Methods and for treatment of cancer and other diseases including complications from late stage viral infections by inducing hyperthermia in a patient relying on withdrawing blood from the patient and returning the withdrawn blood to the patient to establish an extracorporeal flow circuit. Blood is heated by passing through the extracorporeal circuit at a controlled rate until a target body core temperature in is achieved. Usually, the blood will be subjected to a continuously re-circulating dialysis to balance electrolytes. Additionally, the blood will be subjected to a continuously recirculating regeneration through a carbon sorbent column where toxins and contaminants are removed. The blood temperature is maintained at the target blood temperature for a treatment period, and the blood is cooled after the treatment period has been completed. The method can also be effective in treating rheumatoid arthritis, scleroderma, hepatitis, sepsis, the Epstein-Barr virus, and patients with life threatening complications from other viruses, including the COVID-19 virus. A method for removing viruses from the blood supply in an external circuit is also presented.

Dialysis systems are disclosed comprising new fluid flow circuits. Systems may include blood and dialysate flow paths, where the dialysate flow path includes balancing, mixing, and/or directing circuits. Dialysate preparation may be decoupled from patient dialysis. Circuits may be defined within one or more cassettes. The fluid circuit fluid flow paths may be isolated from electrical components. A gas supply in fluid communication with the dialysate flow path and/or the dialyzer able to urge dialysate through the dialyzer and urge blood back to the patient may be included for certain emergency situations. Fluid handling devices, such as pumps, valves, and mixers that to can be actuated using a control fluid may be included. Control fluid may be delivered by an external pump or other device, which may be detachable and/or generally rigid, optionally with a diaphragm dividing the device into first and second compartments.

A blood purification apparatus that includes a blood circuit including an arterial blood circuit and a venous blood circuit and through which blood of a patient is allowed to extracorporeally circulate; a blood purification unit connected to and provided between the arterial blood circuit and the venous blood circuit and that purifies the blood flowing through the blood circuit; a blood pump provided to the arterial blood circuit and that delivers the blood of the patient from a distal end of the arterial blood circuit to a distal end of the venous blood circuit; a substitution line through which a substitution fluid is allowed to be introduced into the blood circuit; and an infusion portion attached to the substitution line and from which a predetermined liquid drug to be administered to the patient is allowed to be infused into the substitution line. The blood purification apparatus includes a control unit that executes a drug introduction mode in which the substitution fluid in the substitution line is introduced into the blood circuit, the control unit causing the liquid drug infused from the infusion portion in the drug introduction mode to be introduced into the blood circuit together with the substitution fluid; and a calculation unit that calculates a volume of the substitution fluid introduced from the substitution line into the blood circuit with the execution of the drug introduction mode.

A home dialysis machine network is provided that includes a home dialysis machine and one or more walk-up service centers. The walk-up service center can be equipped with a diagnostic tool, parts, or supplies for the home dialysis machine. Methods of maintaining a home dialysis machine are also provided as are service centers equipped with a transportation service or office, a diagnostics department, an education and training department, a consultation department, an exercise and spa department, an entertainment department, a sales department, a repair shop, a new technologies department, a pharmacy, and a doctor's office.

The invention relates to devices, systems, and methods for recharging zirconium phosphate and/or zirconium oxide in reusable sorbent modules. The devices, systems, and methods provide for precision recharging of the zirconium phosphate and/or zirconium oxide to avoid the need of excess recharge solutions. The devices systems and methods also provide for calculation of the volumes of recharge solution needed for fully recharging the zirconium phosphate and zirconium oxide modules.

Dialysis systems are disclosed comprising new fluid flow circuits. Systems may include blood and dialysate flow paths, where the dialysate flow path includes balancing, mixing, and/or directing circuits. Dialysate preparation may be decoupled from patient dialysis. Circuits may be defined within one or more cassettes. The fluid circuit fluid flow paths may be isolated from electrical components. A gas supply in fluid communication with the dialysate flow path and/or the dialyzer able to urge dialysate through the dialyzer and urge blood back to the patient may be included for certain emergency situations. Fluid handling devices, such as pumps, valves, and mixers that can be actuated using a control fluid may be included. Control fluid may be delivered by an external pump or other device, which may be detachable and/or generally rigid, optionally with a diaphragm dividing the device into first and second compartments.

Provided herein are methods for maintaining physiological levels of thiosulfate in a subject undergoing hemodialysis. Also provided herein are methods of administering pharmaceutically acceptable sodium thiosulfate to a subject undergoing hemodialysis.

A device and method for providing a medical solution is described. The device comprises a first chamber adapted to have a defined volume, the first chamber is configured to be connected to a liquid providing system to fill the first chamber with the defined volume of liquid. A connector for connecting a container including at least one powder; the connector has an inlet and an outlet. A channel connecting the first chamber with the inlet of the connector, and an outlet for distributing the medical solution. The device is configured to mix the at least one powder with the defined volume of liquid for a period of time, and wherein the device is configured to fill the first chamber with the liquid from the liquid providing system while mixing the medical solution and/or distributing the mixed medical solution through the outlet.

A dialysis device comprises at least a first membrane and a second membrane, wherein a first chamber formed by the first membrane is configured to receive a first fluid; a second chamber formed by the second membrane is configured to receive a second fluid; a third chamber formed in between a housing, the first membrane and the second membrane is configured to receive a third fluid; the first fluid flowing through the first membrane can be indirectly communicated with the second fluid flowing through the second membrane via the third fluid. A dialysis system, use of the dialysis device, a method for establishing the dialysis system, a method for filling and/or priming the dialysis system and a method for removing air are further disclosed. The dialysis device and the dialysis system are suitable for viscous biological dialysis fluid and no direct flow occurs between the patient and the dialysis fluid.

There is provided an apparatus for extracorporeal blood treatment, comprising: a treatment unit (10), a blood circuit coupled to the treatment unit (10), a blood pump (22) configured to be coupled to a pump section of the blood circuit, at least two fluid lines (40, 60, 70, 70b, 70c) connected to respective containers (48, 68, 78, 88) and to the blood circuit and/or to the treatment unit (10). The apparatus further comprises a fluid dispatcher (300) having a common zone (310), wherein said at least two fluid lines (40, 60, 70, 70b, 70c) are connected one to the other at said common zone (310) upstream the blood circuit, for selectively allowing fluid flow between said at least two fluid lines (40, 60, 70, 70b, 70c) through said common zone (310).