Stent designs for use with one or more trigger wires

We claim: 1. A stent for use in a medical procedure, the stent comprising: a series of proximal apices disposed at a proximal end of the stent; a series of distal apices disposed at a distal end of the stent; and a plurality of strut segments disposed between the series of proximal apices the series of distal apices, where the strut segments enable expansion of the stent from a compressed state to a deployed state; at least one barb that is integrally formed in the end region of each of the distal apices; where the series of proximal apices comprises alternating first and second proximal apices; where the second proximal apices have at least one structural element on the apices that the first proximal apices do not have; where each of the first proximal apices comprises an end region having a first bore; where the structural element of each of the second proximal apices comprises at least one barb for engaging tissue, the at least one barb having a free end projecting radially outward: where the first bore and the at least one barb are at least partially circumferentially in-line with one another; where each of the distal apices comprises an end region having a suture bore adapted to receive a suture for coupling the stent to a graft material. 2. A stent for use in a medical procedure, the stent comprising: a series of proximal apices disposed at a proximal end of the stent; a series of distal apices disposed at a distal end of the stent; and a plurality of strut segments disposed between the series of proximal apices and the series of distal apices, where the strut segments enable expansion of the stent from a compressed state to a deployed state; where the series of proximal apices comprises alternating first and second proximal apices; where the second proximal apices have at least one structural element on the apices that the first proximal apices do not have; where each of the first proximal apices comprises an end region having a first bore; where the structural element of each of the second proximal apices comprises at least one barb for engaging tissue, the at least one barb having a free end projecting radially outward; where the first bore and the at least one barb are at least partially circumferentially in-line with one another; where a second proximal apex comprises first and second regions, where the at least one barb is formed in the first region, and where a second bore is formed in the second region; and wherein the first bore of a first proximal apex is axially offset from the second bore of a second proximal apex. 3. A stent for use in a medical procedure, the stent comprising: a series of proximal apices disposed at a proximal end of the stent; a series of distal apices disposed at a distal end of the stent; and a plurality of strut segments disposed between the series of proximal apices and the series of distal apices, where the strut segments enable expansion of the stent from a compressed state to a deployed state; where the series of proximal apices comprises alternating first and second proximal apices, and where the second proximal apices include a structural element on the apices that the first proximal apices do not have; where each of the first proximal apices comprises an end region having a bore; where the structural element of each of the second proximal apices comprises at least one barb for engaging tissue, the at least one barb having a free end projecting radially outward; where at least one of the second proximal apices comprises an end region having an enlarged material width relative to the strut segments; where multiple angled strut segments are disposed between each proximal apex and each distal apex; and where multiple, adjacent angled strut segments are joined at a transition region between the proximal and distal apices, and where at least one barb is integrally formed in a surface of the transition region. 4. A stent for use in a medical procedure, the stent comprising: a series of proximal apices disposed at a proximal end of the stent; a series of distal apices disposed at a distal end of the stent; and a plurality of strut segments disposed between the series of proximal apices and the series of distal apices, where the strut segments enable expansion of the stent from a compressed state to a deployed state; where the series of proximal apices comprises alternating first and second proximal apices, and where the second proximal apices include a structural element on the apices that the first proximal apices do not have; where each of the first proximal apices comprises an end region having a bore; where the structural element of each of the second proximal apices comprises at least one barb for engaging tissue, the at least one barb having a free end projecting radially outward; where at least one of the second proximal apices comprises an end region having an enlarged material width relative to the strut segments, and where each of the first proximal apices are directly restrained by a plurality of trigger wires, such that every other proximal apex of the stent is directly restrained by a trigger wire. 5. The stent of claim 4 where the at least one barb of a second proximal apex is integrally formed in an end region of the second proximal apex. 6. The stent of claim 4 where multiple angled strut segments are disposed between each proximal apex and each distal apex. 7. The stent of claim 6 where multiple, adjacent angled strut segments are joined at a transition region between the proximal and distal apices, and where at least one barb is integrally formed in a surface of the transition region. 8. The stent of claim 4 where each of the distal apices comprises an end region having a bore adapted to receive a suture for coupling the stent to a graft material. 9. The stent of claim 4 including two or more of the following: where each of the first proximal apices are directly restrained by a plurality of trigger wires; where the at least one barb of a second proximal apex is integrally formed in an end region of the second proximal apex; where multiple angled strut segments are disposed between each proximal apex and each distal apex; or where each of the distal apices comprises an end region having a bore adapted to receive a suture for coupling the stent to a graft material. 10. The stent of claim 4 , wherein the end region of at least one of the second proximal apices comprises an enlarged width relative to the strut segments. 11. A stent for use in a medical procedure, the stent comprising: a series of proximal apices disposed at a proximal end of the stent; a series of distal apices disposed at a distal end of the stent; and a plurality of strut segments disposed between the series of proximal apices and the series of distal apices, where the strut segments enable expansion of the stent from a compressed state to a deployed state; where the series of proximal apices comprises alternating first and second proximal apices; where the second proximal apices have at least one structural element on the apices that the first proximal apices do not have; where each of the first proximal apices comprises an end region having a first bore; where the structural element of each of the second proximal apices comprises at least one barb for engaging tissue, the at least one barb having a free end projecting radially outward; where the first bore and the at least one barb are at least partially circumferentially in-line with one another; where a second proximal apex comprises first and second regions, where the at least one barb is formed in the first region, and where a second bore is formed