A method of braiding a stent includes braiding a number of elongate filaments around a mandrel using tensioned braiding carriers without spooling the filaments to the tensioned braiding carriers to form a braided stent having atraumatic ends.

A method of braiding a stent includes braiding a number of elongate filaments around a mandrel using tensioned braiding carriers without spooling the filaments to the tensioned braiding carriers to form a braided stent having atraumatic ends.

A stent graft, including multiple wavy rings. The stent graft includes, in a circumferential direction, a region A and a region B connected to the region A. Each wavy ring includes a first wavy section located in the region A, and a second wavy section located in the region B. The wave included angle of the first wavy section is about 70°-120°; the ratio of the wave height of the first wavy section to the spacing between adjacent first wavy sections is 1/4-3; the wave included angle of the second wavy section is 30°-60°, the ratio of the wave height of the second wavy section to the spacing between adjacent second wavy sections is 1/4-3/2, and the ratio of the wave height of the first wavy section to the wave height of the second wavy section is greater than or equal to 1/3 and less than 1.

A method of braiding a stent includes braiding a number of elongate filaments around a mandrel using tensioned braiding carriers without spooling the filaments to the tensioned braiding carriers to form a braided stent having atraumatic ends.

A medical device frame including an undulating frame element defining a series of peaks each defining a longitudinal splay angle, circumferential cant angle, or combinations thereof. In some examples, the series of peaks are non-overlapping when the frame is in an expanded configuration and overlap when the frame is in the collapsed configuration. The longitudinal splay angle and/0 or circumferential cant angle may remain relatively unchanged between the expanded and collapsed configurations (e.g., within about 15%).

The invention relates to a double stent comprising two coaxially arranged stents (2, 3), wherein a first membrane (4) being arranged between a first inner stent (2) and the second outer stents (3), and a second membrane (5) being arranged on the second stent (3), with the membrane ends of the first and second membrane (4, 5) being brought together at the ends of the stents (2, 3) and folded over onto the inside of the first stent (2) and secured/fixed there.

A stent graft. The stent graft is provided in the axial direction thereof with at least one region T, and the region T includes a number of wavy rings; in the circumferential direction, the region T includes a region A and a region B that is connected to the region A, the ratio of the area of the region A to the area of the region T being -, the ratio of the coverage rate of the wavy rings in the region A to the coverage rate of the wavy rings in the region B being - 9/10, and the ratio of the coverage rate of the wavy rings within any circular region having a diameter of 20 mm within the region A to the coverage rate of the wavy rings in the region A being 0.7-1.3.

Various stents and stent-graft systems for treatment of medical conditions are disclosed. In one embodiment, an exemplary stent-graft system may be used for endovascular treatment of a thoracic aortic aneurysm. The stent-graft system may comprise proximal and distal components, each comprising a graft having proximal and distal ends, where upon deployment the proximal and distal components at least partially overlap with one another to provide a fluid passageway therebetween. The proximal component may comprise a proximal stent having a plurality of proximal and distal apices connected by a plurality of generally straight portions, where a radius of curvature of at least one of the proximal apices may be greater than the radius of curvature of at least one of the distal apices. The distal component may comprise a proximal z-stent coupled to the graft, where the proximal end of the graft comprises at least scallop formed therein that generally follows the shape of the proximal z-stent. Further, the distal component may comprise at least one z-stent stent coupled to the distal end of the graft and extending distally therefrom that reduces proximal migration of the distal component.

The invention relates to a double stent comprising coaxially arranged stents, wherein a first membrane (4) being arranged between a first inner stent (2) and at least two outer stents (3), and a second membrane (5) being arranged on the outer stents (3), with the membrane ends of the first (4) and second membrane (5) being brought together at the ends of the stents (2, 3) and folded around to the inside of the first stent (2) and clamped securely under flexible tongues (6) of the first stent (2).

A tubular prosthesis having at least two helical loops or discrete loops, linked by a bridge, includes at least two regular struts connected by a regular inflection point forming a regular gap between the regular struts and at least two stagger struts connected by a stagger inflection point forming a stagger gap wherein the regular gap has a size different from the stagger gap.