A method and device for controlling anticoagulation during blood treatment. The method includes conveying blood in a first line section, supplying biologically and/or pharmacologically active substances of negative total charge to the blood, separating the blood into corpuscular blood components and blood plasma, conveying the blood plasma in a second line section via an anion exchanger, bringing the blood plasma and corpuscular blood components together in a third line section, determining a first flow rate of blood plasma in the first line section, determining a second flow rate of blood plasma in the second line section, setting a quantity of biologically and/or pharmacologically active substances based on a ratio of the first and second flow rates such that, after the blood plasma and corpuscular blood components are brought together, a concentration of the biologically and/or pharmacologically active substances in the third line section meets a target value.

Disclosed are methods, materials and devices for approximation of blood volume in a fluid, such as in a biological fluid collected during a surgical procedure. The method and devices may include the use of an RBC flocculant, for example polyDADMAC, and an approximate blood hematocrit from the type of animal blood being evaluated, as well as a calculated RBC packing ratio corresponding to the collection device being used. Also provided is a Blood Indicator Panel (BIP), comprising a series of markings calculated from an observed red blood settlement volume, the average animal blood hematocrit, and a calculated RBC packing ratio “n” value for the collection device. A collection device with a BIP is disclosed. Pediatric (about 200 ml or 250 ml size container), adult human (about 1,000 ml -1,500 ml) and veterinary (about 500 ml - 2,500 ml) collection containers are also disclosed, that include a RBC flocculant, for use in approximating blood volume in a fluid.

A method of treating a human subject which is effected by inhalation of gaseous nitric oxide, the method comprising a first treatment period comprising administering gNO by inhalation over a period of about at least 5 days, wherein the first treatment period is followed by a second treatment period comprising administering gNO by inhalation over a period of at least 3 months. The method can be utilized for treating a human subject suffering from, or prone to suffer from, a disease or disorder that is manifested in the respiratory tract, or from a disease or disorder that can be treated via the respiratory tract.

Disclosed are methods, materials and devices for approximation of blood volume in a fluid, such as in a biological fluid collected during a surgical procedure. The method and devices include the use of a RBC flocculant, such as polyDADMAC, and an approximate blood hematocrit for the type of animal, as well as a calculated RBC packing ratio corresponding to the collection device being used. Also provided is a Blood Indicator Panel (BIP), comprising a series of markings calculated from an observed red blood settlement volume, the average animal type hematocrit, and a calculated RBC packing ratio “η” value for the collection device. Pediatric (about 200 ml or 250 ml size container), adult human (about 1,000 ml-1,500 ml) and veterinary (about 500 ml-2,500 ml) collection containers are also disclosed, that include a RBC flocculant, for use in approximating blood volume in a fluid.

A blood filtration system can reduce the amount of plasma constituents (e.g., water and/or electrolytes) in the blood of the patient, and accordingly increase the hematocrit value of the patient. The blood filtration system (e.g., a controller, or the like) can determine a hematocrit value of a patient. The blood filtration system can determine a venous pressure of vasculature of a patient. The blood filtration system can compensate for pressure head in a component of a blood circuit (e.g., a withdrawal line of a catheter), for example to improve the accuracy of the venous pressure determination. The blood filtration system can determine one or more resistance characteristics of a blood circuit for the blood filtration system. The resistance characteristics can correspond to a resistance to a flow of blood through a component of the blood circuit.

A system for monitoring percentage change in blood volume (ΔBV %) during dialysis treatment includes a sensor device configured to obtain hematocrit (Hct)-related measurements based on detecting light which has passed through extracorporeal blood of a patient undergoing the dialysis treatment; one or more controllers configured to: determine Hct values based on the Hct-related measurements obtained by the sensor device; determine ΔBV % values based on the determined Hct values; and generate a GUI having a ΔBV % plot based on the determined ΔBV % values; and a display device having a display configured to display the GUI having the ΔBV % plot. Zone indicators are provided on the display to distinguish between a first zone corresponding to a first ΔBV % profile, a second zone corresponding to a second ΔBV % profile, and a third zone corresponding to a third ΔBV % profile.

The present disclosure relates to a system and a method for determining the dry weight of a patient after dialysis therapy, wherein the patient's blood volume is monitored and blood volume values are output. The blood volume values are recorded and evaluated for a predetermined period of time after reaching an ultrafiltration volume appropriately predetermined for the patient, wherein the dry weight of the patient then is determined on the basis of the rate of change of the blood volume during the predetermined period of time.

A blood component separation device for separating a plurality of blood components from blood sampled from a blood donor, and collecting platelets, includes: an operation unit that calculates a predicted platelet recovery rate from a hematocrit value of the blood and a platelet concentration of the blood, and calculates a recommended processing amount of the blood recommended for collecting a target number of units of platelets on the basis of the calculated predicted platelet recovery rate, wherein the operating unit sets the predicted platelet recovery rate calculated from any the hematocrit value and any the platelet concentration to be smaller by a predetermined value a when the blood donor is female than that when the blood donor is male.

Techniques and apparatus for de-priming processes are described. For example, in one embodiment, an apparatus may include at least one processor and a memory coupled to the at least one processor, the memory may include instructions that, when executed by the processor, may cause the at least one processor to determine a priming volume of a primer fluid infused into a priming system associated with the patient during a priming phase of the dialysis treatment, cause an ultrafiltration rate of an ultrafiltration pump of the dialysis machine in fluid communication with the patient to be changed from a treatment ultrafiltration rate to a de-priming ultrafiltration rate to remove the priming volume over a de-priming time period, and cause, after the de-priming time period, the ultrafiltration rate of the ultrafiltration pump to be changed back the treatment ultrafiltration rate. Other embodiments are described.

Provided are a blood purification system, etc., to enable more achieve more efficient purification of blood. A blood purification system includes a line through which a liquid containing blood or filtrate flows, a blood purification device to purify the blood flowing through the line, a supply device to supply dialysate or replacement fluid to the line, a detector to detect blood information relating to the blood flowing through the line, a liquid control mechanism to control flow of liquid in the line based on control parameters, a parameter acquisition module to input the detected blood information into a learning model trained to output predetermined control parameters when predetermined blood information is input, and acquires control parameters outputted from the learning model, and a control module to control the liquid control mechanism based on the acquired control parameters.