Devices and methods for forming an anastomosis

What is claimed is: 1. A stent comprising: a stent body formed of a woven filament braid having a constrained configuration, the stent body having an expanded configuration with a proximal end of the body expanded into a proximal flange, a distal end of the body expanded into a distal flange, and a cylindrical region extending between the proximal and distal flanges, wherein the proximal and distal flanges extend around a full circumference of the cylindrical region, wherein at least the cylindrical region is covered, the covered cylindrical region having an open interior passage therethrough, the cylindrical region configured to extend through adjacent first and second layers of bodily tissue such that the proximal and distal flanges atraumatically appose the adjacent layers of bodily tissue between the proximal flange and distal flange, with the proximal and distal flanges each configured such that a force greater than 2.55 N will cause the stent to be pulled out, and wherein the proximal flange is configured to bend over the covered cylindrical region at a proximal first angle, the distal flange is configured to bend over the covered cylindrical region at a distal first angle, the proximal flange further comprises a curved surface comprising a proximal second angle opposed in direction to the proximal first angle, the distal flange further comprises a curved surface comprising a distal second angle opposed in direction to the distal first angle, wherein the proximal first angle is at least as great as the proximal second angle, or the distal first angle is at least as great as the distal second angle, or both, and the curved surfaces are configured to atraumatically engage the bodily tissue. 2. The stent of claim 1 , wherein the proximal flange has an interior diameter greater than a diameter of the covered cylindrical region and the distal flange has an interior diameter greater than the diameter of the covered cylindrical region. 3. The stent of claim 1 , wherein the entire stent body is covered. 4. The stent of claim 1 , wherein the stent is a self-expanding stent. 5. The stent of claim 1 , wherein the proximal flange and distal flanges are each configured such that a force greater than 2.94 N will cause the stent to be pulled out. 6. The stent of claim 1 , wherein the force is measured with the stent in its fully expanded configuration, deployed through an opening in a material sized to accommodate the expanded diameter of the cylindrical region of the stent, and wherein the force measured is that required to deform the distal flange of the fully expanded stent and to pull the expanded distal flange of the stent through the opening. 7. The stent of claim 1 , wherein, in the expanded configuration, the stent body has a distal-most end where the distal flange joins the stent body and a proximal-most end where the proximal flange joins the stent body, and wherein the cylindrical region is measured as the lesser of a length of the stent body from the distal-most end to proximal-most end and a length of the stent body that is the shortest distance between the distal and proximal flanges, when the stent body is deployed in the bodily tissue in the expanded configuration. 8. A self-expanding stent, comprising: a flexible body having an unexpanded configuration and an expanded configuration, the expanded configuration including a proximal end of the body expanded into a proximal flange, a distal end of the body expanded into a distal flange, and a cylindrical region extending between the proximal and distal flanges, wherein the proximal and distal flanges extend around a full circumference of the cylindrical region, wherein at least the cylindrical region is covered, the covered cylindrical region having an open interior therethrough, the proximal and distal flanges each projecting away from the interior passage of the cylindrical region, the cylindrical region configured to extend through adjacent first and second layers of bodily tissue; and wherein the proximal and distal flanges are configured to atraumatically appose the adjacent layers of bodily tissue between the proximal and distal flanges with the proximal flange and distal flanges are each configured such that a force greater than 2.55 N will cause the stent to be pulled out, and wherein the proximal flange is configured to bend over the covered cylindrical region at a proximal first angle, the distal flange is configured to bend over the covered cylindrical region at a distal first angle, the proximal flange further comprises a curved surface comprising a proximal second angle opposed in direction to the proximal first angle, the distal flange further comprises a curved surface comprising a distal second angle opposed in direction to the distal first angle, wherein the proximal first angle is at least as great as the proximal second angle, or the distal first angle is at least as great as the distal second angle, or both, and the curved surfaces are configured to atraumatically engage the bodily tissue. 9. The stent of claim 8 , wherein the proximal and distal flanges are each configured such that a force greater than 2.94 N will cause the stent to be pulled out. 10. The stent of claim 8 , wherein the force is measured with the stent in its fully expanded configuration, deployed through an opening in a material sized to accommodate the expanded diameter of the cylindrical region of the stent, and wherein the force measured is that required to deform the distal flange of the fully expanded stent and to pull the expanded distal flange of the stent through the opening. 11. The stent of claim 8 , wherein, in the expanded configuration, the flexible body has a distal-most end where the distal flange joins the flexible body and a proximal-most end where the proximal flange joins the flexible body, and wherein the cylindrical region is measured as the lesser of a length of the flexible body from the distal-most end to proximal-most end and a length of the flexible body that is the shortest distance between the distal and proximal flanges, when the flexible body is deployed in the bodily tissue in the expanded configuration. 12. The stent of claim 8 , wherein the entire stent body is covered. 13. The stent of claim 8 , wherein the proximal flange has an interior diameter greater than a diameter of the covered cylindrical region and the distal flange has an interior diameter greater than the diameter of the covered cylindrical region.