components; transferring at least one fraction of a first separated component from the separation bags into satellite bags connected thereto respectively; detecting a characteristic of a component at determined location in each separation bag; and stopping transferring the at least one fraction of the first component from each separation bag into the first satellite bag connected thereto, upon detection of the characteristic of a component at the determined location.

Abstract: An apparatus for separating blood into blood components using a separation vessel satellite bags mounted on a centrifuge rotor and a balancing assembly for the centrifuge to compensate for changes to the center of gravity.

Abstract: A centrifugal blood processing apparatus comprising a centrifuge rotor, a separation chamber, a tubing set for conducting blood components and fluids and having an inlet line, and an outlet line. Apparatus tests flow conditions using a red light-green light sensor to detect non-recoverable hemolysis during priming by identifying a high R/G ratio, preferably a ratio of greater than or equal to fifty (50), prior to the beginning of the first return of blood components to a donor followed by identifying a R/G ratio at least as great as one and one tenth (1.1) together with a green signal less than a predetermined value, preferably less than or equal to one thousand (1000) reflectance units. If these conditions are detected, an alarm is given and the apheresis procedure is discontinued.

Abstract: A method and apparatus for red blood collection and filtration is provided wherein a red blood cell collection assembly provides for leukoreduction filtration concurrent with or soon after the red blood cell separation and collection procedure. Such procedures involve filtering the separated red blood cells in a diluted state after and/or prior to flushing the filter with storage solution. Storage solution may thus be passed through the leukoreduction filter before, with and/or after the RBCs have been filtered therethrough. The red blood cell collection, filtration and storage assembly is preferably preconnected to a blood component separation disposable assembly, including, for example, a centrifuge vessel and a blood removal/return assembly for removing blood from a donor, passing the blood to the centrifuge vessel for separation of the blood into components for collection and providing for filtration of the separated red blood cell component.

Abstract: A system and method for rotating a cell growth chamber of a cell expansion system includes a rotatable member for engaging a chamber coupling attached to the cell growth chamber. The rotatable member includes an independently operable mechanism for engaging a rotatable fitting associated with the chamber coupling. In at least one embodiment, the chamber coupling is selectively rotatable by turning the rotatable member, thereby rotating the cell growth chamber around a first axis. The cell growth chamber is also selectively rotatable around a second axis by turning the rotatable fitting associated with the chamber coupling. Other novel aspects include a way of attaching the cell growth chamber to the shaft assembly, and a new tube routing clip.

Abstract: An apparatus for separating at least two discrete volumes of a composite liquid into at least a first component and a second component comprises a centrifuge, which comprising a rotor having a rotation axis, comprising at least one separation cell, for containing a separation bag containing a isolated volume of composite liquid; a satellite cell for containing a satellite bag, and a fluid path between the separation cell and the satellite cell, the path being radially closer to the rotation axis than both the separation cell and the satellite cell and axially above both the separation cell and the satellite cell.

Abstract: A method for separating at least two discrete volumes of a composite liquid into at least a first component and a second component, comprising centrifuging at least two separation bags containing two discrete volumes of a composite liquid respectively, so as to separate therein the first and second components; transferring at least one fraction of a first separated component from the separation bags into satellite bags connected thereto respectively; detecting a characteristic of a component at determined location in each separation bag; and stopping transferring the at least one fraction of the first component from each separation bag into the first satellite bag connected thereto, upon detection of the characteristic of a component at the determined location.

Abstract: A centrifuge for separating blood and blood components having a blood processing vessel mounted on a rotor of a centrifuge. A sensor in the outflow race of a return peristaltic pump detects air bubbles in the fluid within a return loop. The sensor may be a sonic sensor, a sonic pulse echo sensor, or capacitive plates. A pre-determined minimum bubble size or sizes or a cumulative volume may be selected, and the device operator may be warned only of the existence of bubbles that exceed a certain size or of a cumulative volume of bubbles, or the blood donation procedure may be stopped if a bubble exceeds a certain critical size or if a pre-determined volume of bubbles over a certain period or volume of fluid is exceeded.

Abstract: The invention relates to apparatus for controlling the processing of blood into blood components, particularly components for stroboscopic LED light sources for centrifuges. A digital control circuit controls a high amperage linear voltage regulator. The voltage regulator charges a capacitor bank, which in turn powers LED light sources. The digital control circuit comprises an N-channel switched mode FET. The switched mode FET receives a pulsed digital signal from the microprocessor controlling the blood processing apparatus. A by-pass resistor in parallel with the FET allows most of the current to flow past the FET, thus minimizes heating of the FET. The performance of the FET, therefore, remains stable despite extended use of the apparatus.

Abstract: A disposable apparatus for cell expansion, having at least one bioreactor. The bioreactor has a cellular growth area and a supply area, the cellular growth area being separated from said supply area by a membrane. A fluid recirculation path in fluid communication with the cellular growth area allows for hermetically removing a sample containing cellular matter. This may comprise an elongated tube, or a plurality of parallel tube segments. The parallel tube segments have inflow ends and outflow ends, and the inflow ends are joined at a first common juncture and the outflow ends are joined at a second common juncture. The common junctures may comprise valves.

Abstract: A hand held opener for opening a frangible closer comprising a handle adapted to be gripped by an operator, a motion actuator operatively connected to the handle, a first shaft connected to the motion actuator, a second shaft connected to the motion actuator, a first gripper portion on the first shaft adapted to grip the frangible closer in a first location, and a second gripper portion on the second shaft adapted to grip the frangible closer in a second location wherein the motion actuator provides reciprocal movement to the shafts to rotate the frangible closer in one direction and to rotate the frangible closer in a direction opposite the first direction.