Abstract: A device includes a processor and a non-transitory memory having processor-executable instructions stored thereon. The device is usable with a blood treatment apparatus, such as a hemodialysis machine. The processor-executable instructions, when executed by the processor, facilitate: determining a time point with regard to puncturing a vessel of a patient, wherein puncturing the vessel of the patient is related to a blood treatment for the patient using a blood treatment apparatus; determining a time period based on the determined time point; and transmitting data related to the determined time point and/or data related to the determined time period to a receiving device.

Abstract: The present invention relates to a dialysis machine having a dialyzer, an extracorporeal blood circuit, a dialysis solution circuit, and a control unit, wherein a blood leak sensor is arranged downstream of the dialyzer in the dialysis solution circuit, wherein the control unit is configured to initiate an error routine when the signal of the blood leak sensor shows an indication of a presumed blood leak, and wherein a further sensor is furthermore arranged downstream of the dialyzer in the dialysis solution circuit, wherein the control unit is configured to use the signal of the further sensor correlated in time with the signal of the blood leak sensor as a suppression criterion for the initiation of the error routine.

Abstract: The invention relates to a gripper apparatus for a cannulation robot and for gripping a cannula having a cannula holder. The gripper apparatus comprises two gripper elements and a moving device. The two gripper elements can be moved relative to each other and work in concert to grip the cannula holder. The moving device is designed to move the two gripper elements relative to each other and at least one of the gripper elements relative to the cannula holder. The gripper apparatus can thereby be brought into a gripping state, in which at least one of the gripper elements is engaged with the cannula holder, by means of the moving device.

Abstract: An apparatus is provided for producing and/or disengaging a fluid flow-capable medical threaded connection. The connection can be a Luer lock connection. The apparatus includes a first receiving device for receiving a first connecting element, and a second receiving device for receiving a second connecting element. The first receiving device and the second receiving device are rotatable relative to each other about a common screwing axis, and displaceable relative to each other along the screwing axis. The apparatus is designed to relatively move the first receiving device and the second receiving device toward and away from each other such that the first connecting element and the second connecting element can be screwed together or disengaged. An associated connecting element can be introduced into the first receiving device and/or into the second receiving device, in a radial direction relative to the screwing axis. A method is also provided.

Abstract: The present invention relates to a compression aid for compressing a puncture site of a patient, wherein the compression aid comprises a peripheral band whose circumference can be adjusted, with a constant force spring being arranged in the peripheral band.

Abstract: The present invention relates to a method of adding an anticoagulant to the blood of a patient, wherein the addition takes place in the form of a bolus, wherein the bolus application time B depends on the values TBV and CO, with TBV representing the blood volume of the patient and CO the cardiac output of the patient. The present invention furthermore relates to an apparatus for adding a coagulant to the blood of a patient.

Abstract: The invention relates to a detection apparatus and a method for detecting and manipulating a blood vessel under the skin of part of the body of a patient, which comprises a treatment chamber for accommodating the body part, a data processing control device, a vascular structure measuring device for detecting the position and/or dimensions of vascular structure data of the blood vessel in the treatment chamber by measurement, a vascular manipulation device for changing the position and/or dimension of the blood vessel, wherein the control device is designed to control the vascular manipulation device as a function of the vascular structure data.

Abstract: The invention relates to a cannulation robot for the automated affixing of a cannula to a patient. The cannulation robot comprises a fixing apparatus for affixing the cannula to the patient by means of an adhesive carrier. The cannulation robot comprises a positioning device designed to position a cannula holder of the cannula to an area of the patient's skin. The cannulation robot comprises an actuator device for a guide means, wherein the guide means is designed to guide the adhesive carrier to said skin area. The actuator device is designed to activate the guide means and thereby move the adhesive carrier by means of the guide means toward the skin area, wherein the adhesive carrier contacts the skin area as a result of the movement and adheres to same as well as is disposed such that it is connected to the cannula at least after being adhered.

Abstract: The invention relates to a method and an automatic disinfection machine for the controlled disinfection of the skin of a patient comprising a treatment chamber for accommodating the body part with the skin to be disinfected; an electrically controllable disinfecting device for disinfecting the skin, a recording device for recording the disinfection of the skin in the form of disinfection data, a data processing control device for controlling the disinfecting device and the recording device. The control device is thereby designed to effect the disinfection of the skin by controlling the disinfecting device, record the disinfection of a skin section of the skin in the form of disinfection data by controlling the recording device.

Abstract: The present invention relates to a blood treatment machine having a control, having a pump actuator for pumping blood through an extracorporeal blood circuit which comprises an arterial line and a venous line, and having a pressure sensor for detecting the pressure in the venous line, wherein the control has a detection function for detecting a venous needle disconnect which compares a value determined on the basis of the pressure in the venous line with a limit value to recognize a venous needle disconnect, wherein the limit value with which the detection function compares the value determined on the basis of the pressure in the venous line can be set variably and/or is set variably by the control.

