Delivery devices with coolable energy emitting assemblies
First Claim
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1. A treatment system for treating a bronchial tree of a subject, comprising:
- a delivery device, including;
an energy emitter configured to deliver energy through an inner surface of an airway to damage a target region of tissue located radially outward from the inner surface such that the damaged target region has a maximum cross-sectional width at a first location which is radially separated from the inner surface of the airway;
a cooling section configured to contain a coolant and allow circulation of the coolant within for cooling tissue between the energy emitter and the target region; and
an elongate shaft through which the coolant is capable of flowing to the cooling section and the energy emitter, wherein the cooling section is coupled directly to a distal end of the shaft,wherein the energy emitter is coupled to a channel, the channel being coupled directly to the distal end of the shaft at a proximal end of the channel, the channel being fluidly coupled directly to a distal end of the cooling section at a distal end of the channel, and through which the coolant is capable of flowing to cool a tissue-contacting portion of the energy emitter when the energy emitter outputs energy, and wherein an elongate portion of the energy emitter extends circumferentially about the cooling section.
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Abstract
Systems, delivery devices, and methods to treat to ablate, damage, or otherwise affect tissue. The treatment systems are capable of delivering a coolable ablation assembly that ablates targeted tissue without damaging non-targeted tissue. The coolable ablation assembly damages nerve tissue to temporarily or permanently decrease nervous system input. The coolable ablation assembly delivers energy through an inner surface of an airway to damage a target region of tissue such that the damaged target region has a maximum cross-sectional width radially separated from the inner surface of the airway.
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Citations
13 Claims
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1. A treatment system for treating a bronchial tree of a subject, comprising:
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a delivery device, including; an energy emitter configured to deliver energy through an inner surface of an airway to damage a target region of tissue located radially outward from the inner surface such that the damaged target region has a maximum cross-sectional width at a first location which is radially separated from the inner surface of the airway; a cooling section configured to contain a coolant and allow circulation of the coolant within for cooling tissue between the energy emitter and the target region; and an elongate shaft through which the coolant is capable of flowing to the cooling section and the energy emitter, wherein the cooling section is coupled directly to a distal end of the shaft, wherein the energy emitter is coupled to a channel, the channel being coupled directly to the distal end of the shaft at a proximal end of the channel, the channel being fluidly coupled directly to a distal end of the cooling section at a distal end of the channel, and through which the coolant is capable of flowing to cool a tissue-contacting portion of the energy emitter when the energy emitter outputs energy, and wherein an elongate portion of the energy emitter extends circumferentially about the cooling section. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A treatment system for treating a subject, comprising:
- an elongate shaft through which a coolant is capable of flowing, the elongate shaft having an inflow lumen and an outflow lumen; and
an intraluminal energy delivery device coupled to the elongate shaft, the delivery device including;
an energy emitter assembly including an electrode configured to output energy to ablate targeted tissue of a bronchial tree, and a conduit directly coupled to one of the inflow lumen and the outflow lumen of the shaft, and to which the electrode is coupled, wherein the coolant is capable of flowing directly from the elongate shaft through the conduit so as to cool a tissue-contacting portion of the energy emitter assembly; and
a deployable element movable from a collapsed state to an expanded state to bring the tissue-contacting portion of the energy emitter assembly into contact with an airway wall of the bronchial tree, wherein an elongate portion of the energy emitter assembly extends circumferentially about the deployable element in the expanded state, the deployable element comprising an inflatable balloon directly coupled to the other of the inflow lumen and the outflow lumen of the shaft and including a cooling section, the conduit being in fluid communication with the cooling section, the inflatable balloon being configured to contain coolant and allow circulation of the coolant within, and the cooling section being movable into contact with the airway wall so as to cool tissue adjacent to the tissue-contacting portion of the energy emitter assembly when energy is being outputted therefrom, wherein the intraluminal energy delivery device is configured to deliver energy to damage a target region of tissue separated from the tissue-contacting portion of the energy emitter assembly such that the damaged target region has a maximum cross-sectional width at a first depth separate from the tissue-contacting portion of the energy emitter assembly. - View Dependent Claims (9, 10, 11, 12, 13)
- an elongate shaft through which a coolant is capable of flowing, the elongate shaft having an inflow lumen and an outflow lumen; and
Specification