Aneurysm stop pressure system

The invention claimed is: 1. A system for delivering a stent graft within vasculature of a patient, comprising: a delivery member, a stent graft, and an aligning member; said stent graft having a supporting structure expandable between a first configuration arranged for delivery of said stent graft with the delivery member and a second configuration arranged for deployment in a vessel; said stent graft having a covering material extending along a portion of said stent graft; said aligning member coupled to said stent graft and extending from an area of said stent graft covered by said covering material; wherein said delivery member comprises a sheath having a distal end region, a proximal end region, and a sidewall extending between said distal and proximal end regions; said sidewall defining a lumen extending along a length of said sheath and a side aperture extending through said sidewall and communicating with said lumen; said side aperture arranged to slidably receive said aligning member; said stent graft slidably positioned within said lumen; said side aperture having a portion positioned proximally of said distal end region of said sheath; wherein said side aperture is a slot extending along a length of said sheath; wherein said slot comprises a distal slot end and a proximal slot end and tapers inwardly along a length of said slot starting from said distal slot end and extending towards said proximal slot end; wherein a first portion of said sidewall extends along a first side of said lumen and a second portion of said sidewall extends along a second side of said lumen opposite said first side; wherein said distal slot end is defined by said first portion of said sidewall; and wherein a distal surface of said second portion is distal of said distal slot end and curves in a concave direction towards said proximal end region. 2. The system of claim 1 , wherein: said aligning member comprises a wire guide slidably extending through a portion of said stent graft. 3. The system of claim 2 , wherein: said aligning member extends through an opening in said covering material. 4. The system of claim 3 , wherein: said opening is defined by separable, overlapping portions of said covering material; and wherein said overlapping portions include a first overlapping edge portion extending over a second overlapping edge portion and said aligning member extends between said first and second overlapping edge portions. 5. The system of claim 2 , wherein: said delivery member and said wire guide are arranged to rotate at least a portion of said delivery member within the vessel of the patient so as to align said covering material of said stent graft with an opening in a vessel wall. 6. The device of claim 2 , comprising a wire guide diverting member positioned within the lumen of the sheath, the wire guide diverting member comprising an arcuate surface arranged to divert portions of the wire guide through a side of the stent graft. 7. The system of claim 1 , wherein: said aligning member is fixedly coupled to said stent graft and is arranged to extend away from said stent graft. 8. The device of claim 1 , wherein the slot is tapered along the entire length extending from the distal slot end to the proximal slot end. 9. The device of claim 1 , wherein the sheath has a rounded distal tip. 10. The device of claim 1 , wherein said distal slot end is at least twice as wide as said proximal slot end. 11. A device for deploying a stent within the vasculature of a patient, comprising: a sheath having a distal end region, a proximal end region, and a sidewall extending between said distal and proximal end regions; said sidewall defining a lumen extending along a length of said sheath and a side aperture extending through said sidewall and communicating with said lumen; said side aperture having a portion positioned proximally of said distal end region of said sheath; wherein said sheath is arranged to retain a stent for delivery within the vasculature of the patient; wherein said side aperture is arranged to slidably receive an aligning member; wherein said side aperture is a slot extending along a length of said sheath; and wherein said slot comprises a distal slot end and a proximal slot end and tapers inwardly along a length of said slot starting from said distal slot end and extending towards said proximal slot end; wherein a first portion of said sidewall extends along a first side of said lumen and a second portion of said sidewall extends along a second side of said lumen opposite said first side; wherein said distal slot end is defined by said first portion of said sidewall; and wherein a distal surface of said second portion is distal of said distal slot end and curves in a concave direction towards said proximal end region. 12. The device of claim 11 , wherein: said side aperture is arranged to slidably receive an aligning member comprising a wire guide. 13. The device of claim 11 , wherein the slot is tapered along the entire length extending from the distal slot end to the proximal slot end. 14. The device of claim 11 , comprising a wire guide diverting member positioned within the lumen of the sheath, the wire guide diverting member comprising an arcuate surface arranged to divert portions of a wire guide through the slot. 15. The device of claim 11 , wherein the sheath has a rounded distal tip. 16. The device of claim 11 , wherein said distal slot end is at least twice as wide as said proximal slot end. 17. A device for deploying a stent within the vasculature of a patient, comprising: a sheath having a longitudinal axis, a distal end region, a proximal end region, and a sidewall extending between said distal and proximal end regions; said sidewall defining a lumen extending along a length of said sheath and a side aperture extending through said sidewall and communicating with said lumen; said side aperture having a portion positioned proximally of said distal end region of said sheath; wherein said sheath is arranged to retain a stent for delivery within the vasculature of the patient; wherein said side aperture is arranged to slidably receive an aligning member; wherein said slot comprises a distal slot end and a proximal slot end and tapers inwardly along a length of said slot starting from said distal slot end and extending towards said proximal slot end; and wherein said distal slot end is at least twice as wide as said proximal slot end.