Abstract: 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.

Abstract: 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.

Abstract: 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.