Methods and systems for monitoring fluid levels and electrolyte levels used in a dialysis machine. A receptacle, configured to receive a container, comprises a plurality of curved side panels and a base to form a cylindrical shaped cavity for receiving a container. Each panel includes a conductive material on its inner surface and, optionally, a shielding on its outer surface. An electronics component housed within, or near, the receptacle drives the capacitive process and interprets generated data to determine fluid levels and compositions. An alternate receptacle includes one or two coils wrapped about the container and uses induction to determine fluid level.

Methods and systems for monitoring fluid levels and electrolyte levels used in a dialysis machine. A receptacle, configured to receive a container, comprises a plurality of curved side panels and a base to form a cylindrical shaped cavity for receiving a container. Each panel includes a conductive material on its inner surface and, optionally, a shielding on its outer surface. An electronics component housed within, or near, the receptacle drives the capacitive process and interprets generated data to determine fluid levels and compositions. An alternate receptacle includes one or two coils wrapped about the container and uses induction to determine fluid level.

Provided is a detector assembly for determining a ratio of lactate to pyruvate from dialysis, said detector assembly comprising: a first pump, a dialysis probe, a first tube fluidically coupling the first pump to an inlet of the dialysis probe, an infrared (IR) detector, a second tube fluidically coupling an outlet of the dialysis probe to the IR detector, and a controller. The first pump pumps a perfusate at a first flow rate to the dialysis probe, via the first tube, and to, in turn, pump a dialysate at a second flow from the dialysis probe to the IR detector, via the second tube. The IR detector detects respective absorbances due to lactate and pyruvate in the dialysate, and the controller determines the ratio of lactate to pyruvate in the dialysate.

Equipment for the control of biomedical devices during extracorporeal circulation. The equipment includes at least one basic structure and a (e.g., tangible) controller or a control unit/device/component/etc. that is assembled on the basic structure and provided with at least one control unit/etc. operationally connectable to at least one biomedical device for extracorporeal circulation and configured to control it. The controller/etc. comprise at least one emergency control unit, operationally connectable to the biomedical device and configured to control the latter following a malfunction of the control unit.

It is provided a method and devices for detecting kidney failure and dialysis of a subject wherein the epidermis is irreversibly electroporated without generating any heat and a negative pressure is applied forming micro-conduits in the epidermis from which the interstitial fluid can be extracted, analysed and filtered to produce for example a dialysate and returned to the subject.

It is provided a method and devices for detecting kidney failure and dialysis of a subject wherein the epidermis is irreversibly electroporated without generating any heat and a negative pressure is applied forming micro-conduits in the epidermis from which the interstitial fluid can be extracted, analysed and filtered to produce for example a dialysate and returned to the subject.

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.

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.

In some examples, a smart assistant device may receive information associated with a previous medical treatment provided to a patient by one or more medical devices. The smart assistant device may determine, based at least in part on the received information and a medical treatment plan for the patient, an adjustment to one or more parameters of an upcoming scheduled medical treatment provided by the one or more medical devices. The smart assistant device may program or otherwise control the one or more medical devices to make the adjustment to the one or more parameters of the upcoming scheduled medical treatment provided by the one or more medical devices.

This disclosure relates to a medical device including a hard part and a converter. The hard part has fluid paths for conducting a medical fluid through the hard part. The converter is arranged to measure a characteristic of the medical fluid while the medical fluid is present in one of the fluid paths. At least a section of the converter is applied or superimposed to the hard part by at least one additive application method.