Input switching in a ventricular intracardiac pacemaker

US 10,328,270 B2
Filed: 12/13/2016
Issued: 06/25/2019
Est. Priority Date: 12/13/2016
Status: Active Grant

First Claim

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1. An intracardiac pacemaker system, comprising:

a ventricular intracardiac pacemaker; and

a second implantable device configured to broadcast atrial event signals to the ventricular intracardiac pacemaker,the ventricular intracardiac pacemaker comprising;

a first pulse generator configured to generate and deliver pacing pulses to a ventricle of a patient'"'"'s heart via a first plurality of electrodes coupled to the ventricular intracardiac pacemaker;

a first sensing circuit configured to produce physiological atrial event signals;

a receiving circuit configured to receive the broadcast atrial event signals from the second implantable medical device;

a first control circuit coupled to the pulse generator, the first sensing circuit, and the receiving circuit, the first control circuit configured to;

select a first atrial event input as the physiological atrial event signals that do not require the second implantable device to broadcast or generate atrial event signals;

detect first atrial events from the selected first atrial event input;

determine if input switching criteria are met;

switch from the first atrial event input to a second atrial event input in response to the input switching criteria being met, the second atrial event input being the broadcast atrial event signals;

detect second atrial events from the second atrial event input; and

set an atrioventricular (AV) pacing interval in response to detecting each of the first atrial events and the second atrial events for controlling the first pulse generator to deliver the ventricular pacing pulses.

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Abstract

An intracardiac pacemaker system is configured to produce physiological atrial event signals by a sensing circuit of a ventricular intracardiac pacemaker and select a first atrial event input as the physiological atrial event signals. The ventricular intracardiac pacemaker detects atrial events from the selected first atrial event input, determines if input switching criteria are met, and switches from the first atrial event input to a second atrial event input in response to the input switching criteria being met. The second atrial event input includes broadcast atrial event signals produced by a second implantable medical device and received by the ventricular intracardiac pacemaker.

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14 Claims

1. An intracardiac pacemaker system, comprising:
- a ventricular intracardiac pacemaker; and
  
  a second implantable device configured to broadcast atrial event signals to the ventricular intracardiac pacemaker,the ventricular intracardiac pacemaker comprising;
  
  a first pulse generator configured to generate and deliver pacing pulses to a ventricle of a patient'"'"'s heart via a first plurality of electrodes coupled to the ventricular intracardiac pacemaker;
  
  a first sensing circuit configured to produce physiological atrial event signals;
  
  a receiving circuit configured to receive the broadcast atrial event signals from the second implantable medical device;
  
  a first control circuit coupled to the pulse generator, the first sensing circuit, and the receiving circuit, the first control circuit configured to;
  
  select a first atrial event input as the physiological atrial event signals that do not require the second implantable device to broadcast or generate atrial event signals;
  
  detect first atrial events from the selected first atrial event input;
  
  determine if input switching criteria are met;
  
  switch from the first atrial event input to a second atrial event input in response to the input switching criteria being met, the second atrial event input being the broadcast atrial event signals;
  
  detect second atrial events from the second atrial event input; and
  
  set an atrioventricular (AV) pacing interval in response to detecting each of the first atrial events and the second atrial events for controlling the first pulse generator to deliver the ventricular pacing pulses.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 2. The system of claim 1, wherein the first sensing circuit comprises a motion sensor configured to produce first physiological atrial event signals as atrial mechanical event signals.
  - 3. The system of claim 2, wherein the first sensing circuit is configured to produce second physiological atrial event signals different than the first physiological atrial event signals,wherein the first control circuit is configured to select the first atrial event input by selecting one of the atrial mechanical event signals and the second physiological atrial event signals.
  - 4. The system of claim 1, wherein the first sensing circuit comprises:
    - a cardiac electrical signal sensing circuit configured to receive a cardiac electrical signal via the first plurality of electrodes, the cardiac electrical signal comprising near-field R-waves and far-field P-wave signals; and
      
      a motion sensor configured to produce a motion signal comprising atrial mechanical event signals;
      
      wherein the first control circuit is configured to select the first atrial event input as one of the far-field P-wave signals and the atrial mechanical event signals.
  - 5. The system of claim 1, wherein the second implantable medical device is an atrial intracardiac pacemaker comprising:
    - a second pulse generator configured to generate and deliver pacing pulses to an atrium of the patient'"'"'s heart via a second plurality of electrodes coupled to the atrial intracardiac pacemaker;
      
      a second sensing circuit configured to receive a cardiac electrical signal comprising near field P-waves and far-field ventricular event signals; and
      
      a second control circuit coupled to the second pulse generator and the second sensing circuit and configured to;
      
      detect far-field ventricular event signals from the second cardiac electrical signal;
      
      detect a loss of detecting the first atrial events by the ventricular intracardiac pacemaker based on the detected far-field ventricular event signals; and
      
      produce the broadcast atrial event signals in response to detecting the loss.
  - 6. The system of claim 5, wherein the second control circuit is configured to:
    - control the second pulse generator to deliver first atrial pacing pulses at a first pacing pulse energy; and
      
      produce the broadcast atrial event signals by controlling the second pulse generator to deliver second atrial pacing pulses at a second pacing pulse energy greater than the first pacing pulse energy,wherein the receiving circuit receives the broadcast atrial event signals as far-field atrial pacing pulse signals, andthe first control circuit is configured to switch from the first atrial event input to the second atrial event input by detecting the far-field atrial pacing pulse signals as the second atrial events.
  - 7. The system of claim 5, wherein:
    - the receiving circuit comprises a first telemetry circuit included in the ventricular intracardiac pacemaker;
      
