Catheter with radiofrequency cutting tip and heated balloon

What is claimed is: 1. A stent delivery catheter, comprising: a catheter shaft having a proximal end and a distal end; wherein the catheter shaft further comprises an inner member and an outer member; an inflatable balloon having an inner region and an outer surface, the inflatable balloon disposed adjacent to the distal end of the catheter shaft; a cutting electrode disposed on the distal end of the inner member of the catheter shaft; and a self-expanding stent disposed about the catheter shaft and adjacent to the distal end, the stent having a non-expanded state and an expanded state, wherein the stent in the expanded state comprises a proximal retention feature and a distal retention feature, wherein the distal retention feature increases in diameter from a distal end of the self-expanding stent towards a proximal end of the self-expanding stent, wherein the proximal retention feature increases in diameter from the proximal end of the self-expanding stent towards the distal end of the self-expanding stent, and wherein at least one of the proximal or distal retention features are configured to engage an interior portion of a pseudocyst or a gastric structure to prevent migration of the self-expanding stent. 2. The stent delivery catheter of claim 1 , wherein the expanded state of the stent includes a flared proximal end region and a flared distal end region. 3. The stent delivery catheter of claim 2 , wherein the flared proximal end region and the flared distal end region each comprise an inwardly facing flare portion. 4. The stent delivery catheter of claim 1 , wherein an outer diameter of the inflatable balloon varies along the inflatable balloon. 5. The stent delivery catheter of claim 4 , wherein the inflatable balloon has a first region having a first outer diameter, a second region having a second outer diameter, and a third region having a third outer diameter, the second diameter smaller than the first and third diameters, and wherein the stent in the expanded state comprises a shape substantially corresponding to the first region, the second region, and the third region of the inflatable balloon. 6. The stent delivery catheter of claim 5 , wherein the stent is disposed in the non-expanded state about the outer surface of the inflatable balloon along the first region, the second region, and the third region. 7. The stent delivery catheter of claim 1 , wherein the stent is configured to create a drainage path between a gastrointestinal tract lumen and a pseudocyst. 8. A method for delivering a stent between a first body lumen and a second body lumen, the method comprising: advancing a stent delivery catheter to a target location within the first body lumen, the catheter comprising: a catheter shaft extending from a proximal end to a distal end; wherein the catheter shaft further comprises an inner member and an outer member; an inflatable balloon disposed along the catheter shaft proximate the distal end of the catheter shaft; a cutting electrode positioned at the distal end of the inner member of the catheter shaft; and a stent disposed about the catheter shaft proximate the distal end of the catheter shaft, the stent having a first unexpanded configuration and a second expanded configuration; energizing the cutting electrode in contact with the first body lumen to create an opening from the first body lumen; energizing the cutting electrode in contact with the second body lumen to create an opening to the second body lumen; inflating the inflatable balloon within the opening from the first body lumen and the opening to the second body lumen; and deploying the stent to the second expanded configuration within the opening from the first body lumen and the opening to the second body lumen, wherein the stent in the expanded configuration comprises a proximal retention feature and a distal retention feature, wherein the distal retention feature increases in diameter from a distal end of the self-expanding stent towards a proximal end of the self-expanding stent, wherein the proximal retention feature increases in diameter from the proximal end of the self-expanding stent towards the distal end of the self-expanding stent, and wherein at least one of the proximal or distal retention features are configured to engage an interior portion of a pseudocyst or a gastric structure to prevent migration of the self-expanding stent. 9. The method of claim 8 , wherein in the second expanded configuration, the stent comprises a proximal retention member, a distal retention member, or both. 10. The method of claim 9 , wherein the proximal retention member, the distal retention member, or each of the proximal retention member and the distal retention member comprises a flared end region. 11. The method of claim 9 , wherein deploying the stent results in the proximal retention member being positioned within the first body lumen, the distal retention member being positioned within the second body lumen, or both. 12. The method of claim 8 , wherein an outer diameter of the inflatable balloon varies along the inflatable balloon. 13. The method of claim 12 , wherein the stent in the second expanded configuration substantially corresponds to the varying outer diameter of the inflatable balloon. 14. The method of claim 8 , wherein the stent comprises a bioabsorbable shape memory polymer configured to expand when exposed to body temperature. 15. A method for delivering a stent between a first body lumen and a second body lumen, the method comprising: advancing a stent delivery catheter to a target location within the first body lumen, the catheter comprising: a catheter shaft having a proximal end and a distal end; wherein the catheter shaft further comprises an inner member and an outer member; an inflatable balloon disposed along the catheter shaft adjacent to the distal end of the catheter shaft; a cutting electrode disposed on the distal end of the inner member of the catheter shaft; and a stent disposed about the catheter shaft, the stent having a non-expanded state and an expanded state; energizing the cutting electrode in contact with the first body lumen to create an opening from the first body lumen; energizing the cutting electrode in contact with the second body lumen, through the opening from the first body lumen, to create an opening to access the second body lumen; inflating the inflatable balloon within one or both of the opening from the first body lumen and the opening to the second body lumen; and transforming the stent to the expanded state across the opening from the first body lumen and through the opening to the second body lumen, wherein the stent in the expanded state comprises a proximal retention feature and a distal retention feature, wherein the distal retention feature increases in diameter from a distal end of the self-expanding stent towards a proximal end of the self-expanding stent, wherein the proximal retention feature increases in diameter from the proximal end of the self-expanding stent towards the distal end of the self-expanding stent, and wherein at least one of the proximal or distal retention features are configured to engage an interior portion of a pseudocyst or a gastric structure to prevent migration of the self-expanding stent. 16. The method of claim 15 , wherein in the expanded state, the stent comprises a proximal retention member, a distal retention member, or both. 17. The method of claim 16 , wherein the proximal retention member, the distal retention member, or each of the proximal retention m