Systems and methods are provided for separating platelets from blood. Prior to blood separation, a volume of blood to be processed, a volume of platelets to be collected, and/or a time required to complete blood draw from a source during a blood separation procedure is determined. Based on that determination, a procedure setpoint is calculated from the completion of the blood draw. Blood is subsequently drawn from a source into a separator in which the blood is separated into a mononuclear cell-containing fraction and a platelet-containing fraction. At least a portion of the platelet-containing fraction is conveyed from the separator, while the volume of the mononuclear cell-containing fraction in the separator increases. The mononuclear cell-containing fraction is conveyed to the source from the separator at the procedure setpoint. The blood draw and separation are then ended.

A PRP harvesting kit for harvesting platelet rich plasma that includes one or more collection tubes, each collection tube includes liquid biotin in an injectable form.

The invention relates to a system, comprising: a) a sample processing unit, comprising an input port and an output port coupled to a rotating container having at least one sample chamber, the sample processing unit configured provide a first processing step to a sample or to rotate the container so as to apply a centrifugal force to a sample deposited in the chamber and separate at least a first component and a second component of the deposited sample; and b) a sample separation unit coupled to the output port of the sample processing unit, the cell separation unit comprising separation column holder (42), a pump (64) and a plurality of valves (1-11) configured to at least partially control fluid flow through a fluid circuitry and a separation column (40) positioned in the holder, the separation column configured to separate labeled and unlabeled components of sample flowed through the column.

Provided are systems and methods for treating a biological fluid, e.g., to inactivate pathogens.

Apparatus and methods for concentrating platelet-rich plasma is described herein. One variation may generally comprise a tube having a length and defining a channel within and one or more ports located at a proximal end of the tube and in fluid communication with the channel. A plunger may slidably translatable within the channel while forming a seal against an inner surface of the channel and a float may have a pre-selected density and defining a concave interface surface, wherein the float is slidably contained within the channel such that the concave interface surface is in apposition to the one or more ports.

Provided are systems and methods for treating a biological fluid, e.g., to inactivate pathogens.

Systems and methods are provided for improving efficiency and quality of plasma being removed from a blood separation chamber. The system includes a separation chamber in which plasma is separated from cellular blood components, a pump for moving the plasma and an outlet line for removing the separated plasma from the blood separation chamber. An optical sensor assembly is configured to monitor the blood separation chamber and measure an interface position between the separated component and the plasma, and to generate an output indicative of the measured interface position. A controller is programmed to utilize a lipid concentration input of the blood and to set an original lipemia offset, a lipemia threshold and lipemia final setpoint from a predetermined database, and to use a proportional-integral-derivative control loop to assess the actual interface position plus the lipemia threshold to adjust and achieve a final lipemia setpoint for use during separation procedures.

A device and associated method for centrifuging a physiological fluid includes a container including a tip, a base, and a barrel extending between the tip and the base to hold a physiological fluid. The container includes a plunger positioned within the barrel of the container. The plunger includes a concave collection surface that faces the tip of the container. A plunger gasket seal is in sealing engagement with an inside wall of the barrel of the container. A bottom support is provided to support the base of the container at least partially within the bottom support for use in a centrifuge. The container is coupled to the bottom support using an interference fit. The collection surface of the plunger and at least the barrel can be made of the same material. Advantageously, the device can be used to process blood without the need for any added anticoagulant in the blood.

A method of delivering a therapeutic agent to a nucleus pulposus of an intervertebral disc is provided. The method comprises inserting a delivery tool containing the therapeutic agent through an anterior portion, a lateral portion, or an anterolateral portion of an annulus fibrosus and into the nucleus pulposus of the intervertebral disc; and delivering the therapeutic agent to the nucleus pulposus of the intervertebral disc. Devices and kits are also provided.

The disclosure provides for a container system and method for the cryopreservation and resuspension of a body fluid. The container system may include a cryopreservation container comprising the body fluid in a cryopreservation liquid, a resuspension container comprising a resuspension solution, a connection tube sterilely connecting the cryopreservation container and the resuspension container, and at least one shut-off element actively associated with the connection tube.