Method and apparatus for detecting imminent structural failure of an electrical lead in an implanted cardiac therapy medical device
First Claim
1. In a cardiac therapy medical device implanted in a patient wherein the medical device has electrical leads subject to structural failure, a method for detecting imminent structural failure of any of the electrical leads in the implanted medical device comprising the step of directly monitoring mechanical load loss parameters that are indicative of any loss of structural integrity of the electrical leads.
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Abstract
A method and apparatus implementing the method, which is not dependent on monitoring the electrical impedance of the lead, detects imminent structural failure of an electrical lead in an implanted medical device, such as an implantable cardioverter-defibrillator (ICD) or a pacemaker. The approach is to monitor directly the mechanical load loss of the lead (a measure of the loss of structural integrity of the lead) rather than, as in the prior art, to infer it from the electrical impedance.
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Citations
16 Claims
- 1. In a cardiac therapy medical device implanted in a patient wherein the medical device has electrical leads subject to structural failure, a method for detecting imminent structural failure of any of the electrical leads in the implanted medical device comprising the step of directly monitoring mechanical load loss parameters that are indicative of any loss of structural integrity of the electrical leads.
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5. In a cardiac therapy medical device implanted in a patient wherein the medical device has electrical leads subject to structural failure, a method for detecting imminent structural failure of any of the electrical leads in the implanted medical device comprising the step of directly monitoring any loss of structural integrity of the electrical leads, in which said monitoring step comprises the step of monitoring directly the mechanical load loss of the lead as detected in any decrease in the mechanical load required to deflect and/or elongate the electrical leads by a specified amount.
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6. In a cardiac therapy medical device implanted in a patient wherein the medical device has electrical leads subject to structural failure, a method for detecting imminent structural failure of any of the electrical leads in the implanted medical device comprising the step of directly monitoring any loss of structural integrity of the electrical leads in which said monitoring step comprises the step of detecting the decrease in the mechanical load required to deflect or elongate the electrical leads by a specified amount.
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7. In a cardiac therapy medical device implanted in a patient wherein the medical device has electrical leads subject to structural failure, a method for detecting imminent structural failure of any of the electrical leads in the implanted medical device comprising the step of directly monitoring any loss of structural integrity of the electrical leads in which said monitoring step comprises the step of measuring the mechanical load on the electrical leads versus deflection of the lead as a function of time after implantation.
- 8. A cardiac therapy medical device implanted in a patient wherein the medical device has at least one electrical lead subject to structural failure, a monitor for detecting imminent structural failure of the electrical lead in the implanted medical device comprising measuring apparatus coupled to the electrical lead and the medical device for directly monitoring mechanical load loss parameters that are indicative of any loss of structural integrity of the electrical leads.
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14. A cardiac therapy medical device implanted in a patient wherein the medical device has at least one electrical lead subject to structural failure, a monitor for detecting imminent structural failure of the electrical lead in the implanted medical device comprising measuring apparatus coupled to the electrical lead and the medical device for directly monitoring any loss of structural integrity of the electrical leads, in which said measuring apparatus comprises a mechanism for directly measuring the mechanical load loss of the lead as detected in any decrease in the mechanical load required to deflect and/or elongate the electrical lead by a specified amount.
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15. A cardiac therapy medical device implanted in a patient wherein the medical device has at least one electrical lead subject to structural failure, a monitor for detecting imminent structural failure of the electrical lead in the implanted medical device comprising measuring apparatus coupled to the electrical lead and the medical device for directly monitoring any loss of structural integrity of the electrical leads, in which said measuring apparatus comprises a mechanism for detecting any decrease in the mechanical load required to deflect or elongate the electrical lead by a specified amount.
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16. A cardiac therapy medical device implanted in a patient wherein the medical device has at least one electrical lead subject to structural failure, a monitor for detecting imminent structural failure of the electrical lead in the implanted medical device comprising measuring apparatus coupled to the electrical lead and the medical device for directly monitoring any loss of structural integrity of the electrical leads, in which said mechanism includes implementation for measuring the mechanical load on the electrical lead versus deflection of the lead as a function of time after implantation.
Specification