      the atrial intracardiac pacemaker comprises a second telemetry circuit;
      
      the second control circuit is configured to produce the broadcast atrial event signals by controlling the second telemetry circuit to broadcast the atrial event signals;
      
      wherein the first control circuit is configured to switch from the first atrial event input to the second atrial event input by enabling the first telemetry circuit to receive the broadcast atrial event signals and detect the received broadcast atrial event signals as the second atrial events.
  - 8. The system of claim 5, wherein the second control circuit is further configured to:
    - withhold a broadcast atrial event signal coinciding with a next atrial event after a predetermined number of broadcast atrial event signals;
      
      sense a far-field ventricular event following the next atrial event;
      
      determine a time interval from the next atrial event to the sensed far-field ventricular event;
      
      compare the time interval to an expected atrial-to-ventricular interval;
      
      terminate broadcasting of the atrial event signals in response to the time interval matching the expected atrial-to-ventricular interval; and
      
      return to broadcasting the atrial event signals in response to the time interval not matching the expected atrial-to-ventricular interval.
  - 9. The system of claim 8, wherein the first control circuit is configured to:
    - switch to a third atrial event input after detecting the predetermined number of broadcast atrial event signals, the third atrial event input comprising physiological atrial event signals;
      
      detect the next atrial event from the third atrial event input;
      
      set the AV pacing interval to a temporary interval in response to detecting the next atrial event;
      
      control the first pulse generator to deliver a ventricular pacing pulse upon expiration of the temporary interval;
      
      wherein the expected atrial-to-ventricular interval is the temporary interval.
  - 10. The system of claim 1, wherein the first control circuit is further configured to set the AV pacing interval to a first interval in response to detecting each of the first atrial events and set the AV pacing interval to a second interval different than the first interval in response to detecting each of the second atrial events.
  - 11. The system of claim 1, wherein the first control circuit is configured to determine if the input switching criteria are met by at least one of:
    - detecting a threshold number of ventricular cycles without first atrial event detections;
      
      determining a heart rate of the patient;
      
      determining a patient posture from a motion signal produced by the first sensing circuit; and
      
      determining a patient physical activity level from a motion signal produced by the first sensing circuit.
  - 12. The system of claim 1, wherein:
    - the first sensing circuit comprises a first sensor configured to produce first physiological event signals and a second sensor configured to produce second physiological atrial event signals;
      
      the first control circuit is further configured to;
      
      determine if less than a first threshold number of first atrial events are detected from the first physiological atrial event signals during a first predetermined number of ventricular cycles;
      
      enable detection of the first atrial events from the second physiological atrial event signals in response to less than the first threshold number of first atrial events being detected from the first physiological atrial event signals; and
      
      determine that the input switching criteria are met in response to less than a second threshold number of first atrial events being detected from the second physiological atrial event signals during a second predetermined number of ventricular cycles.
  - 13. The system of claim 5, wherein:
    - the second control circuit is configured to produce a first broadcast atrial event signal indicating an atrial pacing pulse event and a second broadcast atrial event signal indicating an intrinsic atrial event;
      
      the first control circuit is further configured to set the AV pacing interval to a first interval in response to detecting the first broadcast atrial event signal and set the AV pacing interval to a second interval different than the first interval in response to detecting the second broadcast atrial event signal.

14. A ventricular intracardiac pacemaker, comprising:
- a pulse generator configured to generate and deliver pacing pulses to a ventricle of a patient'"'"'s heart via a first plurality of electrodes coupled to the ventricular intracardiac pacemaker;
  
  a sensing circuit comprising a sensor configured to produce physiological atrial event signals;
  
  a receiving circuit configured to receive atrial event signals broadcast from another medical device;
  
  a control circuit coupled to the pulse generator, the sensing circuit, and the receiving circuit, the control circuit configured to;
  
  select a first atrial event input as the physiological atrial event signals that do not require another medical device to broadcast or generate atrial event signals;
  
  detect first atrial events from the selected first atrial event input;
  
  determine if input switching criteria are met;
  
  switch from the first atrial event input to a second atrial event input in response to the input switching criteria being met, the second atrial event input being the broadcast atrial event signals;
  
  detect second atrial events from the second atrial event input; and
  
  set an atrioventricular (AV) pacing interval in response to detecting each of the first atrial events and the second atrial events for controlling the first pulse generator to deliver the ventricular pacing pulses.

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Current Assignee
Medtronic Incorporated (Medtronic Plc)
Original Assignee
Medtronic Incorporated (Medtronic Plc)
Inventors
Demmer, Wade M, Cho, Yong K, Erickson, Mark K, Sheldon, Todd J
Primary Examiner(s)
Mahmood, Nadia A

Application Number

US15/377,717
Publication Number

US 20180161580A1
Time in Patent Office

924 Days
Field of Search

607 18
US Class Current
CPC Class Codes

A61N 1/3627   for treating a mechanical d...

A61N 1/36514   controlled by a physiologic...

A61N 1/36585   controlled by two or more p...

A61N 1/3682   with a variable atrioventri...

A61N 1/3688   configured for switching th...

A61N 1/3704   Circuits specially adapted ...

A61N 1/37288   Communication to several im...

A61N 1/3756   Casings with electrodes the...

Input switching in a ventricular intracardiac pacemaker

First Claim

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Abstract

69 Citations

14 Claims

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Input switching in a ventricular intracardiac pacemaker

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

69 Citations

14 Claims

Specification

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Solutions

Use Cases

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