Abstract: A device includes a processor and a non-transitory memory having processor-executable instructions stored thereon. The device is usable with a blood treatment apparatus, such as a hemodialysis machine. The processor-executable instructions, when executed by the processor, facilitate: determining a time point with regard to puncturing a vessel of a patient, wherein puncturing the vessel of the patient is related to a blood treatment for the patient using a blood treatment apparatus; determining a time period based on the determined time point; and transmitting data related to the determined time point and/or data related to the determined time period to a receiving device.

Abstract: The invention relates to a device and a method for stopping bleeding at the puncture sites of vessels of patients undergoing an extracorporeal treatment, in particular dialysis. The device has a controller which controls the introduction of fluid into an expandable chamber arranged on a strip-shaped basic element and/or draining from the chamber. The invention also relates to an evaluation unit having at least one sensor for measuring the degree of filling of the chamber. Furthermore, the invention relates to a medical technical treatment unit as an arrangement of a hemodialysis machine and the device.

Abstract: The present invention relates to a dialysis machine having a dialyzer, an extracorporeal blood circuit, a dialysis solution circuit, and a control unit, wherein a blood leak sensor is arranged downstream of the dialyzer in the dialysis solution circuit, wherein the control unit is configured to initiate an error routine when the signal of the blood leak sensor shows an indication of a presumed blood leak, and wherein a further sensor is furthermore arranged downstream of the dialyzer in the dialysis solution circuit, wherein the control unit is configured to use the signal of the further sensor correlated in time with the signal of the blood leak sensor as a suppression criterion for the initiation of the error routine.

Abstract: The present invention relates to a method for checking a dialyzer for the presence of a leak in the semipermeable membrane of the dialyzer, wherein the membrane divides the inner dialyzer space into a least one blood chamber and into at least one dialyzate chamber, wherein the blood chamber is flowed through by blood in the operation of the dialyzer and is in fluid communication with a blood-side line system and the vascular system of the patient, and wherein the dialyzate chamber is flowed through by dialysis fluid in the operation of the dialyzer and is in fluid communication with a dialyzate-side line system, wherein the method comprises the following steps: a) emptying the blood chamber or the dialyzate chamber of blood and of dialysis fluid respectively and keeping the fluid (blood or dialyzate) in the non-emptied dialyzate chamber or blood chamber; b) building up a test pressure by means of a gas, in particular by means of air, in the emptied blood chamber or in the emptied dialyzate chamber; and c)

Abstract: The present invention relates to a method for detecting the body temperature of a patient, wherein the patient has a fistula for draining blood into an extracorporeal circuit and/or for supplying blood from an extracorporeal circuit, wherein a thermal image recording of the fistula or of a part of the fistula is produced by means of an infrared camera for the purpose of detecting the body temperature of the patient. The present invention further relates to a dialysis machine.

Abstract: The invention relates to a system (100) for data-dependent automated cannulation of patient blood vessels, in particular for hemodialysis, comprising: at least one cannulation robot (1) configured for automated cannulating of patient blood vessels, a control system (50, 51) comprising at least one data processing device and which is configured to implement a control procedure which controls the at least one cannulation robot subject to program parameters, at least one user interface device (80), enabling user input by means of which a patient is registered in the control system (50, 51), whereby in consequence of this control system registration procedure, an individually assigned patient identifier, which is referred to as the registered patient identifier, is used for the registered patient, and wherein the control system is configured to define the program parameters as a function of the registered patient identifier and control the at least one cannulation robot (1) as a function of the registered patient

Abstract: The present disclosure relates to a control apparatus, configured to control or regulate a blood treatment apparatus when the latter is connected in signal communication with the control apparatus for a blood treatment that already has been performed or is to be performed. The control apparatus includes at least a switch with a switching section and a signal processing unit. The signal processing unit is configured to receive signals from the foot switch and configured to emit signals to components of the blood treatment apparatus to control or regulate the blood treatment apparatus.

Abstract: The present invention relates to a method of adding an anticoagulant to the blood of a patient, wherein the addition takes place in the form of a bolus, wherein the bolus application time B depends on the values TBV and CO, with TBV representing the blood volume of the patient and CO the cardiac output of the patient. The present invention furthermore relates to an apparatus for adding a coagulant to the blood of a patient.

Abstract: A blood treatment device includes a heat exchanger having a first space and a second space, with a first fluid flowing through the first space and a second fluid flowing through the second space. The heat exchanger has a membrane which separates the first space from the second space, with the membrane forming a component of a capacitor having two capacitor plates, between which the membrane is located. A monitoring means is connected to the capacitor, and is configured to detect an electrical property of the capacitor, for the purpose of detecting a fluid leak from the first space to the second space.

Abstract: The invention relates to a detection apparatus and a method for detecting and manipulating a blood vessel under the skin of part of the body of a patient, which comprises a treatment chamber for accommodating the body part, a data processing control device, a vascular structure measuring device for detecting the position and/or dimensions of vascular structure data of the blood vessel in the treatment chamber by measurement, a vascular manipulation device for changing the position and/or dimension of the blood vessel, wherein the control device is designed to control the vascular manipulation device as a function of the vascular structure data.