Biotelemetry method for the transmission of bioelectric potential defferences, and a device for the transmission of ECG signals
First Claim
1. A method for the transmission of bioelectric potential differences, such as electrocardiogram signals, occurring between more than two electrodes applied on a patient, from the patient to an ECG device supplying twelve standard derivations, in the course of which at least ten ECG electrodes are applied on the patient in the customary way for obtaining the standard deviations, two of said at least ten ECG electrodes are defined as first and second ECG reference electrodes and the remaining ECG electrodes as ECG signal electrodes, the transfer of potential differences between the patient and the ECG device being effectuated as an electromagnetic one-way connection between the electrodes and the ECG device, said method comprising the steps of:
- calculating the difference between an ECG signal obtained from each ECG signal electrode and an ECG signal obtained at the first ECG reference electrode yielding signals that are essentially free from any component corresponding to a common direct voltage content and also free from any component corresponding to a hum,determining a reference potential at the patients'"'"' end from the second ECG reference electrode,transmitting the signals in a one-way serial manner, said step of transmitting the signals comprises the steps of;
multiplexing the signals to the transmitted,converting the multiplex signal from an analog to digital signal,encoding the digital signal using Manchester encoding or frequency shift keying-modulation,modulating a light beam with the encoded signaltransmitting the modulated light beam to a receiving unit,demodulating the modulated light beam to obtain the encoded signal,converting the digital encoded signal into an analog encoded signal, anddemultiplexing the analog encoded signal to obtain transmitted ECG signals; and
inputting the transmitted ECG signals to the corresponding inputs of the ECG device, said reference potential is supplied to the remaining inputs of the ECG device.
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Abstract
To obtain optical one-way transmission of bioelectrical potential differences between electrodes placed on a patient and the evaluation apparatus, one of the electrodes placed on the patient is designated as the reference electrode. The potentials of all the other electrodes are referred to this electrode, and the signals derived from the potential differences so obtained are amplified, multiplexed, converted analog/digital and transmitted in coded form. At least one of the potential differences recorded by the evaluation apparatus is derived from the difference between two transmitted signals. The number of signals transmitted can thus be less than the number of potential differences recorded. This process is particularly useful for transmitting electrocardiogram signals (ECG signals) to an ECG apparatus which produces twelve standard derivatives. The optical transmission can also be performed by an optical fibre. The device comprises an emitting part, preferably provided with several light-emitting elements, which forms a self-contained apparatus to be carried by the patient and a receiving part, preferably provided with several light-receiving elements arranged at fixed places in the surroundings.
70 Citations
8 Claims
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1. A method for the transmission of bioelectric potential differences, such as electrocardiogram signals, occurring between more than two electrodes applied on a patient, from the patient to an ECG device supplying twelve standard derivations, in the course of which at least ten ECG electrodes are applied on the patient in the customary way for obtaining the standard deviations, two of said at least ten ECG electrodes are defined as first and second ECG reference electrodes and the remaining ECG electrodes as ECG signal electrodes, the transfer of potential differences between the patient and the ECG device being effectuated as an electromagnetic one-way connection between the electrodes and the ECG device, said method comprising the steps of:
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calculating the difference between an ECG signal obtained from each ECG signal electrode and an ECG signal obtained at the first ECG reference electrode yielding signals that are essentially free from any component corresponding to a common direct voltage content and also free from any component corresponding to a hum, determining a reference potential at the patients'"'"' end from the second ECG reference electrode, transmitting the signals in a one-way serial manner, said step of transmitting the signals comprises the steps of; multiplexing the signals to the transmitted, converting the multiplex signal from an analog to digital signal, encoding the digital signal using Manchester encoding or frequency shift keying-modulation, modulating a light beam with the encoded signal transmitting the modulated light beam to a receiving unit, demodulating the modulated light beam to obtain the encoded signal, converting the digital encoded signal into an analog encoded signal, and demultiplexing the analog encoded signal to obtain transmitted ECG signals; and inputting the transmitted ECG signals to the corresponding inputs of the ECG device, said reference potential is supplied to the remaining inputs of the ECG device. - View Dependent Claims (2, 3, 4)
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5. A device for the transmission of bioelectric potential differences occurring between more than two electrodes applied on a patient to an ECG device in an ECG system comprising at least ten ECG electrodes applied on a patient and an ECG device for twelve standard derivations, while two specific ECG electrodes are defined as first and second ECG reference electrodes and the remaining ECG electrodes as ECG signal electrodes, having a transmitting unit, a receiving unit, and at least one optical link in between, the transmitting unit including:
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input protection circuits to which one assigned ECG electrode each can be connected, means for computing the difference between signals from respective input protection circuits, one of said input protection circuits being assigned to an ECG signal electrode and a second one of said input protection circuits being assigned to the first ECG reference electrode so that each signal difference is assigned to an ECG signal electrode, the output of one of said input protection circuits assigned to the second ECG reference electrode is connected with a common ground lead to the means for computing, a multiplexer for multiplexing the obtained signal differences, at least one modulatable optotransmitter having a modulation input through which the output of the multiplexer is linked via the serial connection of an analog-to-digital converter, and an encoder, and the receiving unit including; at least one optoreceiver having an output for the output of the modulation of a received light beam, a demultiplexer having an input linked to the output of said at least one optoreceiver, said demultiplexer is connected in series to a decoder and a digital-to-analog converter, the outputs of the digital-to-analog converter, each of which the assigned to the signal difference formed in the transmitting unit, are connected to a corresponding input of the ECG device. - View Dependent Claims (6, 7, 8)
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Specification
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- Resources
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Current AssigneeMedese AG Mainaustrasse 15 8008 Zurich Switzerland
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Original AssigneeMedese AG
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InventorsGrogg, Fritz, Guggenbuhl, Walter
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Primary Examiner(s)Howell, Kyle L.
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Assistant Examiner(s)Schaetzle, Kennedy J.
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Application NumberUS07/598,685Time in Patent Office1,286 DaysField of Search128/696, 128/710, 128/908, 128/903, 128/904, 128/699US Class Current600/508CPC Class CodesA61B 5/0006 ECG or EEG signalsA61B 5/0017 transmitting optical signal...Y10S 128/908 Patient protection from ele...
