Transient voltage/current protection system for electronic circuits associated with implanted leads
First Claim
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1. An implantable lead configured to be disposed within a living body, the implantable lead comprising:
- a) a first, lead wire portion extending from a first lead wire portion proximal end to a first lead wire portion distal end and a second lead wire portion extending from a second lead wire portion proximal end to a second lead wire portion distal end, wherein the first lead wire portion proximal end is electrically connectable to a medical device;
b) an electronic circuit comprising a circuit first end and a circuit second end, wherein the circuit first end is electrically connected to the first lead wire portion distal end at a first node and the circuit second end is electrically connected to the second wire portion proximal end at a second node to thereby electrically connect the electronic circuit in series with the first and second lead wire portions; and
c) a first transient voltage suppressor electrically connected in parallel with the electronic circuit, wherein the first transient voltage suppressor comprises;
i) a first unidirectional diode having first P and N ends and a second unidirectional diode having second P and N ends,ii) wherein the P end of the first diode is electrically connected at the first node to the N end of the second diode and to the electronic circuit first end, andiii) wherein the N end of the first diode is electrically connected at the second node to the P end of the second diode and to the electronic circuit second end to thereby provide the first and second diodes in parallel with each other and in parallel with the electronic circuit, andiv) wherein the first transient voltage suppressor comprising the first and second unidirectional diodes is a permanently active circuit.
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Abstract
A transient voltage/surge current protection system is provided for electronic circuits associated with implanted leads. In particular, a transient voltage suppressor such as a diode, a zener diode, a transorb, a surge protector, varistor components or the like, is placed in parallel with the electronic circuits to thereby divert harmful surge current and bypass the electronic circuit during an external defibrillation event or during an applied therapeutic shock, such as from an ICD.
174 Citations
28 Claims
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1. An implantable lead configured to be disposed within a living body, the implantable lead comprising:
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a) a first, lead wire portion extending from a first lead wire portion proximal end to a first lead wire portion distal end and a second lead wire portion extending from a second lead wire portion proximal end to a second lead wire portion distal end, wherein the first lead wire portion proximal end is electrically connectable to a medical device; b) an electronic circuit comprising a circuit first end and a circuit second end, wherein the circuit first end is electrically connected to the first lead wire portion distal end at a first node and the circuit second end is electrically connected to the second wire portion proximal end at a second node to thereby electrically connect the electronic circuit in series with the first and second lead wire portions; and c) a first transient voltage suppressor electrically connected in parallel with the electronic circuit, wherein the first transient voltage suppressor comprises; i) a first unidirectional diode having first P and N ends and a second unidirectional diode having second P and N ends, ii) wherein the P end of the first diode is electrically connected at the first node to the N end of the second diode and to the electronic circuit first end, and iii) wherein the N end of the first diode is electrically connected at the second node to the P end of the second diode and to the electronic circuit second end to thereby provide the first and second diodes in parallel with each other and in parallel with the electronic circuit, and iv) wherein the first transient voltage suppressor comprising the first and second unidirectional diodes is a permanently active circuit. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24)
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25. An implantable lead configured to be disposed within a living body, the implantable lead comprising:
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a) a first lead wire portion extending from a first lead wire portion proximal end to a first lead wire portion distal end and a second lead wire portion extending from a second lead wire portion proximal end to a second lead wire portion distal end, wherein the first lead wire portion proximal end is electrically connectable to a medical device; b) an electronic circuit comprising a circuit first end and a circuit second end, wherein the circuit first end is electrically connected to the first lead wire portion distal end at a first node and the circuit second end is electrically connected to the second wire portion proximal end at a second node to thereby electrically connect the electronic circuit in series with the first and second lead wire portions; and c) a first diode electrically connected in parallel with a second diode between the first and second nodes to thereby provide a transient voltage suppressor electrically connected in parallel with the electronic circuit between the first and second nodes, d) wherein the first diode is configured to only permit the passage of a positive electrical pulse along the lead from the first lead wire portion proximal end to the second lead wire portion distal end while the second diode is configured to only permit the passage of a negative electrical pulse along the lead from the first lead wire portion proximal end to the second lead wire portion distal end, and e) wherein the first transient voltage suppressor comprising the first and second unidirectional diodes is a permanently active circuit.
