Catheter, method and apparatus for generating an electrical map of a chamber of the heart
First Claim
1. A catheter and console combination for mapping a chamber of a heart comprising:
- a console comprising driver circuits operatively connected to at least one electromagnetic field generator for generating an electromagnetic field, the console also comprising a signal processor for determining location information;
a catheter comprising;
(i) a body having a proximal end and a distal end, said distal end having a distal tip;
(ii) a contact electrode at said distal tip;
(iii) an array of non-contact electrodes on said distal end of said body, said array having a proximal end and a distal end, wherein said non-contact electrodes are linearly arranged along a longitudinal axis of said body; and
at least one location sensor on said distal end of said body for generating signals in response to the electromagnetic field which is used by the signal processor to determine a location of said contact electrode and a location of said non-contact electrodes, the location of the non-contact electrodes determined by said signal processor from said signals generated by said at least one location sensor, said signal processor during at least an entire cardiac cycle in a first mode of operation acquiring first electrical information from only said non-contact electrodes, and in a second mode of operation acquiring second electrical information from said contact electrode and said non-contact electrodes to represent a minimum volume of the chamber geometry of the heart.
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Accused Products
Abstract
A novel apparatus and method for rapidly generating an electrical map of a chamber of a heart utilizes a catheter including a body having a proximal end and a distal end. The distal end has a distal tip and an array of non-contact electrodes having a proximal end and a distal end and at least one location sensor. Preferably, two location sensors are utilized. The first location sensor is preferably proximate to the catheter distal tip and the second location sensor is preferably proximate to the proximal end of the non-contact electrode array. The catheter distal end further preferably includes a contact electrode at its distal tip. Preferably, at least one and preferably both of the location sensors provide six degrees of location information. The location sensor is preferably an electromagnetic location sensor. The catheter is used for rapidly generating an electrical map of the heart within at least one cardiac cycle and preferably includes cardiac ablation and post-ablation validation.
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Citations
41 Claims
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1. A catheter and console combination for mapping a chamber of a heart comprising:
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a console comprising driver circuits operatively connected to at least one electromagnetic field generator for generating an electromagnetic field, the console also comprising a signal processor for determining location information;
a catheter comprising;
(i) a body having a proximal end and a distal end, said distal end having a distal tip;
(ii) a contact electrode at said distal tip;
(iii) an array of non-contact electrodes on said distal end of said body, said array having a proximal end and a distal end, wherein said non-contact electrodes are linearly arranged along a longitudinal axis of said body; and
at least one location sensor on said distal end of said body for generating signals in response to the electromagnetic field which is used by the signal processor to determine a location of said contact electrode and a location of said non-contact electrodes, the location of the non-contact electrodes determined by said signal processor from said signals generated by said at least one location sensor, said signal processor during at least an entire cardiac cycle in a first mode of operation acquiring first electrical information from only said non-contact electrodes, and in a second mode of operation acquiring second electrical information from said contact electrode and said non-contact electrodes to represent a minimum volume of the chamber geometry of the heart. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A catheter and console combination comprising:
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(a) a console comprising driver circuits operatively connected to at least one electromagnetic field generator for generating an electromagnetic field, the console also comprising a signal processor for determining location information;
(b) a catheter comprising;
(i) a body having a proximal end and a distal end, said distal end having a distal tip;
an array of non-contact electrodes on said distal end of said body, said array having a proximal end and a distal end;
wherein said non-contact electrodes are linearly arranged along a longitudinal axis of said body; and
at least one location sensor proximate to said distal tip for generating signals in response to the electromagnetic field which is used by the signal processor to determine a location of said non-contact electrodes, said at least one location sensor comprising a first location sensor and a second location sensor, said first location sensor being proximate to said catheter distal tip and said second location sensor being proximate to said proximal end of said non-contact electrode array, the location of said non-contact electrodes determined by said signal processor from said signals generated by said at least one location sensor, said signal processor using said location of the non-contact electrodes to represent a minimum volume of the chamber geometry of the heart;
wherein said at least one location sensor provides six degrees of location information. - View Dependent Claims (12)
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13. A method for generating an electrical map of a chamber of a heart, said map depicting an electrical characteristic of the chamber as a function of chamber geometry, said method comprising the steps of:
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providing a catheter comprising a body having a proximal end and a distal end, said distal end having a distal tip;
a contact electrode at said distal tip;
an array of non-contact electrodes on said distal end of said body, said array having a proximal end and a distal end, wherein said non-contact electrodes are linearly arranged along a longitudinal axis of said body; and
at least one location sensor on said distal end of said body;
advancing said catheter into said chamber of said heart;
using a signal processor to determine a location of said contact electrode and a location of said non-contact electrodes using said at least one location sensor;
contacting a wall of said chamber of said heart with said contact electrode at a plurality of contact points;
acquiring electrical information and location information from each of said electrodes and said at least one location sensor, respectively, using the signal processor, said acquisition taking place over at least one cardiac cycle while said contact electrode is in contact with each of said contact points;
