System, device and method for anchoring a stent

What is claimed is: 1. A device comprising an elongate tubular body configured for positioning across an anatomical constriction portion that regulates flow between a first anatomical flow path and a second anatomical flow path, the device comprising: a proximal stent formed of a first material and having a tubular wall extending longitudinally between a proximal perimeter and a distal perimeter and defining an elongated exterior configured to anchor the proximal stent with respect to anatomical structure proximal to the anatomical constriction portion; a distal stent having a tubular wall extending longitudinally between a proximal perimeter and a distal perimeter and defining an elongated exterior configured to anchor the distal stent with respect to anatomical structure distal to the anatomical constriction portion; and a sleeve, formed of a second material different from and more flexible than the first material of the proximal stent, coupled around the distal perimeter of the proximal stent and the proximal perimeter of the distal stent; wherein the sleeve is configured to extend through and to conform to the anatomical constriction portion, and to transition in coordination with the anatomical constriction portion between an expanded configuration enabling flow through the sleeve and a constricted configuration wherein flow through the sleeve is restricted while the proximal stent remains anchored to an anatomical structure proximal to the anatomical constriction portion and the distal stent remains anchored to an anatomical structure distal to the anatomical constriction portion; and wherein the proximal stent, the distal stent, and the sleeve together define a central lumen providing a flow path through the elongate tubular body resistant to migration. 2. The device of claim 1 , wherein at least one of the proximal stent and the distal stent comprises at least one flare having a flare diameter that exceeds a diameter of a non-flared portion of the stent. 3. The device of claim 2 , wherein both the proximal stent and the distal stent each comprise at least one flare, wherein at least two of the flares differ in diameter. 4. The device of claim 1 , wherein the proximal stent and the distal stent include an elongate portion extending between the proximal perimeter and the distal perimeter thereof, the elongate portion comprising a rigid or semi-rigid structure which is not pulled into the anatomical constriction portion as the flexible sleeve constricts with the anatomical constriction portion. 5. The device of claim 1 , wherein the sleeve is formed of a material more flexible than the proximal stent and the distal stent to maintain efficacy of the anatomical constriction portion without causing the first stent and the second stent to migrate. 6. The device of claim 5 , wherein the proximal stent and the distal stent are not pulled into the anatomical constriction portion as the flexible sleeve constricts with the anatomical constriction portion. 7. The device of claim 1 , wherein the sleeve has a length is selected to extend between a proximal side of the anatomical constriction portion and the distal side of the anatomical constriction portion with the proximal stent affixed to tissue at the proximal side of the anatomical constriction portion, and the distal stent affixed to tissue at the distal side of the anatomical constriction portion. 8. The device of claim 1 , wherein the sleeve is comprised of a material configured to transition from the expanded configuration to the constricted configuration in response to forces applied thereto by the anatomical constriction portion, thereby anchoring the device with respect to the body lumen. 9. The device of claim 1 , wherein: the sleeve is configured to conform to an anatomical constriction portion comprising a sphincter; the proximal stent is configured to engage tissue at a proximal end of the sphincter; the distal stent is configured to engage tissue at a distal end of the sphincter; and the sleeve is configured to transition from the expanded configuration when the sphincter is opened to the constricted configuration when the sphincter is closed, thereby maintaining sphincter efficacy, without affecting the positions of proximal stent and the distal stent surrounding and at each end of the sphincter. 10. The device of claim 9 , wherein the sleeve is configured to move in coordination with the sphincter and to be compressed and anchored by the sphincter to secure the device against migratory forces resulting from the peristaltic motion of the body lumen. 11. The device of claim 1 , wherein at least one of the proximal stent or the distal stent comprises one of a metal, a metal alloy, a polymer, a metal-polymer composite, a ceramic, or a combination thereof. 12. The device of claim 1 , wherein the sleeve comprises a flexible silicone membrane. 13. The device of claim 1 , wherein the sleeve comprises a tube having one of a fixed or variable thickness, ranging from between 20 microns and 150 microns. 14. The device of claim 1 , wherein at least one of the proximal stent or the distal stent comprises a treatment portion comprising one of a tubular scaffold, a coating, a mesh or combination thereof. 15. A system including: a pair of elongate bodies, a first elongate body configured for affixation within a first anatomical structure, and a second elongate body configured for affixation within a second anatomical structure; and a bypass sleeve, coupling the first elongate body to the second elongate body; wherein each elongate body is positioned across an anatomical constriction portion and comprises: a tubular wall defining a proximal retention end of the elongate body and extending longitudinally to define an elongate exterior configured to anchor with respect to an anatomical structure proximal to the anatomical constriction portion; a tubular wall defining a distal retention end of the elongate body and extending longitudinally to define an elongate exterior configured to anchor with respect to an anatomical structure distal to the anatomical constriction portion; and a flexible sleeve coupled between the proximal retention end and the distal retention end and formed of a different material than the proximal retention end and the distal retention end; wherein: the sleeve of each elongate body is configured to extend across the anatomical constriction portion across which the elongate body is positioned to transition in coordination with application of a retention force from the anatomical constriction portion on the sleeve between an expanded configuration enabling flow through the sleeve when the anatomical constriction portion is open and-a constricted configuration when the anatomical constriction portion constricts thereby anchoring each elongate body with a retention end on either side of the anatomical constriction portion; the retention ends and tubular wall of each elongate body are anchored to the anatomical structure on either side of the anatomical constriction portion across which the sleeve therebetween extends; and the retention ends and the sleeves cooperate with the anatomical constriction portion to retain the bypass sleeve between the pair of elongate bodies. 16. The system of claim 15 , wherein the length of the bypass sleeve is selected to extend between an esophageal sphincter and a pyloric sphincter. 17. The system of claim 15 , wherein at least one of the proximal retention end or the distal retention end of one or both of the first elongate body or the second elongate body comprises a fla