Provided are a blood purifying filter and a blood purifying apparatus having the same. The blood purifying filter includes a plasma separation filter separating plasma from blood, a hemodialysis filter configured in parallel with the plasma separation filter to remove toxins and waste products from blood, a housing providing installation space for the plasma separation filter and the hemodialysis filter, and plasma inlet and outlet ports provided in the housing. The housing further includes a wall, a lower cap and an upper cap which are coupled to the plasma separation filter and the hemodialysis filter.

Provided are a blood purifying filter and a blood purifying apparatus including the same. The blood purifying filter includes a plasma separation filter, a hemodialysis filter, a housing, and a plasma outlet. The plasma separation filter separates plasma from blood. The hemodialysis filter removes toxins and waste products from blood. The housing provides installation spaces for the plasma separation filter and the hemodialysis filter and defines a plasma flow section outside the plasma separation filter and the hemodialysis filter. The plasma outlet is provided at one side of the housing to allow plasma passing the plasma flow section to be discharged out of the blood purifying filter.

Embodiments for a blood plasma and red blood cell generation device are disclosed. The device may operate as an alternative modality of the dialysis machine, as part of the dialysis machine and/or as an add-on module. The fluid handling components of the plasma generation system may be integrated with a microprocessor unit for controlling and executing generation of plasma, or a control unit of the dialysis machine may be adapted to control the plasma generation aspects of the treatment.

Systems and methods are provided for performing a medical procedure within a patient's body that involves a thoracic duct including an ostium communicating with the patient's venous system. A distal end of a catheter is introduced through the patient's venous system into a body lumen adjacent the ostium of the thoracic duct. An expandable member on the distal end of the tubular member may be expanded adjacent the ostium, e.g., within the body lumen or the thoracic duct itself, and used to isolate the thoracic duct from the body lumen, whereupon a medical procedure may be performed via the thoracic duct. For example, lymphatic fluid may be removed from the thoracic duct through a lumen of the tubular member and/or one or more agents may be introduced into the thoracic duct through the tubular member.

Disclosed is a hemofiltration device, system and method for rapid solute removal from a patient's blood. The device, system and method employ a hemofiltration assembly for a high blood flow extracorporeal circuit, such as an ECMO circuit, configured to achieve high-efficiency, high-flux convective solute clearance, and optionally diffusive solute clearance, and include one or more hemofilters having greater filter medium surface area in a circuit having greater flow rates than previously implemented RRT modalities, and may offer rapid clearance of toxins, including those not currently dialyzable (e.g., those with high volumes of distribution).

A blood analysis system for analysis and correction of blood of a subject includes a centrifugation unit to receive blood of a subject. The centrifugation unit is configured to hold capturing molecules for chemical capture of molecules and/or ions that deactivate at least one of coagulation and complement pathways in the blood and centrifuge to suspend cellular components with a minimal plasma along with the capturing molecules. The blood analysis system includes a correction unit coupled to the centrifugation unit to receive the minimal plasma having the capturing molecules and the cellular components from the centrifugation unit. The correction unit is configured to extract the capturing molecules from the minimal plasma, prior to infusing the minimal plasma having the cellular components along with replaced captured molecules and/or ions back to the subject and discarding the extracted capturing molecules.

An extracorporeal blood treatment device and a method are provided for removing a secondary membrane formed on a semipermeable membrane of a dialyzer during an extracorporeal blood treatment. The extracorporeal blood treatment device operates in a first operating mode in which a dialysate outlet valve is open such that dialysate flows through a dialyzer feed line, through a dialysate chamber, and into and through a dialyzer discharge line. The extracorporeal blood treatment device operates in a second operating mode to remove the secondary membrane from the semipermeable membrane. During the second operating mode, the dialysate outlet valve is closed for a duration of time such that dialysate is prevented from flowing through the dialyzer discharge line. A backflush procedure results wherein a volume of dialysate passes from the dialysate chamber through the semipermeable membrane and into the blood chamber.

An extracorporeal blood treatment device and a method are provided for removing a secondary membrane formed on a semipermeable membrane of a dialyzer during an extracorporeal blood treatment. The extracorporeal blood treatment device operates in a first operating mode in which a dialysate outlet valve is open such that dialysate flows through a dialyzer feed line, through a dialysate chamber, and into and through a dialyzer discharge line. The extracorporeal blood treatment device operates in a second operating mode to remove the secondary membrane from the semipermeable membrane. During the second operating mode, the dialysate outlet valve is closed for a duration of time such that dialysate is prevented from flowing through the dialyzer discharge line. A backflush procedure results wherein a volume of dialysate passes from the dialysate chamber through the semipermeable membrane and into the blood chamber.