Patent application number | Description | Published |
20090082683 | Adapter device for physiological signals as well as magnetic resonance device therewith - An adapter device for physiological signals includes a signal input for a physiological signal transformed with a measuring unit according to its measurement. The signal input connects a converter unit for retransforming the transformed physiological signal in its electrical source characteristics, which it has on the measuring unit. A signal output connected to the converter unit is provided in order to output the retransformed signal. | 03-26-2009 |
20090088654 | EKG measurement device - The invention relates to an EKG measurement device. The EKG measurement device comprises a number of EKG electrodes and a common-mode measurement unit connected on its input side to the EKG electrodes. Inventively an EKG trigger unit is connected on its input side to the EKG electrodes and to the common-mode measurement unit. | 04-02-2009 |
20090270715 | Correction method and magnetic resonance device - The invention relates to a correction method for correcting interference due to gradient injections in ECG signal data records recorded in a magnetic resonance device by an ECG measuring device. A first correction data record is determined with the ECG measuring device located in a first position. A second correction data record is determined by the ECG measuring device located in a second position. An ECG signal data record is measured by the ECG measuring device located in a defined position. A modified correction data record is defined as a function of the first correction data record and the second correction data record and the first and second position and the defined position of the ECG measuring device. The ECG signal data record is corrected based on the modified correction data record. | 10-29-2009 |
20090270716 | Correction method and magnetic resonance device - The invention relates to a correction method for correction of noise resulting from gradient artifacts in ECG signal data records recorded in a magnetic resonance device by an ECG measuring apparatus. A first correction data record is determined with a reference point of the ECG measuring apparatus located at a first position in the magnetic resonance device. An ECG signal data record is measured with the reference point of the ECG measuring apparatus located at a second position in the magnetic resonance device. A modified correction data record is specified as a function of the first correction data record and the first and second position of the reference point. The ECG signal data record is corrected based on the modified correction data record. | 10-29-2009 |
20090287104 | Method and Monitoring Device for Monitoring a Contacting of Electrodes of an ECG Measuring Device - A method for monitoring a contacting of electrodes of an ECG measuring devices is provided. At least three signals each from a first and a second input signal are generated. The first and the second input signal emanate from different electrodes and each electrode supplies one of the input signals to at least two of the signals generated by a first signal processing unit. The three signals are compared with a reference value. Inadequately contacted electrodes are identified based on the comparisons and are displayed. A monitoring device for implementing the method is provided. The monitoring device comprises a first signal processing unit connected to the electrodes at an input side, a second signal processing unit for identifying the inadequately contacted electrodes by receiving and processing at least three signals generated by the first signal processing unit, and a display unit for displaying the inadequately contacted electrodes. | 11-19-2009 |
20090318821 | Method for Checking ECG Signals and ECG Measuring Device - The invention relates to a method for checking ECG signals measured by an ECG measuring device having at least three electrodes for the presence of interference errors. At least three voltages are measured on a closed circulation path across the electrodes of the ECG measuring device. A monitoring value is calculated from the three measured voltages. A presence of an error is checked by determining a deviation of the monitoring value from a reference value. An error signal is outputted if an error is presented. The ECG measuring device has a further processing unit for processing voltage signals between a different pair of electrodes and a monitoring unit for calculating the monitoring value. | 12-24-2009 |
20090319192 | Measurement Facility, Sensor Unit and Further Processing Unit - A measurement facility comprises at least one sensor unit for measurement and issuing of signals and a further processing unit for receiving and further processing of signals which were measured by the at least one sensor unit, with an interface for detachable connection of the further processing unit to different sensor units. A further processing unit comprises at least one interface for establishing a detachable connection to a sensor unit, in order to form a usable inventive measurement facility. A sensor unit comprises a connection point for establishing the detachable connection to the further processing unit. | 12-24-2009 |
20100191134 | METHOD FOR IDENTIFYING AN R-WAVE IN AN ECG SIGNAL, ECG MEASURING DEVICE AND MAGNETIC RESONANCE SCANNER - A method for identifying R-waves in an ECG signal for the purpose of triggering further measurements or examinations is proposed. A reference ECG signal by an ECG measuring device is measured. An R-wave in the reference ECG signal is identified. A reference quantity is determined from the reference ECG signal. The reference ECG signal assumes in a time interval that starts before the R-wave of the ECG signal and lasts at a maximum up to the occurrence of the R-wave. A comparison rule is generated based on the reference quantity. ECG signals are measured in which R-waves are to be identified. The measured ECG signals are compared with the reference quantity based on the comparison rule. A trigger signal is outputted based on a positive result of the comparison. | 07-29-2010 |
20110319780 | Method for identifying a characteristic profile of an R-wave in an EKG signal and a computer program product as well as an electronically readable data medium for performing the method - A method for identifying a characteristic profile of an R-wave in an EKG signal is proposed. A temporal sequence of measurement values is recorded and stored with associated time value. A number of values for identified temporal derivative and their respective time values is identified in the stored measurement values. One of the values for identified temporal derivative is selected as an exemplary value. The selection includes at least one plausibility test. A sub-sequence of the stored measurement values is selected as a characteristic profile as a function of the time value associated with the exemplary value. The combination of identifying possible values by their derivative with a plausibility test makes the method particularly robust. | 12-29-2011 |
20120004569 | Method for Generating a Trigger Signal by an EKG Signal as Well as an EKG Measuring Apparatus and a Magnetic Resonance Device - A method for generating a trigger signal for a magnetic resonance measurement by an R wave of an EKG signal is proposed. The EKG signal is captured by an algorithm manager. The algorithm manager includes at least a first trigger instance having a trigger algorithm. EKG signals from at least two different EKG channels are processed by the trigger algorithm. The algorithm manager includes at least a further trigger instance for capturing the EKG signal. The further trigger instance has at least one further trigger algorithm for processing EKG signals from at least two different EKG channels. The trigger signal is generated by selecting a trigger instance from the different trigger instances. | 01-05-2012 |
20120268131 | MEASURING APPARATUS, CHARGING APPARATUS AND A MAGNETIC RESONANCE APPARATUS HAVING A MEASURING APPARATUS AND A CHARGING METHOD HEREFOR - A measuring apparatus for a magnetic resonance apparatus is proposed. The measuring apparatus has a charging apparatus and a mobile sensor unit for detecting a physiological signal of a patient. The mobile sensor unit includes a sensor element and an energy storage element which supplies electrical energy to the sensor element in an operating mode. The charging apparatus in a charging process increases a charging state of the energy storage element of the mobile sensor unit so that the mobile sensor unit can be coupled to the charging apparatus which has an energy buffering unit. | 10-25-2012 |
20120271153 | Measuring device and magnetic resonance device comprising a measuring device - A measuring device is provided. The measuring device has at least one sensor unit for capturing a cardiac signal, a postprocessing unit and a signal transfer unit for signal transfer between the at least one sensor unit and the postprocessing unit. The at least one sensor unit has at least one acoustic sensor element. | 10-25-2012 |
20120271154 | MEASURING DEVICE AND A MAGNETIC RESONANCE DEVICE WITH THE MEASURING DEVICE - A measuring device for a magnetic resonance device is provided. The measuring device has a sensor unit. The sensor unit includes at least one acoustic sensor element for detecting heart sounds of a patient. The sensor unit also includes a resonating body unit. The resonating body unit has a hollow space for filtering interfering signals emitted by the magnetic resonance device from the heart sounds of the patient. | 10-25-2012 |