said electrical information comprising first electrical information from said non-contact electrodes and second electrical information from said contact electrode and said non-contact electrodes;
determining a minimum volume of said heart chamber geometry with the signal processor during said at least one cardiac cycle in a first mode of operation by obtaining only said first electrical information from said non-contact electrodes, and in a second mode of operation by obtaining said second electrical information from said contact electrode and said non-contact electrodes; and
generating an electrical map of said heart chamber from said acquired location and one of said first electrical information and said second electrical information. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30)
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31. A method for generating an electrical map of a chamber of a heart, said map depicting an electrical characteristic of the chamber as a function of chamber geometry, said method comprising the steps of:
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providing a catheter comprising a body having a proximal end and a distal end, said distal end having a distal tip;
an array of non-contact electrodes on said distal end of said body, said array having a proximal end and a distal end, wherein said non-contact electrodes are linearly arranged along a longitudinal axis of said body; and
at least one location sensor proximate to said catheter distal tip;
advancing said catheter into said chamber of said heart;
using a signal processor to determine a location of said non-contact electrodes using said at least one location sensor;
contacting a wall of said chamber of said heart with said catheter distal tip at a plurality of contact points;
acquiring electrical information and location information from each of said non-contact electrodes and said at least one location sensor, respectively, using the signal processor, said acquisition taking place over at least one cardiac cycle while said catheter distal tip is in contact with each of said contact points;
determining a minimum volume of said heart chamber geometry with the signal processor using the location of the non-contact electrodes; and
generating an electrical map of said heart chamber from said acquired location and electrical information;
wherein said at least one location sensor provides six degrees of location information; and
wherein said at least one location sensor comprises a first location sensor and a second location sensor, and said array of non-contact electrodes is disposed therebetween. - View Dependent Claims (32, 33, 34)
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35. Apparatus for generating an electrical map of a chamber of a heart, said map depicting an electrical characteristic of the chamber as a function of chamber geometry, said apparatus comprising:
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a console comprising driver circuits operatively connected to at least one electromagnetic field generator for generating an electromagnetic field, the console also comprising a signal processor for determining location information;
a catheter comprising;
a body having a proximal end and a distal end, said distal end having a distal tip;
a contact electrode at said distal tip;
an array of non-contact electrodes on said distal end of said body, said array having a proximal end and a distal end, wherein said non-contact electrodes are linearly arranged along a longitudinal axis of said body; and
at least one location sensor on said distal end of said body for generating signals in response to the electromagnetic field which is used by said signal processor to determine a location of said contact electrode and a location of said non-contact electrodes, the location of the non-contact electrodes determined by said signal processor from said signals generated by said at least one location sensor, said signal processor using said location of the non-contact electrodes to represent a minimum volume of the chamber geometry of the heart;
said catheter being adapted to contacting a wall of said chamber of said heart with said contact electrode at a plurality of contact points;
said signal processor operatively connected to said catheter for acquiring location information from said-location sensors, and in a first mode of operation acquiring first electrical information only from said non-contact electrodes, and in a second mode of operation acquiring second electrical information from said contact electrode and said non-contact electrodes, over at least one cardiac cycle while said contact electrode is in contact with each of said contact points, said signal processor also generating an electrical map of said heart chamber from said acquired location information and one of said first electrical information and said second electrical information. - View Dependent Claims (36, 37, 38, 39)
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40. Apparatus for generating an electrical map of a chamber of a heart, said map depicting an electrical characteristic of the chamber as a function of chamber geometry, said apparatus comprising:
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(a) console comprising driver circuits operatively connected to at least one electromagnetic field generator for generating an electromagnetic field, the console also comprising a signal processor for determining location information;
(b) catheter comprising;
a catheter including a body having a proximal end and a distal end, said distal end having a distal tip;
an array of non-contact electrodes on said distal end of said body, said array having a proximal end and a distal end, wherein said non-contact electrodes are linearly arranged along a longitudinal axis of said body; and
at least one location sensor proximate to said catheter distal tip for generating signals in response to the electromagnetic field which is used by the signal processor to determine a location of said non-contact electrodes, said at least one location sensor comprising a first location sensor and a second location sensor, wherein said array of non-contact electrodes is disposed therebetween, and said second location sensor is disposed proximate to said catheter distal tip, the location of said non-contact electrodes determined by said signal processor for said signals generated by said at least one location sensor, said signal processor using said location of said non-contact electrodes to represent a minimum volume of the chamber geometry of the heart;
said catheter being adapted to contacting a wall of said chamber of said heart with said catheter distal tip at a plurality of contact points;
said signal processor acquiring electrical information and location information from each of said electrodes and location sensors, respectively, over at least one cardiac cycle while said catheter distal tip is in contact with each of said contact points;
said signal processor also generating an electrical map of said heart chamber from said acquired location and electrical information, wherein said at least, one location sensor provides six degrees of location information. - View Dependent Claims (41)
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Specification