Spiral delivery system for embolic braid

The invention claimed is: 1. A system comprising: a delivery tube configured to travel through vasculature and comprising an outer surface comprising a helical groove thereon; and a braided implant comprising a braided spiral segment, the spiral segment being positioned within the helical groove and being configured, upon rotation of the delivery tube in relation to the braided implant, to disengage from the helical groove and thereby disengage the braided implant from the delivery tube, wherein the braided implant is movable to an implanted shape comprising a braided sack portion which comprises an opening from which the spiral segment extends, and wherein the spiral segment is configured to form a conical helix shape obstructing the opening of the braided sack portion upon disengaging from the helical groove. 2. The system of claim 1 , wherein the spiral segment is configured to contract radially upon disengaging from the helical groove. 3. The system of claim 1 , wherein the spiral segment comprises a memory shape metal, and wherein the memory shape metal is configured to move from a deformed shape when the spiral segment is positioned within the helical groove to a predetermined shape upon disengaging from the helical groove. 4. The system of claim 1 , wherein the braided implant comprises: an outer tubular segment attached to the spiral segment and positioned over a portion of the outer surface of the delivery tube; an inner tubular segment positioned within a lumen of the delivery tube; and a fold positioned distal a distal end of the delivery tube from which the outer tubular segment and the inner tubular segment extend proximally. 5. The system of claim 4 , further comprising an inner elongated member disposed within the lumen of the delivery tube and configured to push the inner tubular segment distally through the lumen of the delivery tube. 6. The system of claim 4 , wherein at least a portion of the inner tubular segment is configured to invert when the inner tubular segment is pushed distally out of the lumen of the delivery tube. 7. An implantation system comprising: a delivery tube comprising a helical groove thereon; and an implant comprising: a tubular braid, and a braided spiral segment comprising a common weave with the tubular braid, wherein the braided spiral segment is positioned within the helical groove and is configured, upon rotation of the delivery tube in relation to the tubular braid, to disengage from the helical groove and thereby disengage the implant from the delivery tube, wherein the tubular braid is movable to an implanted shape comprising an opening from which the braided spiral segment extends, and wherein the braided spiral segment is configured to form a conical helix shape obstructing the opening of the implanted shape of the tubular braid upon the braided spiral segment disengaging from the helical groove. 8. The implantation system of claim 7 , wherein the braided spiral segment is configured to contract radially upon disengaging from the helical groove. 9. The implantation system of claim 7 , wherein the braided spiral segment comprises a memory shape metal configured to move from a deformed shape when the braided spiral segment is positioned within the helical groove to a predetermined shape upon the braided spiral segment disengaging from the helical groove. 10. The implantation system of claim 7 , wherein the tubular braid comprises: an outer tubular segment attached to the spiral segment and positioned over an outer surface of the delivery tube; an inner tubular segment positioned within a lumen of the delivery tube; and a fold positioned distal a distal end of the delivery tube from which the outer tubular segment and the inner tubular segment extend proximally. 11. The implantation system of claim 10 , further comprising an inner elongated member disposed within the lumen of the delivery tube and configured to push the inner tubular segment distally through the lumen of the delivery tube. 12. The implantation system of claim 7 , wherein at least a portion of the tubular braid is configured to invert when the implant is moved from a delivery configuration to an implanted configuration. 13. A method comprising: collapsing a braided end portion of a braided implant within a helical groove on a delivery tube so that the braided end portion is positioned over an outer surface of the delivery tube and releasable from the delivery tube upon rotation of the delivery tube in relation to the braided implant; inserting a majority of the braided implant within a lumen of the delivery tube; configuring the delivery tube and braided implant for delivery through vasculature; moving the braided implant to an implanted shape comprising an opening from which the braided end portion extends; and disengaging the braided end portion from the helical groove, thereby causing the braided end portion to contract radially in a conical helix shape within the opening of the implanted shape and to obstruct the opening of the implanted shape. 14. The method of claim 13 , further comprising: shaping the braided end portion such that the braided end portion is contracts radially upon disengaging from the helical groove. 15. The method of claim 13 , further comprising: forming the braided end portion to comprise a memory shape metal configured to move from a deformed shape when the braided end portion is positioned within the helical groove to a predetermined shape upon the braided end portion disengaging from the helical groove. 16. The method of claim 13 , further comprising: pushing the majority of the braided implant distally from the lumen of the delivery tube. 17. The method of claim 16 , further comprising: inverting a tubular portion of the braided implant as the tubular portion is pushed distally from the lumen of the delivery tube.