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Coaxial catheter instruments for ablation with radiant energy

  • US 8,025,661 B2
  • Filed: 02/03/2003
  • Issued: 09/27/2011
  • Est. Priority Date: 09/09/1994
  • Status: Expired due to Fees
First Claim
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1. A cardiac ablation instrument, comprising:

  • a catheter body adapted for disposition within a heart having at least one lumen therein;

    a tear-drop shaped balloon connected to a distal portion of the catheter body and adapted for inflation within the heart in use;

    a radiant energy emitter assembly that is axially movable within a central lumen of the catheter body such that the radiant energy emitter assembly can be disposed at various locations along a length of the lumen, wherein the radiant energy emitter assembly includes an energy emitter, a radiant energy transparent body that encases the energy emitter and facilitates the slidable positioning of the energy emitter within the central lumen of the catheter body, the energy emitter being configured and the tear-drop shaped balloon being shaped in an inflated state such that a distance a beam of ablative energy travels from the energy emitter to the portion of the tear-drop shaped balloon in contact with the target tissue changes based on the energy emitter'"'"'s location along the length of the lumen while in the inflated state, wherein the radiant energy transparent body includes an illumination source that delivers an amount of light towards a target tissue site and the energy emitter is configured to receive an amount of reflected radiant energy, whereby the radiant energy emitter assembly acts as a contact sensing element; and

    a detector in communication with the contact sensing element, and configured to determine an amount of at least one color component of the reflected light, the amount of the at least one color component being indicative of contact between the projection balloon and the target tissue site;

    wherein the radiant energy transparent body surrounds the energy emitter, which is in the form of an optical fiber, and includes a plurality of illumination fibers that are disposed circumferentially about the energy emitter, which is centrally located, such that simultaneous or sequential sensing of contact with the target tissue is provided in four quadrants, the illumination fibers being different from the energy emitter and proximally offset from a distal end of the energy emitter, the radiant energy transparent body extending around a complete circumference of the energy emitter to completely encase the energy emitter.

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