Patent ID: 8545548

Claim:
A stent implantable within a body vessel, comprising: a plurality of interconnecting struts defining a plurality of deformable cells allowing the stent to move between a compressed condition and an expanded condition; at least one of said struts has a free end portion with a receiving surface that has a first projection and a second projection, the first projection and the second projection each having a height that extends outwardly and away from the receiving surface, the receiving surface having a given size and shape; a radiopaque marker positioned over and assembled onto the receiving surface of the strut free end portion and adjacent to and between said first and second projections and comprising an outer surface and an inner surface parallel to the outer surface and to the strut receiving surface while engaging the receiving surface, the inner surface of the radiopaque marker is parallel to the stent strut, and the marker has a wall having a thickness, the wall thickness extending between the inner surface and the outer surface of the marker, said marker having an area with a width, length and uninterrupted perimeter defined by said width and length; said radiopaque marker having been made by a process of filling at least one through-hole fully contained within said marker uninterrupted perimeter and that, prior to said filling, had been completely through the entire wall thickness of the marker between the outer surface and the inner surface of the marker directed toward the receiving surface of the strut in a direction perpendicular to the stent strut, said filling having been by welding that accesses, by way of the through-hole, the receiving surface of the strut underlying the radiopaque marker, thereby providing the stent with the marker permanently secured to the receiving surface of the strut free end portion; said inner surface of the radiopaque marker closely matches the given size and shape of the receiving surface of the strut so that the inner surface of the marker mates with the receiving surface of the stent strut free end portion; and said length of the radiopaque marker is substantially equal to a distance between the first and second projections, with the strut and the first and second projections cooperating to hold the marker against longitudinal movement along the stent strut free end portion.