Apparatus and method for identifying atrial arrhythmia by far-field sensing
First Claim
1. An implantable medical device (IMD) configured for monitoring a patient'"'"'s cardiac rhythm to determine whether an arrhythmia is occurring, the IMD comprising:
- a housing containing a battery and operational circuitry for the IMD, the operational circuitry comprising an ECG input, an amplifier, one or more filter circuits, and a detector configured to detect QRS events; and
at least first and second electrodes on the housing and electrically coupled to the operational circuitry, the electrodes configured for sensing a cardiac signal of the patient;
wherein the operational circuitry is configured to detect one or more QRS signals for the patient during a normal sinus rhythm;
wherein the operational circuitry is further configured to detect atrial fibrillation (AF) by determining whether detected signals show an absence of P-waves between consecutive QRS signals by differentiating between a well-defined P-wave and a low-amplitude signal; and
wherein the operational circuitry is configured to establish one or more parameters for P-waves associated with QRS signals including a polarity relationship of the P-wave to the QRS.
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Abstract
In a subcutaneous implantable cardioverter/defibrillator, cardiac arrhythmias are detected to determine necessary therapeutic action. Cardiac signal information is sensed from far field electrodes implanted in a patient. The sensed cardiac signal information is then amplified and filtered. Parameters such as rate, QRS pulse width, cardiac QRS slew rate, amplitude and stability measures of these parameters from the filtered cardiac signal information are measured, processed and integrated to determine if the cardioverter/defibrillator needs to initiate therapeutic action.
350 Citations
18 Claims
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1. An implantable medical device (IMD) configured for monitoring a patient'"'"'s cardiac rhythm to determine whether an arrhythmia is occurring, the IMD comprising:
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a housing containing a battery and operational circuitry for the IMD, the operational circuitry comprising an ECG input, an amplifier, one or more filter circuits, and a detector configured to detect QRS events; and at least first and second electrodes on the housing and electrically coupled to the operational circuitry, the electrodes configured for sensing a cardiac signal of the patient; wherein the operational circuitry is configured to detect one or more QRS signals for the patient during a normal sinus rhythm; wherein the operational circuitry is further configured to detect atrial fibrillation (AF) by determining whether detected signals show an absence of P-waves between consecutive QRS signals by differentiating between a well-defined P-wave and a low-amplitude signal; and wherein the operational circuitry is configured to establish one or more parameters for P-waves associated with QRS signals including a polarity relationship of the P-wave to the QRS. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. An implantable medical device (IMD) configured for monitoring a patient'"'"'s cardiac rhythm to determine whether an arrhythmia is occurring, the IMD comprising:
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a housing containing a battery and operational circuitry for the IMD, the operational circuitry comprising an ECG input, an amplifier, one or more filter circuits, and a detector configured to detect QRS events; and at least a first electrode on the housing and electrically coupled to the operational circuitry, the first electrode configured for sensing a cardiac signal of the patient; at least a second electrode disposed on an implantable lead configured for coupling to the housing to electrically couple the second electrode to the operational circuitry, the second electrode configured for sensing a cardiac signal of the patient; wherein the operational circuitry is configured to detect one or more QRS signals for the patient during a normal sinus rhythm; wherein the operational circuitry is further configured to detect atrial fibrillation (AF) by determining whether detected signals show an absence of P-waves between consecutive QRS signals by differentiating between a well-defined P-wave and a low-amplitude signal; and wherein the operational circuitry is configured to establish one or more parameters for P-waves associated with QRS signals including a polarity relationship of the P-wave to the QRS. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
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Specification