Stent

What is claimed is: 1. An implant device comprising: a first woven layer having a first porosity and forming a first generally tubular shape with a space therethrough; said first woven layer independently exerting a first radial force radially outwards; a second woven layer having a second porosity, forming a second generally tubular shape, and located within said space within said first generally tubular shape; said second woven layer independently exerting a second radial force radially outwards; and, a plurality of attachment members connected between said first woven layer and said second woven layer, and at locations along a length of said implant device; wherein said second woven layer extends along a fractional length of said first woven layer; wherein said first porosity is greater than said second porosity; and, wherein said implant device exerts a third radial force radially outwards that is greater than an additive radial force of all layers and components individually combined, and wherein said third radial force is at least partially generated by said second woven layer foreshortening at a different rate than said first woven layer. 2. The implant device of claim 1 , wherein said first woven layer has a porosity between about 75% and 95% and said second woven layer has a porosity between about 45% and 70%. 3. The implant device of claim 1 , wherein said first woven layer has a surface area between about 5% and 25%. 4. The implant device of claim 1 , wherein said second woven layer is asymmetrically positioned relative to first and second ends of said first woven layer. 5. The implant device of claim 1 , wherein said second woven layer is positioned between a first end of said first woven layer and a middle of said first woven layer. 6. The implant device of claim 1 , wherein said implant device has an average maximum retraction force of about 0.4 lbs. 7. The implant device of claim 1 , wherein said implant device has an average maximum deployment force of about 0.3 lbs. 8. An implant device comprising: a first braided layer having a first percentage of open space and forming a first tubular shape with a space therethrough; said first braided layer independently exerting a first radial force radially outwards; a second braided layer, forming a second tubular shape, having a second percentage of open space and located within said space within said tubular shape; said second braided layer independently exerting a second radial force radially outwards; and, a plurality of attachment members connected between said first braided layer and said second braided layer, and at locations along a length of said implant device; wherein said second braided layer extends along a portion of a length of said first braided layer; and, wherein said first percentage of open space is larger than said second percentage of open space; wherein said implant device exerts a third radial force radially outwards that is higher than an additive radial force of all layers and components individually combined, and wherein said first braided layer and said second braided layer decrease and increase in length at different speeds during deployment and retraction of said implant device so as to at least partially generate said third radial force. 9. The implant device of claim 8 , wherein said first braided layer has a first percentage of open space between about 75% and 95% and said second braided layer has a second percentage of open space between about 45% and 70%. 10. The implant device of claim 9 , wherein said first braided layer has a surface area between about 5% and 25%. 11. The implant device of claim 9 , wherein said implant device has an average maximum deployment force of about 0.3 lbs. 12. The implant device of claim 9 , wherein said implant device has an average maximum retraction force of about 0.4 lbs. 13. An implant device comprising: a first woven layer having a first porosity and forming a first generally tubular shape with a space therethrough; a second woven layer having a second porosity, forming a second generally tubular shape, and located within said space within said first tubular shape; and, a plurality of attachment members connected between said first woven layer and said second woven layer, and at locations along a length of said implant device; wherein said first woven layer has a first percentage of open space between about 75% and 95% and said second woven layer has a second percentage of open space between about 45% and 70%; wherein an average outward radial force of said implant device is greater than an average outward radial force independently exerted by all layers and components of said implant device, together; and, wherein said average outward radial force is generated, in part, by said second woven layer foreshortening at a different rate than said first woven layer. 14. An implant device comprising: a first layer having a first tubular shape and a first porosity; a second layer having a second tubular shape and being disposed at least partially over said first layer; said second layer having a second porosity that is higher than said first porosity; and, a plurality of attachment members connected between said first layer and said second layer, and at locations along a length of said implant device; wherein an average outward radial force of the implant device is greater than an average outward radial force independently exerted by all layers and components of said implant combined; and, wherein said average outward radial force is generated, in part, by said second layer foreshortening at a different rate than said first layer. 15. The implant device of claim 14 , wherein said first layer and said second layer are woven. 16. The implant device of claim 14 , wherein said first layer is woven from wire having a first diameter and said second layer is woven from wire having a second diameter; said first diameter being smaller than said second diameter. 17. The implant device of claim 14 , wherein said first layer and said second layer are connected near a proximal end of said implant device. 18. The implant device of claim 14 , wherein said second layer comprises a plurality of wires forming a woven, tubular structure. 19. The implant device of claim 14 , wherein said implant device is deployable with between about 0.2 and about 0.6 lbs of force. 20. The implant device of claim 14 , wherein said first layer has a porosity between about 45-70%. 21. The implant device of claim 14 , wherein a proximal end of said second layer comprises a plurality of loops. 22. The implant device of claim 14 , wherein said first layer is composed of at least a first wire having a diameter between about 0.0005 to about 0.0018 inch and said second layer is composed of at least a second wire between about 0.0018 inch and about 0.0050 inch. 23. The implant device of claim 14 , wherein said first layer is composed of one or more first wires and said second layer is composed of one or more second wires; and wherein the diameter size ratio between said first wires and said second wires is between about 1:1 and about 1:10 respectively. 24. The implant device of claim 14 , wherein said second layer is between about 0.1 mm and about 0.6 mm larger in diameter than said first layer when said implant device is in an expanded configuration. 25. The implant device of claim 14 , wherein said second layer has a