Methods of removing heat from an electrode using thermal shunting
First Claim
1. A method of heat removal from an electrode assembly during a tissue treatment procedure, the method comprising:
- delivering energy to an electrode assembly of an ablation system, the ablation system comprising a catheter comprising a distal end, the electrode assembly positioned along the distal end of the catheter;
the catheter of the ablation system comprises a plurality of thermal shunt members along its distal end,a first one of the plurality of thermal shunt members extends at least partially through an interior of the electrode assembly;
a second one of the plurality of thermal shunt members being disposed proximal to the first one of the plurality of thermal shunt members, a third one of the plurality of shunt members being distal to and spaced apart from the second one of the plurality of shunt members by at least a portion of the electrode assembly, the second one and the first one of the plurality of thermal shunt members being differently sized;
the catheter further comprises at least one fluid passage extending at least partially through the interior of the electrode assembly and an interior of the plurality of thermal shunt members;
delivering a fluid through the at least one fluid passage; and
transferring heat from the electrode assembly to the fluid via the plurality of thermal shunt members to reduce the likelihood of localized hot spots along the distal end of the catheter.
2 Assignments
0 Petitions
Accused Products
Abstract
According to some embodiments, a medical instrument (for example, an ablation device) comprises an elongate body having a proximal end and a distal end, an energy delivery member positioned at the distal end of the elongate body, a first plurality of temperature-measurement devices carried by or positioned within the energy delivery member, the first plurality of temperature-measurement devices being thermally insulated from the energy delivery member, and a second plurality of temperature-measurement devices positioned proximal to a proximal end of the energy delivery member, the second plurality of temperature-measurement devices being thermally insulated from the energy delivery member.
1037 Citations
20 Claims
-
1. A method of heat removal from an electrode assembly during a tissue treatment procedure, the method comprising:
-
delivering energy to an electrode assembly of an ablation system, the ablation system comprising a catheter comprising a distal end, the electrode assembly positioned along the distal end of the catheter; the catheter of the ablation system comprises a plurality of thermal shunt members along its distal end, a first one of the plurality of thermal shunt members extends at least partially through an interior of the electrode assembly; a second one of the plurality of thermal shunt members being disposed proximal to the first one of the plurality of thermal shunt members, a third one of the plurality of shunt members being distal to and spaced apart from the second one of the plurality of shunt members by at least a portion of the electrode assembly, the second one and the first one of the plurality of thermal shunt members being differently sized; the catheter further comprises at least one fluid passage extending at least partially through the interior of the electrode assembly and an interior of the plurality of thermal shunt members; delivering a fluid through the at least one fluid passage; and transferring heat from the electrode assembly to the fluid via the plurality of thermal shunt members to reduce the likelihood of localized hot spots along the distal end of the catheter. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
-
-
9. A method of heat removal from an electrode assembly during a tissue treatment procedure, comprising:
-
delivering energy to an electrode assembly of an ablation system, the electrode assembly positioned along a distal end of an elongate body; a plurality of thermal shunt members extends at least partially through an interior of the electrode assembly, the plurality of thermal shunt members further includes a first thermal shunt member spaced from a second thermal shunt member, the second thermal shunt member being differently sized that the first thermal shunt member;
a third one of the plurality of shunt members being distal to and spaced apart from the second one of the plurality of shunt members by at least a portion of the electrode assembly; andthe elongate body further comprises at least one fluid passage extending at least partially through the interior of the plurality of thermal shunt members delivering a fluid through the at least one fluid passage; and transferring heat from the electrode assembly to the fluid via the plurality of thermal shunt members to reduce the likelihood of localized hot spots along the distal end of the elongate body. - View Dependent Claims (10, 11, 12, 13, 14)
-
-
15. A method of heat removal from an ablation member during a tissue treatment procedure, comprising:
-
delivering energy to an ablation member of an ablation system, the ablation member positioned along a distal end of an elongate body; a plurality of thermal shunt members extends at least partially through an interior of the ablation member; and at least one fluid passage extends at least partially through an interior of the plurality of thermal shunt members, the plurality of thermal shunt members further includes a first thermal shunt member spaced from a second thermal shunt member, at least a portion of the ablation member being disposed between the first and second thermal shunt members, the second thermal shunt member being differently sized that the first thermal shunt member, a third one of the plurality of thermal shunt members being differently sized than first thermal shunt member and the second thermal shunt member; delivering a fluid through the at least one fluid passage; and transferring heat from the electrode assembly to the fluid via the plurality of thermal shunt members. - View Dependent Claims (16, 17, 18, 19, 20)
-
Specification