摘要:
Embodiments relate to a heart monitor, which is connected to or can be connected to at least one sensor for pressure and volume data or equivalent substitute variables and which comprises an evaluation unit for processing at least one input signal reflecting the temporal course of pressure and volume data or equivalent substitute variables of the heart. The evaluation unit is configured such that it segments the input signal in accordance with individual completed cardiac cycles and examines segments of the input signal obtained in this way as to whether a particular segment of the input signal represents a PV diagram, which corresponds to specified quality conditions regarding the direction of circulation, morphology and distance between a starting and end values.
摘要:
Embodiments relate to a heart monitor, which is connected to or can be connected to at least one sensor for pressure and volume data or equivalent substitute variables and which comprises an evaluation unit for processing at least one input signal reflecting the temporal course of pressure and volume data or equivalent substitute variables of the heart. The evaluation unit is configured such that it segments the input signal in accordance with individual completed cardiac cycles and examines segments of the input signal obtained in this way as to whether a particular segment of the input signal represents a PV diagram, which corresponds to specified quality conditions regarding the direction of circulation, morphology and distance between a starting and end values.
摘要:
A biventricular cardiac stimulator is disclosed, comprising a right ventricular stimulation unit, a left ventricular stimulation unit, and a pacemaker timer. In order to detect the effect of a particular atrioventricular delay time (AVD) and a particular interventricular delay time (VVD), the cardiac stimulator has a detector for sensing a hemodynamic benefit. To optimize AVD and VVD, the pacemaker timer is connected to a memory for a particular instantaneous value for the atrioventricular delay time (AVDinst) and the interventricular delay time (VVDinst), and may be used to trigger at certain points in time at least one right ventricular trigger signal and one left ventricular trigger signal, based on new values for the atrioventricular delay time (AVDtest) and the interventricular delay time (VVDtest) which differ from the instantaneous values for the atrioventricular delay time (AVDinst) and the interventricular delay time (VVDinst).
摘要:
A monitoring device for a patient for predicting a cardiovascular anomaly and a method for operating a monitoring device is provided. Furthermore, an implantable electrotherapy device, such as an implantable cardiac pacemaker, an implantable cardioverter, or an implantable defibrillator, having a monitoring device are also provided. In an embodiment, the monitoring device acquires a value change of a hemodynamic parameter, which occurs as a result of a detected value change of a state parameter, for example, as a result of an activation or deactivation of a cardiac resynchronization therapy. By suitable evaluation of the value change of the hemodynamic parameter, the monitoring device can output an evaluation result signal which is indicative of an imminence of a cardiovascular anomaly, such as a cardiac decompensation, long beforehand and with high specificity.
摘要:
A monitoring apparatus having a signal input for signals representing measurement values of one or more physiological parameters, and an evaluation and processing unit connected to the signal input. The evaluation and processing unit is designed to select, or differently weight, individual values from the values received for further processing based on one or more criteria such that measurement values raising doubts as to the validity thereof are not selected or given a very low weighting.
摘要:
A monitoring apparatus having a signal input for signals representing measurement values of one or more physiological parameters, and an evaluation and processing unit connected to the signal input. The evaluation and processing unit is designed to select, or differently weight, individual values from the values received for further processing based on one or more criteria such that measurement values raising doubts as to the validity thereof are not selected or given a very low weighting.
摘要:
An implantable measurement arrangement for intracorporeal acoustic measurement of geometric parameters and motion parameters in and on organs and/or tissues of a patient includes an implantable device, in particular an electromedical device; an implantable sonic transducer for transmitting and receiving ultrasonic waves, the transducer being in signal connection with the implantable device; and an implantable reflector in communication with the implantable device and situated at a distance from the sonic transducer for reflecting the ultrasonic waves back in the direction of the sonic transducer. The electromedical device can analyze the ultrasonic waves picked up and reflected back by the sonic transducer.
摘要:
An electromedical implant for monitoring a thoracic property of a living being is provided that includes a detector arrangement including an impedance measuring unit and an electrode arrangement, which are equipped to capture a measurement signal associated with the thoracic property in the form of an impedance signal; a monitoring arrangement, which is connected to the detector arrangement and equipped to generate a parameter from the measurement signal that is indicative of the thoracic property, and an evaluation unit, which is connected to the monitoring arrangement and equipped to determine an evaluation result regarding the thoracic property based on the parameter. According to the invention, the electrode arrangement comprises at least a plurality of mutually isolated electrodes, which are disposed on the housing and operatively connected by way of the impedance measuring unit and which can be separately controlled, wherein an electrode body has a strip shape.
摘要:
An electromedical implant (100, 101, 102, 103) for monitoring a cardiac blood flow (B1) of a patient includes a detector (10, 10′, 10″) which obtains a first measurement signal (S1) associated with the cardiac blood flow (B1) and a second measurement signal (S2) associated with the epithoracic, peripheral blood flow (B2). A monitoring assembly (20) then generates a first parameter (P1) from the first measurement signal (S1) which is indicative of a time (tsys) at which blood is ejected from the heart, and a second parameter (2) from the second measurement signal (S2) which is indicative of a time (tgef) of a blood pulse in the thoracic tissue which is associated with the ejection of blood. An evaluation unit (30) then generates a pulse transit time (Δt=tgef−tsys) from the first parameter (P1) and the second parameter (P2). The detector (10, 10′, 10″) includes an impedance measuring unit (12) having an electrode assembly (11, 11′) for detection of at least the second measurement signal (S2) in the form of an impedance signal.
摘要:
The invention concerns implantable cardiac stimulation devices in general which have at least one stimulation pulse generator (A-STIM; RV-STIM; LV-STIM) to selectively generate a stimulation pulse for delivery to one of at least two different chambers of a heart, said chambers include right and left atria and right and left ventricles, at least one impedance measuring stage (I, U, IMP) being connected to electrodes or connectors for such electrodes to measure an intracardiac impedance when in use, a control unit (CTRL) connected to the stimulation pulse generator and to the impedance measuring unit and being adapted to process a minimum impedance value for a heart cycle to trigger stimulation pulses for two different chambers of the heart with an adjustable time delay (VVD; AVD) and to adjust said time delay depending upon the measured intracardiac impedance minimum value. According to the invention the control unit is adapted to adjust the time delay such that the minimum value of the intracardiac impedance during one heart cycle is minimized or such that the AVD delay is equal to the time interval between an atrial event and the point of time when the minimum impedance value occurs after said atrial contraction.