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26. An implantable lead configured to be disposed within a living body, the implantable lead comprising:
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a) a first lead wire portion extending from a first lead wire portion proximal end to a first lead wire portion distal end and a second lead wire portion extending from a second lead wire portion proximal end to a second lead wire portion distal end, wherein the first lead wire portion proximal end is electrically connectable to a medical device; b) an electronic circuit comprising a circuit first end and a circuit second end, wherein the circuit first end is electrically connected to the first lead wire portion distal end at a first node and the circuit second end is electrically connected to the second wire portion proximal end at a second node to thereby electrically connect the electronic circuit in series with the first and second lead wire portions; and c) a first diode electrically connected in parallel with a second diode between the first and second nodes to thereby provide a transient voltage suppressor electrically connected in parallel with the electronic circuit between the first and second nodes, d) wherein the first diode is biased in a forward direction opposite that of he second diode, and e) wherein the first transient voltage suppressor comprising the first and second unidirectional diodes is a permanently active circuit.
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27. An implantable lead, comprising:
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a) a lead wire extending from a lead wire proximal end to a lead wire distal end electrically connected to an electrode; b) an electronic circuit comprising a circuit first end and a circuit second end, wherein the circuit first end is electrically connectable to a medical device at a first node and the circuit second end is electrically connected to the lead wire proximal end to thereby electrically connect the electronic circuit in series with the lead wire; and c) a transient voltage suppressor electrically connected in parallel with the electronic circuit, wherein the transient voltage suppressor comprises; i) a first unidirectional diode having first P and N ends and a second unidirectional diode having second P and N ends, ii) wherein the P end of the first diode is electrically connected at the first node to the N end of the second diode and to the electronic circuit first end, and iii) wherein the N end of the first diode is electrically connected at the second node to the P end of the second diode and to the electronic circuit second end to thereby provide the first and second diodes in parallel with each other and in parallel with the electronic circuit, and iv) wherein the first transient voltage suppressor comprising the first and second unidirectional diodes is a permanently active circuit, and d) wherein one of the first and second diodes serves to forward conduct a positive pulse portion of a biphasic shock wave and the other of the first and second diodes serves to forward conduct a negative portion of the biphasic shock wave to thereby help protect the parallel connected electronic circuit from the biphasic shock wave.
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28. An implantable lead, comprising:
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a) a lead wire extending from a lead wire proximal end to a lead wire distal end, wherein the lead wire proximal end is electrically connectable to a medical device; b) an electronic circuit comprising a circuit first end and a circuit second end, wherein the circuit first end is electrically connected to the lead wire distal end at a first node and the circuit second end is electrically connected to an electrode; and c) a transient voltage suppressor electrically connected in parallel with the electronic circuit, wherein the transient voltage suppressor comprises; i) a first unidirectional diode having first P and N ends and a second unidirectional diode having second P and N ends, ii) wherein the P end of the first diode is electrically connected at the first node to the N end of the second diode and to the electronic circuit first end, and iii) wherein the N end of the first diode is electrically connected at the second node to the P end of the second diode and to the electronic circuit second end to thereby provide the first and second diodes in parallel with each other and in parallel with the electronic circuit, and iv) wherein the first transient voltage suppressor comprising the first and second unidirectional diodes is a permanently active circuit, and d) wherein one of the first and second diodes serves to forward conduct a positive pulse portion of a biphasic shock wave and the other of the first and second diodes serves to forward conduct a negative portion of the biphasic shock wave to thereby help protect the parallel connected electronic circuit from the biphasic shock wave.
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Specification