Guide wire system for RF recanalization of vascular blockages
First Claim
1. A method for recanalization of a blood vessel, comprising:
- positioning a conductive guide wire having a distal end ablation tip into a blood vessel, such that the ablation tip is adjacent an occlusion to be traversed;
centering the guide wire ablation tip within the blood vessel by employing an operable centering mechanism located on a distal end of a centering catheter;
conveying radio frequency (RF) RF energy through the guide wire to the distal ablation tip; and
advancing the energized ablation tip through the occlusion, wherein the guide wire ablation tip is centered bv advancing said centering catheter over the guide wire until said centering mechanism is adjacent the occlusion. and then activating the centering mechanism to thereby center the guide wire ablation tip within the blood vessel and to maintain the guide wire ablation tip in said centered position throughout said recanalization procedure.
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Abstract
A system for recanalizing an occluded blood vessel including a centering catheter employed to center an ablative guide wire within the blood vessel as the guide wire traverses the occlusion. The centering catheter includes a catheter body with an operative lumen through which the ablative guide wire is slidingly disposed. The centering catheter further includes a distally disposed centering mechanism that, when activated, centers the ablative guide wire within the blood vessel as it traverses the occlusion. The centering mechanism can comprise various embodiments including a single inflatable balloon or segmented inflatable balloon, which is in fluid communication with an inflation lumen. An airless preparation lumen may be disposed within the inflation lumen for ease of centering catheter preparation. The ablative guide wire includes insulation that is preferably formed of heat shrink tubing, which is stretched prior or concurrently with the heating process. The ablative guide wire includes a distal ablation tip having a non-traumatic structure and at least one discontinuous feature for creating high current densities for more efficient tissue ablation.
639 Citations
7 Claims
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1. A method for recanalization of a blood vessel, comprising:
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positioning a conductive guide wire having a distal end ablation tip into a blood vessel, such that the ablation tip is adjacent an occlusion to be traversed;
centering the guide wire ablation tip within the blood vessel by employing an operable centering mechanism located on a distal end of a centering catheter;
conveying radio frequency (RF) RF energy through the guide wire to the distal ablation tip; and
advancing the energized ablation tip through the occlusion, wherein the guide wire ablation tip is centered bv advancing said centering catheter over the guide wire until said centering mechanism is adjacent the occlusion. and then activating the centering mechanism to thereby center the guide wire ablation tip within the blood vessel and to maintain the guide wire ablation tip in said centered position throughout said recanalization procedure. - View Dependent Claims (2, 3, 4, 5, 6)
removing the centering catheter from the guide wire; advancing a therapeutic device over the guide wire until the device is positioned proximate the occlusion, and operating the therapeutic device.
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4. The method of claim 3, wherein the therapeutic device is an atheroectomy catheter.
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5. The method of claim 3, wherein the therapeutic device is an angioplasty catheter.
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6. The method of claim 3, wherein the occlusion lies in a curvilinear region of the blood vessel, advancement of the ablative guide wire through the occlusion is accomplished via a plurality of ablation procedures, and treatment of the occlusion performed via a plurality of therapeutic procedures.
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7. An ablative guide wire assembly for use in intravascular medical procedures comprising an elongate conductive guide wire having a distal end and an ablative tip formed on the guide wire distal end, the ablation tip having a generally non-traumatic structure with a discontinuous feature, wherein the non-traumatic structure is spherically shaped, and wherein the discontinuous feature comprises a tapered protrusion disposed on a distal facing surface of the structure.
Specification