The invention relates to a connector (1) constituted by: base provided with a tubular wall (13) closed by a bottom wall (11) provided with at least one through-opening (111); a membrane provided with a flexible wall (23) having a central opening, a tubing (22) placed in the opening of the flexible wall; sealing means for preventing a liquid from leaving the connector through the tubing. The base and the membrane are fixed to each other in a liquid-tight manner. The flexible wall allows axial displacement of the tubing so that it can be moved between a closed position, in which a liquid cannot leave the connector through the conduit of the tubing, and an open position, in which a liquid from can leave the connector through the tubing. Retaining means (121, 222a) maintain the tubing (22) closed with a force that can be overcome manually to open it.

A peritoneal dialysis system includes (i) a fill container, and (ii) an energizing unit that removably accepts the fill container, the energizing unit including a sterilization source so configured and arranged relative to the fill container when accepted by the energizing unit to place fluid within the fill container in a physiologically safe condition for delivery to the peritoneal cavity of a patient.

A method for stabilizing dialysate consumption flow in a central distribution loop for a plurality of dialysis machines comprises: coordinating each dialysate dispensing cycle of active ones of the dialysis machines; calculating dialysate or concentrates consumption based on amount required in each dialysate dispensing cycle of the active dialysis machines; and preparing the dialysate based on the calculated dialysate or concentrates consumption required by the active dialysis machines. Also a corresponding apparatus and a corresponding central dialysate preparation and distribution system are disclosed, wherein the apparatus at least comprises: a coordinating module configured to coordinate each dialysate dispensing cycle of active ones of the dialysis machines; a calculating module configured to calculate dialysate or concentrates consumption based on amount required in each dialysate dispensing cycle of the active dialysis machines; and a mixing control module, for preparing the dialysate based on the calculated dialysate or concentrates consumption.

A blood purification device for blood purification therapy performed through a blood purifier, the blood purification device includes piping; a plurality of sensors of different detection types that are provided on the piping; and a liquid chemical identification unit that identifies a type of a cleaning/disinfection liquid chemical flowing through the piping by using the plurality of sensors. The liquid chemical identification unit is configured to be able to identify types of the liquid chemicals of at least not less than the number of the plurality of sensors by using the plurality of sensors.

An indirect drain flush system incorporating hot water to facilitate the transport of kidney dialysis effluent to wastewater treatment facilities is provided. Heated water is discharged into a waste line through an air gap, and the heated water increases the molecular interchange of fatty substances in the dialysis effluent, decreasing the viscosity of those fatty substances and preventing them from coagulating or crystalizing on pipes and drains. An air admittance valve may prevent negative pressure from building up within the system.

A system and a solution-preparation-determining apparatus which determines whether additional preparation of an undiluted dialysate solution is necessary. A blood purification system includes a solution-preparing unit that prepares an undiluted dialysate solution, a dialysate-supplying unit that prepares a working dialysate at a predetermined concentration by diluting the undiluted dialysate solution received from the solution-preparing unit, a blood-purification-treatment section that includes a blood-purification-apparatus group including at least one blood purification apparatus that performs blood purification treatment in which the working dialysate is supplied to the blood-purification-apparatus group, and a determining unit that determines whether additional preparation of the undiluted dialysate solution is necessary from a result of comparison between an estimated number of treatment sessions expected to be performed by the blood-purification-apparatus group throughout a predetermined period and an actual number of treatment sessions performed by the blood-purification-apparatus group as of a time point during the predetermined period.

A method for stabilizing dialysate consumption flow in a central distribution loop for a plurality of dialysis machines comprises: coordinating each dialysate dispensing cycle of active ones of the dialysis machines; calculating dialysate or concentrates consumption based on amount required in each dialysate dispensing cycle of the active dialysis machines; and preparing the dialysate based on the calculated dialysate or concentrates consumption required by the active dialysis machines. Also a corresponding apparatus and a corresponding central dialysate preparation and distribution system are disclosed, wherein the apparatus at least comprises: a coordinating module configured to coordinate each dialysate dispensing cycle of active ones of the dialysis machines; a calculating module configured to calculate dialysate or concentrates consumption based on amount required in each dialysate dispensing cycle of the active dialysis machines; and a mixing control module, for preparing the dialysate based on the calculated dialysate or concentrates consumption.

A centrally controlled multi-patient dialysis treatment system (1) as disclosed herein comprises: a dialysate preparation unit (2) configured to prepare a dialysate based on a prescription and control dialysate delivery for dialysis treatments in progress; one or more dialysate modules (3) configured to deliver the dialysate to a dialyzer (4) and control an ultrafiltration process; and one or more patient modules (5) configured to control an extracorporeal blood flow through the dialyzer (4) for the dialysis treatment, wherein the dialysate preparation unit (2), the dialysate modules (3) and the patient modules (5) are configured to be adapted to be assembled into an integrated dialysis treatment system suitable for one or more patients (6). Also an use of the centrally controlled multi-patient dialysis treatment system (1) for one or more patients' dialysis treatments is disclosed herein. For the centrally controlled multi-patient dialysis treatment system, in contrast to the conventional in-center dialysis infrastructures, in addition to cost saving, it is highly space efficient. Moreover, the centrally controlled multi-patient dialysis treatment system is robust and easy to setup.

An extracorporeal blood treatment device is provided that includes a hydraulic system having a plurality of flow paths. A control unit provides an operating mode for disinfecting the hydraulic system with a liquid supplied via one of the flow paths. A method for operating the extracorporeal blood treatment device is also provided. The hydraulic system has a valve device that provides several switching positions. The valve device has an inlet for a liquid for disinfecting the hydraulic system, and a plurality of outlets. In a first switching position, the inlet is connected to one of the outlets. In another switching position, the inlet is connected to a plurality of the outlets. The inlet of the valve device is in fluid communication with a first flow path and the outlets are in fluid communication with another flow path. Disinfecting liquid can simultaneously be supplied to the individual flow paths.

A dialysis base unit that is provided separately from a dialysate supply device for delivering dialysate and performs hemodialysis using the dialysate delivered from the dialysate supply device. The dialysis base unit includes a dialysate supply device identifying unit capable of identifying the dialysate supply device connected to the dialysis base unit. A dialysis system includes the dialysate supply device for delivering dialysate and the dialysis base unit.