An angioplasty apparatus for facilitating accurate placement of a lumen stent for dilating a stenosis, the apparatus includes arcuate low pressure balloon segment(s) connected at a distal end of a guiding catheter with gap(s) to facilitate blood flow during a stenting procedure. Optimal positioning of a stent at a lumen bifurcation is facilitated to obviate any tendency of a stent to miss a proximal end of a stenosis branch lumen while concomitantly preventing the stent from protruding into an original lumen, such as a patient's aorta.

An angioplasty apparatus for facilitating accurate placement of a lumen stent for dilating a stenosis, the apparatus includes arcuate low pressure balloon segment(s) connected at a distal end of a guiding catheter with gap(s) to facilitate blood flow during a stenting procedure. Optimal positioning of a stent at a lumen bifurcation is facilitated to obviate any tendency of a stent to miss a proximal end of a stenosis branch lumen while concomitantly preventing the stent from protruding into an original lumen, such as a patient's aorta.

An endoluminal prosthesis comprises a graft having a tubular body comprising proximal and distal ends, inner and outer surfaces, and partially and fully deployed states. A temporary channel is disposed external to the outer surface of the graft in the partially deployed state. The temporary channel begins at one of the proximal and distal ends of the graft, and extends along only a portion of a longitudinal length of the graft. The temporary channel is removed when the graft is in a fully deployed state.

An endoluminal prosthesis comprises a graft having a tubular body comprising proximal and distal ends, inner and outer surfaces, and partially and fully deployed states. A temporary channel is disposed external to the outer surface of the graft in the partially deployed state. The temporary channel begins at one of the proximal and distal ends of the graft, and extends along only a portion of a longitudinal length of the graft. The temporary channel is removed when the graft is in a fully deployed state.

A delivery system for a medical device includes a proximal tip having a curved groove formed therein and a pre-loaded catheter disposed in the groove such that the pre-loaded catheter is disposed at least partly circumferentially with regard to the proximal tip. A guidewire can be advanced through the pre-loaded catheter and extended laterally from the delivery system.

A delivery system for a medical device includes a proximal tip having a curved groove formed therein and a pre-loaded catheter disposed in the groove such that the pre-loaded catheter is disposed at least partly circumferentially with regard to the proximal tip. A guidewire can be advanced through the pre-loaded catheter and extended laterally from the delivery system.

A first endoluminal prosthesis coupled to an inner catheter and a dilator tip is delivered to the body vessel via a guidewire and a delivery sheath in a conventional manner. After deployment of the first endoluminal prosthesis at the target site, the dilator and catheter are retracted from the body, leaving the delivery sheath in place. A second endoluminal prosthesis is housed within a peel-away sheath without a catheter or dilator tip, and is mated to the delivery sheath outside the patient. The second prosthesis is advanced from the peel-away sheath into the delivery sheath without the use of a dilator tip or catheter. As the second prosthesis is advanced into the delivery sheath from the peel-away sheath, the peel-away sheath is peeled away. The second prosthesis is advanced through the delivery sheath and delivered into an overlapping engagement with the first prosthesis.

A first endoluminal prosthesis coupled to an inner catheter and a dilator tip is delivered to the body vessel via a guidewire and a delivery sheath in a conventional manner. After deployment of the first endoluminal prosthesis at the target site, the dilator and catheter are retracted from the body, leaving the delivery sheath in place. A second endoluminal prosthesis is housed within a peel-away sheath without a catheter or dilator tip, and is mated to the delivery sheath outside the patient. The second prosthesis is advanced from the peel-away sheath into the delivery sheath without the use of a dilator tip or catheter. As the second prosthesis is advanced into the delivery sheath from the peel-away sheath, the peel-away sheath is peeled away. The second prosthesis is advanced through the delivery sheath and delivered into an overlapping engagement with the first prosthesis.

An aneurysm bridging device can be placed in the neurovasculature of a patient by advancing the aneurysm bridging device in a small-diameter configuration a delivery catheter to a target region within the neurovasculature and securing the distal region of the aneurysm bridging device to the neurovasculature. While the distal region of the aneurysm bridging device is secured to the neurovasculature, the proximal region of the aneurysm bridging device can be advanced to permit the aneurysm bridging device to expand from the small-diameter configuration and to deform and twist in a central region of the aneurysm bridging device. The proximal region of the aneurysm bridging device can be secured within the neurovasculature to maintain the central region of the aneurysm bridging device in a deformed state.

An aneurysm bridging device can be placed in the neurovasculature of a patient by advancing the aneurysm bridging device in a small-diameter configuration a delivery catheter to a target region within the neurovasculature and securing the distal region of the aneurysm bridging device to the neurovasculature. While the distal region of the aneurysm bridging device is secured to the neurovasculature, the proximal region of the aneurysm bridging device can be advanced to permit the aneurysm bridging device to expand from the small-diameter configuration and to deform and twist in a central region of the aneurysm bridging device. The proximal region of the aneurysm bridging device can be secured within the neurovasculature to maintain the central region of the aneurysm bridging device in a deformed state.