Method and apparatus for applying thermal energy to tissue asymetrically
First Claim
1. A surgical instrument for delivering energy to a section of tissue during surgery, comprising:
- an elongated probe having a proximal end and a distal end; and
a split tip electrode coupled to said distal end, said split tip electrode i) including a first component and a second component coupled to said first component, and ii) defining a principle axis, wherein energy is delivered to said section of tissue so as to heat said section of tissue asymmetrically with regard to said principle axis of said split tip electrode.
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Accused Products
Abstract
Systems and methods are described for treating tissue with thermal energy while minimizing the amount of thermal energy to which adjacent tissue is exposed. A surgical instrument for delivering thermal energy to a section of tissue during percutaneous surgery, includes: an elongated shaft having a proximal end and a distal end; and a split tip electrode coupled to said distal end, said split tip electrode i) including a first component and a second component coupled to said first component, and ii) defining a principle axis. The thermal energy is delivered to said section of tissue so as to heat said section of tissue asymmetrically with regard to said principle axis of said split tip electrode. The systems and methods provide advantages in that thermal energy can be directed to one side of the split tip so that a first of two juxtaposed areas of a surgical site can be heated while a second of the two juxtaposed layers is substantially not heated. In alternate embodiments a portion of the site may be actively cooled while an adjacent portion of the site may be actively cooled.
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Citations
23 Claims
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1. A surgical instrument for delivering energy to a section of tissue during surgery, comprising:
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an elongated probe having a proximal end and a distal end; and
a split tip electrode coupled to said distal end, said split tip electrode i) including a first component and a second component coupled to said first component, and ii) defining a principle axis, wherein energy is delivered to said section of tissue so as to heat said section of tissue asymmetrically with regard to said principle axis of said split tip electrode. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method for delivering energy to a section of tissue during surgery, comprising:
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providing a surgical instrument having a split tip electrode i) including a first component and a second component coupled to said first component, and ii) defining a principle axis;
inserting the split tip electrode into a body to be treated which contains the section of tissue; and
delivering energy to said section of tissue so as to obtain a medically therapeutic result, wherein energy is delivered to said section of tissue so as to heat said section of tissue asyrmetrically with regard to said principle axis of said split tip electrode. - View Dependent Claims (12, 13, 14, 15, 16)
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17. A surgical instrument connectable by way of an energy coupling to an energy source to provide energy to a surgical site, said surgical instrument comprising:
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a probe member including a distal and a proximal end and the proximal end portion including the energy coupling to the source of energy; and
a tip positioned at the distal end of said elongated probe, said tip including adjacent first and second portions and the first portion coupled to the energy coupling at the proximal end to provide energy to the surgical site and the second portion designed to limit energy delivery to the surgical site. - View Dependent Claims (18, 19, 20, 21)
a thermoelectric cooler to remove energy from the surgical site.
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20. The surgical instrument of claim 17, wherein the first portion is made of a thermal/electrical conductive material.
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21. The surgical instrument of claim 17, wherein the second portion is made of a thermal/electrical insulating material.
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22. A surgical instrument, connectable by way of an energy coupling to an energy source to provide energy to a surgical site, said surgical instrument comprising:
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a probe member including a distal and a proximal end and the proximal end portion including the energy coupling to the source of energy; and
a tip positioned at the distal end of said elongated probe, said tip including adjacent first and second portions and the first portion coupled to the energy coupling at the proximal end to provide energy to the surgical site and the second portion designed to limit energy delivery to the surgical site, wherein the second portion includes an insulating material to limit energy delivery to the surgical site.
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23. A surgical instrument, connectable by way of an energy coupling to an energy source to provide energy to a surgical site, said surgical instrument comprising:
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a probe member including a distal and a proximal end and the proximal end portion including the energy coupling to the source of energy; and
a tip positioned at the distal end of said elongated probe, said tip including adjacent first and second portions and the first portion coupled to the energy coupling at the proximal end to provide energy to the surgical site and the second portion designed to limit energy delivery to the surgical site, wherein said surgical instrument is connectable by way of a fluid coupling to a fluid supply, and the distal end of the probe member further comprising the fluid coupling to the fluid supply; and
the tip further comprising a coupling between the second portion and the fluid coupling to provide a fluid from the fluid supply to the second portion and the second portion defining an opening to deliver the fluid to the surgical site and to remove energy from the second portion.
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Specification