Device for treating aortic dissection

What is claimed is: 1. A deployment device and stent assembly for treatment of a body vessel, the stent assembly comprising at least one self expanding zig zag stent having a plurality of proximal apices and defining an elongate substantially cylindrical lumen wall engaging surface, and the deployment device comprising an elongate catheter adapted to be deployed over a guide wire, a nose cone at a proximal end of the elongate catheter, a mounting and release mechanism to retain a proximal end of the stent assembly just distal of the nose cone, a sheath over the elongate catheter adapted to retain the stent assembly in a contracted state around the elongate catheter, a release arrangement at a distal end of the elongate catheter to release the mounting and release mechanism, and a grip mounted to the sheath to enable withdrawal of the sheath arrangement, whereby upon endoluminal placement by endovascular deployment, retraction of the grip and sheath and release of the stent assembly, the stent assembly expands to engage the body vessel, wherein the mounting and release mechanism comprises a trigger wire sleeve disposed over the elongate catheter, the trigger wire sleeve having a lumen, a proximal end, a plurality of apertures in a sidewall of the proximal end, a plurality of trigger wires extending through the lumen and looping out of the apertures, at least one length of filament joining proximal apices and knotted to the proximal apices to form a length of filament between adjacent apices, wherein the at least one length of filament forms a plurality of engagement loops, each of which engages one of the plurality of trigger wires and pulls the plurality of proximal apices toward the elongate catheter. 2. A deployment device and stent assembly as in claim 1 wherein the stent assembly comprises a plurality of self expanding zig zag stents each having proximal and distal apices with links between adjacent stents so that the stents are linked together to define the elongate substantially cylindrical lumen wall engaging surface. 3. A deployment device and stent assembly as in claim 2 wherein the links comprise at least one of a thread or fiber knotted to or threaded through the proximal and distal apices of the zig zag stents. 4. A deployment device and stent assembly as in claim 3 wherein the thread or fiber is knotted alternately to a distal apex of one stent and then a proximal apex of an adjacent stent to provide a link thread of zig zag configuration. 5. A deployment device and stent assembly as in claim 1 , wherein the plurality of trigger wires comprises three trigger wires extending from the release mechanism through the lumen. 6. A deployment device and stent assembly as in claim 1 wherein the stent assembly comprises a plurality of self expanding zig zag stents and a link arrangement between adjacent stents so that the stents are linked together to define an elongate substantially cylindrical lumen wall engaging surface, each stent having a plurality of struts and bends between the struts and the link arrangement comprising at least one of a biocompatible thread or fiber such as a suture thread and knots which are knotted alternately to a bend of one stent and then a bend of an adjacent stent to provide a link thread of zig zag configuration, whereby upon endoluminal placement by endovascular deployment, the stent assembly is adapted to provided pressure on the wall of the lumen with each stent able to act independently of an adjacent stent. 7. A method of treatment of a false lumen of an aortic dissection comprising the steps of a) loading a stent assembly onto a deployment device, the stent assembly comprising a plurality of self expanding stents linked together and defining an elongate substantially cylindrical lumen wall engaging surface, the deployment device including a retention arrangement to retain a proximal end of the stent assembly in a retracted state and a trigger wire arrangement to release the retention arrangement to thereby release the proximal end of the stent assembly, a sheath to retain the entire stent assembly in a retracted state and means to withdraw the sheath, wherein each of the self-expanding stents is linked to an adjacent self-expanding stent by a thread or a fiber knotted to apices of each of the self-expanding stents to prevent adjacent stents from sliding relative to one another, b) endovascularly deploying the deployment device with the stent assembly loaded thereon to the site of the false lumen, c) withdrawing the sheath to expose the stent assembly such that it provides pressure against a wall of the lumen, d) releasing the proximal end of the stent assembly by means of releasing the trigger wire arrangement, and e) withdrawing the deployment device, and, wherein the retention arrangement comprises a trigger wire sleeve disposed over the elongate catheter, the trigger wire sleeve having a lumen, a plurality of apertures in a sidewall, and a plurality of trigger wires extending through the lumen and looping out of the apertures to releasably engage the proximal end of the stent assembly. 8. A method as in claim 7 wherein a distal end of the stent assembly is also retained to the deployment device and previous or subsequent to the step of releasing the proximal end of the stent assembly, the distal end is released. 9. A method of treatment of aortic dissection disease comprising a two stage process to close off a rupture associated with an aortic dissection and to apply pressure to a false lumen associated with the aortic dissection, the method comprising the steps of: a) endovascularly deploying a first deployment device with a stent graft retained thereon to a site of the aortic dissection, b) checking by radiographic techniques that the stent graft is positioned over a site of a rupture, c) deploying the stent graft from the first deployment device, d) withdrawing the first deployment device, e) endovascularly deploying a second deployment device with a stent assembly loaded thereon to a site of the false lumen, the stent assembly comprising a plurality of self expanding stents linked together and defining an elongate substantially cylindrical lumen wall engaging surface, the deployment device including a retention arrangement to retain a proximal end of the stent assembly in a retracted state and a trigger wire arrangement to release the retention arrangement to thereby release the proximal end of the stent assembly, a sheath to retain the entire stent assembly in a retracted state and means to withdraw the sheath, f) withdrawing the sheath to expose the stent assembly such that it provides pressure against the wall of the lumen, g) releasing the proximal end of the prosthesis by means of releasing the trigger wire arrangement, h) withdrawing the second deployment device and, wherein the first deployment device comprises a trigger wire sleeve disposed over an elongate catheter, the trigger wire sleeve having a lumen, a proximal end, a plurality of apertures in a sidewall of the proximal end, a plurality of trigger wires extending through the lumen and looping out of the apertures, at least one length of filament joining proximal apices and knotted to the proximal apices to form a length of filament between adjacent apices, wherein the at least one length of filament forms a plurality of engagement loops, each of which engages one of the plurality of trigger wires and pulls the plurality of proximal apices toward the elongate catheter. 10. A method as in claim 9 wherein a distal end of the stent assembly is also retained to the deployment device and previous or subsequent to the step of releasing the proximal end of the prosthesis, the distal end is released.