Accelerometer-based contact sensing assembly and system
First Claim
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1. A catheter comprising:
- a shaft having a proximal portion, and a distal portion;
an electrode having a main body extending along an axis and including a tip and an axially opposite base wherein the base is configured to be coupled to said distal portion of the shaft, and wherein the base of said electrode includes a lumen having a proximally-facing opening;
a plurality of accelerometers coupled to said electrode along said base and spaced circumferentially around said axis to thereby couple said accelerometers to said electrode such that when said electrode is displaced said accelerometers experience acceleration of said electrode, said accelerometers being positioned to detect said respective acceleration with respect to said axis, said accelerometers each being configured to generate a respective acceleration signal indicative of a directionality of the acceleration of said electrode relative to said axis when said electrode is subjected to an external applied force thereto by tissue in contact with said electrode.
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Abstract
A catheter system including an accelerometer-based sensing assembly is provided. In particular the present teachings relate to an accelerometer based assembly used to determine contact between a catheter and surrounding proximate tissue, such as cardiac tissue. An embodiment of such a system may, for example, be used for visualization, mapping, ablation, or other methods of diagnosis and treatment of tissue and/or surrounding areas.
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Citations
13 Claims
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1. A catheter comprising:
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a shaft having a proximal portion, and a distal portion; an electrode having a main body extending along an axis and including a tip and an axially opposite base wherein the base is configured to be coupled to said distal portion of the shaft, and wherein the base of said electrode includes a lumen having a proximally-facing opening; a plurality of accelerometers coupled to said electrode along said base and spaced circumferentially around said axis to thereby couple said accelerometers to said electrode such that when said electrode is displaced said accelerometers experience acceleration of said electrode, said accelerometers being positioned to detect said respective acceleration with respect to said axis, said accelerometers each being configured to generate a respective acceleration signal indicative of a directionality of the acceleration of said electrode relative to said axis when said electrode is subjected to an external applied force thereto by tissue in contact with said electrode. - View Dependent Claims (2, 6, 7, 8)
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3. A catheter comprising:
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a shaft having a proximal portion, and a distal portion; an electrode having a main body extending along an axis and including a tip and an axially opposite base wherein the base is configured to be coupled to said distal portion of the shaft, and wherein the base of said electrode includes a lumen having a proximally-facing opening; an accelerometer disposed in the lumen to thereby couple said accelerometer to said electrode such that when said electrode is displaced said accelerometer experiences an acceleration of said electrode, said accelerometer being configured to generate a signal indicative of the acceleration of said electrode when said electrode is subjected to an external applied force thereto by tissue in contact with said electrode, further comprising a plurality of accelerometers positioned circumferentially around said axis producing respective accelerometer signals indicative of a directionality of the acceleration of said electrode relative to said axis wherein said plurality of accelerometers that are positioned circumferentially are radially offset from said axis by a radial distance. - View Dependent Claims (4, 5)
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9. A catheter system, comprising:
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a catheter including a shaft having a proximal portion and a distal portion; an electrode coupled to said distal portion of the shaft; an accelerometer coupled to said electrode and configured to generate a signal indicative of an acceleration of said electrode when said electrode is subjected to an external applied force thereto by tissue in contact with said electrode; a receiver electrically coupled to said catheter configured to receive said signal indicative of the acceleration of said electrode, said receiver including a processor that is configured to process said acceleration indicative signal to produce a first parameter indicative of an applied force experienced by said electrode of said catheter based on said acceleration indicative signal and further based on an electrode mass associated with said electrode;
said receiver being configured to process at least one of said acceleration indicative signal and said applied force indicative parameter to produce a second parameter that indicates that said electrode is in contact with the surface, wherein said processor is configured to determine contact by detecting, in accordance with at least said acceleration indicative signal, repeated acceleration in a first direction followed by an acceleration in a second direction opposite of said first direction. - View Dependent Claims (10, 11, 12, 13)
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Specification