Systems, methods, and/or apparatuses may be operative to perform a dialysis process that includes a displacer infusion process. The dialysis machine may include at least one processor and a memory coupled to the at least one processor, the memory comprising instructions that, when executed by the processor, may cause the at least one processor to access dialysis information for a dialysis process performed by a dialysis machine, the dialysis information indicating a target substance to be displaced from a binding compound by a displacer, and determine an infusion profile for infusing the displacer into a patient during a displacer infusion process of the dialysis process, the infusion profile determined based on the dialysis information and an infusion constraint. Other embodiments are described.

The present invention relates to an insert piece for a blood tubing set that includes a first connection site for connecting a first tubing portion of the blood tubing set to the insert piece; a second connection site for connecting a second tubing portion of the blood tubing set to the insert piece; a third connection site for connecting a third tubing portion of the blood tubing set to the insert piece; a first main line for conducting a first liquid through the insert piece; a second main line for conducting the first liquid through the insert piece; a secondary line for conducting a second liquid into at least one of the first main line, and the second main line; and a connection portion which connects both main lines to each other or to the second connection site.

The present disclosure describes a novel therapeutic apheresis system and, more specifically, methods and an apparatus for performing therapeutic apheresis. The present disclosure provides highly efficient methods for therapeutic apheresis that modulate the immune system, thereby resulting in treatment of one or more underlying immunological disease processes. In some embodiments, the disclosed methods return at least a portion of blood from an extracorporeal circuit to a patient in pulsatile flow, where the portion of blood that is returned is augmented. In other embodiments, the disclosed methods and apparatus use the central arterial system to exchange volumes of plasma to immunomodulate disease processes. The disclosed methods combine concepts of intermittent flow and continuous flow therapeutic apheresis with established cardiovascular concepts. In addition, the disclosed methods reduce the amount of time spent by patients in therapeutic apheresis sessions and decrease patients' dependence on immunological drugs that may have detrimental adverse effects.

A method of dialysis is provided that includes sensing the concentration of potassium in a patient's blood serum, in used dialysate resulting from treating the patient, or in both. The method involves generating a sensed value of the concentration of potassium, comparing the sensed value with one or more values stored in a memory, and generating a control signal based on the comparison. Supplemental potassium solution is infused into the treatment dialysate, based on the control signal. The comparison can be made to patient-historical data, population data, or both.

The present disclosure describes a novel therapeutic apheresis system and, more specifically, methods and an apparatus for performing therapeutic apheresis. The present disclosure provides highly efficient methods for therapeutic apheresis that modulate the immune system, thereby resulting in treatment of one or more underlying immunological disease processes. In some embodiments, the disclosed methods return at least a portion of blood from an extracorporeal circuit to a patient in pulsatile flow, where the portion of blood that is returned is augmented. In other embodiments, the disclosed methods and apparatus use the central arterial system to exchange volumes of plasma to immunomodulate disease processes.

Systems, methods, and/or apparatuses may be operative to perform a dialysis process that includes a displacer infusion process. The dialysis machine may include at least one processor and a memory coupled to the at least one processor, the memory comprising instructions that, when executed by the processor, may cause the at least one processor to access dialysis information for a dialysis process performed by a dialysis machine, the dialysis information indicating a target substance to be displaced from a binding compound by a displacer, and determine an infusion profile for infusing the displacer into a patient during a displacer infusion process of the dialysis process, the infusion profile determined based on the dialysis information and an infusion constraint. Other embodiments are described.

The present invention concerns a package comprising an acidic citrate containing concentrate, an acidic citrate containing concentrate (or acidic citrate containing solution), and a system wherein the acidic citrate containing concentrate is included for providing a dialysis treatment. The acidic citrate containing concentrate contains citric acid and citrate in a molar ratio of 75:25 to 85:15, and has a pH of between 2 and 3.

The present invention provides a system, a method, devices and a computer implemented with a method for the monitoring and the control of a subject's organ perfusion. The present invention further provides for the use of a system, a method, devices and a computer implemented with a method for the monitoring and the control of a subject's organ perfusion.

Systems and methods for performing online extracorporeal photopheresis of mononuclear cells are disclosed. Whole blood is removed from a patient and introduced through a processing set into a separation chamber to separate the desired cell population from the blood. The separated cell population is processed through the set which is associated with a treatment chamber where the cells are treated. Once treated, the cells are returned to the patient. The processing set remains connected to the patient during the entire ECP treatment procedure and provides an online, sterile closed pathway between the separation chamber and the treatment chamber.

The present specification describes a modular, portable hemofiltration system, for providing improved clearance levels of blood toxins, which includes at least one roller pump that is designed and operated to generate a rapidly varying pressure profile of fluid within at least a blood circuit of the hemofiltration system.