The invention relates to a system for dialysis, comprising a housing comprising a flow path along which dialysate passes between a subject and a dialysate reservoir; a pump arranged to drive dialysate along the flow path; a sensing system arranged in the housing configured to sense one or more characteristics of the dialysate to produce an output; and a processor configured to observe said output to determine whether to switch on or off the pump such as based on pressure of the dialysate is above a predetermined value or a flow rate of the dialysate determined by the sensing system is zero. In a preferred embodiment, the one or more characteristics comprise at least one of turbidity, pressure and colour of the dialysate and the sensing system includes an optical sensor, a turbidity sensor and a pressure sensor.

The present disclosure relates to a method for determining or recommending a time point for measuring a patient's pressure readings during a blood treatment session. The method encompasses monitoring the ultrafiltration rate with which the patient's blood is treated, a relative blood volume, and/or a sodium concentration or a change in any of these, for the existence of, or meeting any pre-determined criterion for the ultrafiltration, the relative blood volume, and/or the sodium concentration, or the change thereto. Furthermore, the method encompasses transmitting a signal to a blood pressure measuring device when the pre-determined criterion for the ultrafiltration rate, the relative blood volume, and/or the sodium concentration or the change thereto is met.

A dialysis device (100) comprises: a dialyzer for exchange of substances between a blood flow and a dialysate flow in a dialysis area (106) of the dialyzer, wherein the dialyzer comprises a dialyzer membrane (110) for passing toxins in the blood flow to the dialysate flow through pores (112) of the dialyzer membrane (110); and a capacitively coupled generator (120) for generating electromagnetic fields in the dialysis area (106) for loosening electrostatic bonds between toxins and proteins in the blood flow, wherein the generator (120) is capacitively coupled to the blood flow and to the dialysate flow on opposite sides of the dialyzer membrane, and wherein the dialysate membrane (110) is formed of a material having lower conductance than blood and dialysate such that a large electromagnetic field strength is provided across the pores (112) of the dialyzer membrane (110).

Systems and methods for managing the pH of a dialysate fluid during hemodialysis therapy. The systems and methods adjust dialysate pH and buffer concentration to generate a predetermined total bicarbonate buffer concentration in a dialysate entering a dialyzer.

A pump cassette is disclosed. The pump cassette includes a housing having at least one fluid inlet line and at least one fluid outlet line. The cassette also includes at least one reciprocating pressure displacement membrane pump within the housing. The pressure pump pumps a fluid from the fluid inlet line to the fluid outlet line. A hollow spike is also included on the housing as well as at least one metering pump. The metering pump is fluidly connected to the hollow spike on the housing and to a metering pump fluid line. The metering pump fluid line is fluidly connected to the fluid outlet line.

A hemodialysis machine comprising a fluid pathway for delivering a dialysate solution, wherein the fluid pathway comprises a pre-dialysis pathway and a post-dialysis pathway, a dialyser for dialysing patient's blood using the dialysate solution, the dialyser connected between the pre-dialysis pathway and the post-dialysis pathway, a first sensor system configured to sense a characteristic of the dialysate solution at a first location on the pre-dialysis pathway, a second sensor system configured to sense a characteristic of the dialysate solution at a second location on the post-dialysis pathway, and a control system configured to make a comparative analysis of the measurements taken by the first sensor and the second sensor for monitoring the composition of the dialysate solution.

An electro-osmosis pump system includes an inlet line through which a fluid is introduced, an outlet line through which the fluid is discharged, a first pump disposed between the inlet line and the outlet line and including a first housing in which a first operation fluid is disposed, a second pump disposed in parallel to the first pump between the inlet line and the outlet line and including a second housing in which a second operation fluid disposed, and a power supply configured to supply voltages to the first pump and the second pump. The first pump includes a first membrane, a 1A-th electrode, and a 2A-th electrode, the second pump includes a second membrane, a 1B-th electrode, and a 2B-th electrode, and the power supply supplies the voltage to the 1A-th electrode and the 2A-th electrode, and supplies the voltage to the 1B-th electrode and the 2B-th electrode.

An extracorporeal blood treatment apparatus comprises: a blood treatment device (2) comprising a blood chamber (3) and a fluid chamber (4) separated from one another by a semipermeable membrane (5); an extracorporeal blood circuit (17) comprising a blood withdrawal line (6) connected to an inlet port (3a) of the blood chamber (3) and a blood return line (7) connected to an outlet port (3b) of the blood chamber (3); a blood pump (21) configured to be coupled to the blood withdrawal line (6); a hydraulic circuit (100) connectable to the fluid chamber (4), wherein the hydraulic circuit (100) comprises a fluid preparation device (9) connected to a water network (14) and configured to dilute concentrates in water to prepare a treatment fluid; a control unit (12) connected to the preparation device (9) and to the blood pump (21). The control unit (12) is configured to execute the following procedure: setting the hydraulic circuit (100) so that the fluid preparation device (9) bypasses the fluid chamber (4); controlling the fluid preparation device (9) to prepare the treatment fluid while bypassing the fluid chamber (4); and simultaneously controlling the blood pump (21) to perform pure ultrafiltration of a patient (P) connected to the extracorporeal blood circuit (17).

Systems and methods for managing the pH of a dialysate fluid during hemodialysis therapy. The systems and methods adjust dialysate pH and buffer concentration to generate a predetermined total bicarbonate buffer concentration in a dialysate entering a dialyzer.

A direct sodium removal (“DSR”) infusate regimen and methods of use are provided for removing sodium and reducing fluid overload in patients with severe renal dysfunction and/or heart failure, in which a patient has at least a first DSR session with a first DSR infusate having no or low sodium that is instilled into a patient's peritoneal cavity for a first dwell period to cause sodium and excess fluid to migrate to the patient's peritoneal cavity, and thereafter, the patient may undergo conventional dialysis to rebalance the patient's fluid and sodium levels.