Spiral flow inducing stent and canula cut method of making same

What is claimed is: 1. A spiral flow inducing stent comprising: a plurality of spiral inducing flow diverters that each include a piece of sheet metal with a helically shaped flow surface; a proximal stent region, which includes a plurality of first struts, joined to a proximal end of each of the spiral inducing flow diverters; a distal stent region, which includes a plurality of second struts, joined to a distal end of each of the spiral inducing flow diverters; all of the first struts and all of the second struts share a cannula thickness; and the helically shaped flow surface is closer to a stent centerline than the first struts and the second struts. 2. A spiral flow inducing stent comprising: a plurality of spiral inducing flow diverters that each include a piece of sheet metal with a helically shaped flow surface; a proximal stent region, which includes a plurality of first struts, joined to a proximal end of each of the spiral inducing flow diverters; a distal stent region, which includes a plurality of second struts, joined to distal end of each of the spiral inducing flow diverters; all of the first struts and all of the second struts share a cannula thickness; and wherein each of the pieces of sheet metal has a length that is greater than a width, and has a thickness that is less than the cannula thickness. 3. The spiral flow inducing stent of claim 2 wherein each of pieces of sheet metal defines an open channel extending along the length. 4. The spiral flow inducing stent of claim 3 wherein each of the open channels opens radially outward relative to a longitudinal axis. 5. A spiral flow inducing stent comprising: a plurality of spiral inducing flow diverters that each include a piece of sheet metal with a helically shaped flow surface; a proximal stent region, which includes a plurality of first struts, joined to a proximal end of each of the spiral inducing flow diverters; a distant stent region, which includes a plurality of second struts, joined to a distal end of each of the spiral inducing flow diverters; all of the first struts and all of the second struts share a cannula thickness; and wherein each of a plurality of different pairs of the first struts are attached to a respective living hinge vertex. 6. The spiral flow inducing stent of claim 5 wherein each living hinge vertex is biased toward a spread configuration so that each of the proximal stent region and the distal stent region are self expanding. 7. A spiral flow inducing stent comprising: a plurality of spiral inducing flow diverters that each include a piece of sheet metal with a helically shaped flow surface; a proximal stent region, which includes a plurality of first struts, joined to a proximal end of each of the spiral inducing flow diverters; a distal stent region, which includes a plurality of second struts, joined to a distal end of each of the spiral inducing flow diverters; all of the first struts and all of the second struts share a cannula thickness; and including exactly four spiral inducing flow diverters. 8. The spiral flow inducing stent of claim 1 wherein the proximal stent region is identical to the distal stent region. 9. The spiral flow inducing stent of claim 1 wherein the proximal stent region, the distal stent region and the spiral inducing flow diverters have longitudinal lengths along a longitudinal axis that are about equal. 10. The spiral flow inducing stent of claim 1 which is movable between a transport configuration and an implanted configuration; wherein the spiral flow inducing stent has a transport diameter in the transport configuration that is less than a cannula diameter, and has a implanted diameter in the implanted configuration that is about equal to the cannula diameter. 11. The spiral flow inducing stent of claim 1 including a plurality of tissue engaging barbs extending radially outward from at least one of the proximal stent region and the distal stent region. 12. The spiral flow inducing stent of claim 1 wherein all portions of the proximal stent region, the spiral inducing flow diverters and the distal stent region are integral with each other. 13. A spiral flow inducing stent comprising: a plurality of spiral inducing flow diverters that each include a piece of sheet metal with a helically shaped flow surface; a proximal stent region, which includes a plurality of first struts, joined to a proximal end of each of the spiral inducing flow diverters; a distal stent region, which includes a plurality of second struts, joined to a distal end of each of the spiral inducing flow diverters; all of the first struts and all of the second struts share a cannula thickness; and wherein each of the spiral inducing flow diverters has the proximal end attached to a respective living hinge vertex of the proximal stent region, and has the distal end attached to a respective living hinge vertex of the distal stent region. 14. A method of making a spiral flow inducing stent that includes a plurality of spiral inducing flow diverters that each include a piece of sheet metal with a helically shaped flow surface; a proximal stent region, which includes a plurality of first struts, joined to a proximal end of each of the spiral inducing flow diverters; a distal stent region, which includes a plurality of second struts, joined to a distal end of each of the spiral inducing flow diverters; all of the first struts and all of the second struts share a cannula thickness, the helically shaped flow surface is closer to a stent centerline than the first struts and the second struts the method comprising the steps of: cutting away a pattern of material from a cannula to leave the plurality of sheets of metal; bending the sheets of metal to define the helically shaped flow surface; setting a helical shape corresponding to the helically shaped flow surface in each of the sheets of metal; cutting away a pattern of material from a segment of the cannula proximal to the sheets of metal into the proximal stent region with the plurality of first struts; and cutting away a pattern of material from a segment of the cannula distal to the sheets of metal into the distal stent region with the plurality of second struts. 15. The method of claim 14 wherein each of the pieces of sheet metal has a length that is greater than a width; and plastically stretching each of the pieces of sheet metal along the width. 16. The method of claim 14 including a step of expanding the proximal stent region and the distal stent region to stent diameter that is about twice a diameter of the cannula. 17. The method of claim 16 wherein the bending step includes plastically deforming each of the pieces of sheet metal into an open channel extending along the length. 18. The method of claim 17 including elastically compressing the spiral flow inducing stent from the implanted configuration to a transport configuration with a transport diameter that is less than the diameter of the cannula. 19. The method of claim 18 wherein the cutting steps are performed with a laser cutter. 20. The method of claim 19 including electropolishing after the cutting steps.