Fault detection circuit for permanently implanted cardioverter

US 4,164,946 A
Filed: 05/27/1977
Issued: 08/21/1979
Est. Priority Date: 05/27/1977
Status: Expired due to Term

First Claim

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1. A discrete fully implantable interrogation circuit for use with a fully implantable cardioverter having a discrete fibrillation detector circuit made up of a plurality of components, each of which produces a characteristic output signal when said fibrillation detector circuit is functioning properly, said detector circuit serving to monitor an ECG signal and to issue a fibrillation detected signal when predetermined characteristics of said ECG signal are detected, and further having an energy storage device, means for charging the energy storage device to a level capable of defibrillating a malfunctioning heart, and means for initiating the discharge of the energy storage device into the heart of a wearer, said discrete fully implantable interrogation circuit comprising:

fault detector means for monitoring the output signal of a select number of said components to determine whether said output signal is not within prescribed limits so as to cause said fibrillation detector circuit to misinterpret said ECG signal; and

disabling means associated with said fault detector means for inhibiting the discharge of said storage device into the heart of the wearer in the event that said fault detector means senses a malfunction in said fibrillation detector circuit by recognizing an output signal not within said prescribed limits.

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Abstract

Disclosed is a permanently implantable cardioverter, or defibrillator including built-in interrogation and testing circuitry. Implanted fault detection circuits react to malfunctions in the implanted fibrillation detection circuitry, and ensure that inappropriate defibrillation pulses are not delivered to the wearer. Also disclosed is an implantable externally actuatable interrogation and test circuit which interrogates the sensing circuitry for faults, and which delivers a realistic defibrillation pulse to an implanted test load. An external device for monitoring the operation of the implanted defibrillator is also disclosed.

153 Citations

13 Claims

1. A discrete fully implantable interrogation circuit for use with a fully implantable cardioverter having a discrete fibrillation detector circuit made up of a plurality of components, each of which produces a characteristic output signal when said fibrillation detector circuit is functioning properly, said detector circuit serving to monitor an ECG signal and to issue a fibrillation detected signal when predetermined characteristics of said ECG signal are detected, and further having an energy storage device, means for charging the energy storage device to a level capable of defibrillating a malfunctioning heart, and means for initiating the discharge of the energy storage device into the heart of a wearer, said discrete fully implantable interrogation circuit comprising:
- fault detector means for monitoring the output signal of a select number of said components to determine whether said output signal is not within prescribed limits so as to cause said fibrillation detector circuit to misinterpret said ECG signal; and
  
  disabling means associated with said fault detector means for inhibiting the discharge of said storage device into the heart of the wearer in the event that said fault detector means senses a malfunction in said fibrillation detector circuit by recognizing an output signal not within said prescribed limits.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. The interrogation circuit recited in claim 1, and further comprising:
    - enable means for powering said fault detector means in the event that said fibrillation detector circuit detects fibrillation.
  - 3. The interrogation circuit recited in claim 1, wherein said fibrillation detector circuit includes means for automatically controlling the gain of an ECG signal, and means for detecting fibrillation by evaluating the period of time that said gain-controlled ECG signal spends outside a predetermined window, and wherein said fault detector means comprises an out of window detector associated with said fibrillation detector circuit for detecting whether said gain-controlled ECG signal is outside said predetermined window for more than a predetermined length of time, and a high gain detector associated with said fibrillation detector circuit for detecting whether the output of said gain-controlling means is higher than a predetermined threshold.
  - 4. The interrogation circuit recited in claim 1, and further comprising:
    - a fully implantable test load; and
      
      a fully implantable pulse switch for controlling whether said energy storage device discharges into the heart of the wearer or into said implantable test load.
  - 5. The interrogation circuit recited in claim 4, and further comprising:
    - control means for placing said pulse switch to a state whereby said energy storage means associates with said test load in the event that any circuit malfunction is sensed.
  - 6. The interrogation circuit recited in claim 4, and further comprising:
    - fully implantable switch means for initiating operation of the interrogation circuit upon external actuation.
  - 7. The interrogation circuit recited in claim 6, and further comprising means for external actuation, by temporarily disabling said defibrillator, prior to initiating the operation of the interrogation circuit.
  - 8. The interrogation circuit recited in claim 1, and further comprising:
    - means for determining the state of said disabling means from external to the wearer.
  - 9. The interrogation circuit recited in claim 8, wherein said means for charging the energy storage device includes an implanted coil, and further comprising magnetic coupling means associated with said implanted coil for sensing when the same is active and hence when the energy storage device is being charged.
  - 10. The interrogation circuit recited in claim 1, and further comprising means for determining the state of said disabling means by sensing the operation of said means for charging the energy storage device during the course of an interrogating cycle.
  - 11. The interrogation circuit recited in claim 1, and further comprising:
    - means for initiating a complete test cycle of said defibrillator upon external command.

12. For use with a fully implantable defibrillator having a fibrillation detection circuit, an energy storage device, means for charging the energy storage device to a level sufficient to defibrillate a malfunctioning heart, means for discharging the energy storage device into the heart, interrogation circuitry for interrogating the fibrillation detection circuit to detect any malfunctions therein, a fully implantable test load, and a fully implantable switch for discharging the energy storage device into the heart or into the test load, an external monitoring device comprising:
- sensing means for sensing the time interval between the initiation of charging the energy storage device and the discharge of the energy storage device into the test load; and
  
  display means for displaying said time interval.

13. For use with a fully implantable cardioverter having a discrete fibrillation detector circuit made up of a plurality of components, each of which produces a characteristic output signal when said fibrillation detector circuit is functioning properly, said detector circuit serving to monitor cardiac electrical activity and to issue a first signal in response to the detection of fibrillation, and further having an energy storage device, charging means for charging the energy storage device to a level capable of defibrillating a malfunctioning heart, and discharging means for initiating the discharge of the energy storage device into the heart of a wearer, a discrete fully implantable interrogation circuit comprising:
- fault detecting means made operable in response to said first signal for monitoring the output signal of a selected number of said components and for issuing a fault signal when at least one of the selected output signals is not within prescribed limits so as to cause said fibrillation detector circuit to misinterpret said cardiac electrical activity;
  
  fibrillation signal means responsive to said first signal for issuing a fibrillation detected signal;
  
  means responsive to said fibrillation detected signal for first actuating said charging means and then actuating said discharging means; and
  
  disabling means responsive to said fault signal for disabling said fibrillation signal means to prevent the discharge of said energy storage device into the heart of the wearer.

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Current Assignee
Mirowski Family Ventures LLC
Original Assignee
Mieczyslaw Mirowski
Inventors
Langer, Alois A.
Primary Examiner(s)
Kamm, William E.

Application Number

US05/801,300
Time in Patent Office

816 Days
Field of Search

128/419 D, 128/2.06 A, 128/2.1 P
US Class Current

607/27
CPC Class Codes

A61N 1/3931 Protecting, e.g. back-up sy...

Fault detection circuit for permanently implanted cardioverter

First Claim

1 Assignment

0 Petitions

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Abstract

153 Citations

13 Claims

Specification

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Fault detection circuit for permanently implanted cardioverter

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

153 Citations

13 Claims

Specification

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Solutions

Use Cases

Quick Links