IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0472831
(2009-05-27)
|
등록번호 |
US-8292881
(2012-10-23)
|
발명자
/ 주소 |
- Brannan, Joseph D.
- Bonn, Kenlyn S.
|
출원인 / 주소 |
|
인용정보 |
피인용 횟수 :
129 인용 특허 :
42 |
초록
▼
An electromagnetic surgical ablation probe having a coaxial feedline and cooling chamber is disclosed. The disclosed probe includes a dipole antenna arrangement having a radiating section, a distal tip coupled to a distal end of the radiating section, and a ring-like balun short) or choke, which may
An electromagnetic surgical ablation probe having a coaxial feedline and cooling chamber is disclosed. The disclosed probe includes a dipole antenna arrangement having a radiating section, a distal tip coupled to a distal end of the radiating section, and a ring-like balun short) or choke, which may control a radiation pattern of the probe. A conductive tube disposed coaxially around the balun short includes at least one fluid conduit which provides coolant, such as dionized water, to a cooling chamber defined within the probe. A radiofrequency transparent catheter forms an outer surface of the probe and may include a lubricious coating.
대표청구항
▼
1. An ablation probe, comprising: a coaxial feedline having an inner conductor, an outer conductor disposed coaxially about the inner conductor, and a dielectric disposed therebetween, wherein the inner conductor and dielectric extend beyond the outer conductor at a distal end thereof;a radiating se
1. An ablation probe, comprising: a coaxial feedline having an inner conductor, an outer conductor disposed coaxially about the inner conductor, and a dielectric disposed therebetween, wherein the inner conductor and dielectric extend beyond the outer conductor at a distal end thereof;a radiating section having a proximal end operably coupled to a distal end of the inner conductor;a distal tip coupled to a distal end of the radiating section, wherein the distal tip includes a generally cylindrical proximal tip extension having at least one o-ring disposed thereabout;a balun short disposed in electrical communication around the outer conductor and including a first notch defined therein adapted to receive an inflow tube and at least one second notch defined therein;a conductive tube disposed coaxially around the balun short;at least one fluid conduit defined longitudinally within the conductive tube, the fluid conduit including an inflow tube disposed longitudinally along the outer conductor and positioned at least partially within the first notch; anda catheter coaxially disposed around the conductive tube, wherein a distal end of the catheter is joined to a proximal end of the distal tip to define a coolant chamber therein. 2. The ablation probe in accordance with claim 1, wherein the catheter is formed from radiofrequency transparent material having an electrical property selected from the group consisting of a low electrical conductivity and a dielectric. 3. The ablation probe in accordance with claim 1, wherein a distal end of the inflow tube is in fluid communication with the coolant chamber. 4. The ablation probe in accordance with claim 1, wherein the balun short includes at least two first notches defined therein adapted to receive a rib member and includes least two second notches defined radially therebetween; and at least two rib members disposed longitudinally along the outer conductor, wherein each rib member is positioned at least partially within a first notch to define at least two fluid conduits within the conductive tube. 5. The ablation probe in accordance with claim 1, wherein a distal end of the conductive tube is positioned about one quarter wavelength distally from the balun short. 6. The ablation probe in accordance with claim 1, wherein the distal tip has a shape selected from the group consisting of substantially conical, substantially cylindrical, substantially rounded, substantially parabolic, substantially flat, substantially knife-like, and substantially flared. 7. The ablation probe in accordance with claim 1, further including a lubricious layer disposed on an outer surface of the catheter. 8. The ablation probe in accordance with claim 1, further including a lubricious layer disposed on an outer surface of the distal tip. 9. The ablation probe in accordance with claim 1, further including a sealing compound disposed between the proximal tip extension and the catheter. 10. An ablation system, comprising: a source of microwave ablation energy;a coaxial feedline operatively coupled to the source of microwave ablation energy, wherein the coaxial feedline includes an inner conductor, an outer conductor disposed coaxially about the inner conductor, and a dielectric disposed therebetween, wherein the inner conductor and dielectric extend beyond the outer conductor at a distal end thereof;a radiating section having a proximal end operably coupled to a distal end of the inner conductor;a distal tip coupled to a distal end of the radiating section, wherein the distal tip includes a generally cylindrical proximal tip extension having at least one o-ring disposed thereabout;a balun short disposed in electrical communication around the outer conductor and including a first notch defined therein adapted to receive an inflow tube and at least one second notch defined therein;a conductive tube defined coaxially around the balun short;at least one fluid conduit defined longitudinally within the conductive tube, the fluid conduit including an inflow tube disposed longitudinally along the outer conductor and positioned at least partially within the first notch; anda catheter coaxially disposed around the conductive tube, wherein a distal end of the catheter is joined to a proximal end of the distal tip to define a coolant chamber therein. 11. The ablation system in accordance with claim 10, wherein the catheter is formed from radiofrequency transparent material having an electrical property selected from the group consisting of a low electrical conductivity and a dielectric. 12. The ablation system in accordance with claim 10, wherein a distal end of the inflow tube is in fluid communication with the coolant chamber. 13. The ablation system in accordance with claim 10, wherein the balun short includes at least two first notches defined therein adapted to receive a rib member and includes at least two second notches defined radially therebetween; and at least two rib members disposed longitudinally along the outer conductor, wherein each rib member is positioned at least partially within a first notch to define at least two fluid conduits within the conductive tube. 14. The ablation system in accordance with claim 10, wherein a distal end of the conductive tube is positioned about one quarter wavelength distally from the balun short. 15. The ablation system in accordance with claim 10, wherein the distal tip has a shape selected from the group consisting of substantially conical, substantially cylindrical, substantially rounded, substantially parabolic, substantially flat, substantially knife-like, and substantially flared. 16. The ablation system in accordance with claim 10, further including a lubricious layer disposed on an outer surface of the catheter. 17. A method of manufacturing an ablation probe, comprising the steps of: providing a coaxial feedline having an inner conductor, an outer conductor, and a dielectric disposed therebetween;joining a distal radiating section cylinder to a distal end of the inner conductor;joining a distal tip to the distal radiating section cylinder;positioning a balun short on the outer conductor;forming a notch defined longitudinally in the balun short;positioning at least one fluid conduit member on an outer surface of the outer conductor, wherein the conduit member is longitudinally disposed within the notch;positioning a conductive tube around the balun short; andpositioning a conduit over at least one of the balun short and coaxial feedline, wherein a distal end of the conduit is fixed to a proximal end of the distal tip. 18. The method of manufacturing an ablation probe in accordance with claim 17, wherein a distal end of the conductive tube is positioned a distance of one-quarter wavelength distally from the balun short.
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