Balloon modification for improved stent fixation and deployment
First Claim
1. An intravascular catheter system for implanting a radially expandable stent within a body vessel the system comprising:
- a catheter comprising;
a shaft defining an inflation lumen having a proximal end and a distal end;
an inflatable balloon having a proximal end and a distal end, the balloon proximal end being sealingly affixed to the distal end of the shaft, the balloon being in fluid communication with the inflation lumen, the balloon having an outer diameter, the balloon having a surface layer over an underlying layer, the surface layer having a lower melt temperature than the underlying layer such that heating the surface layer will not damage the underlying layer;
a stent mounted coaxially upon the balloon, the stent having a thickness, a portion of the stent thickness being recessed into the balloon surface layer and forming a permanent first and second ridge deformation for receiving at least a portion of the stent so as to reduce stent slippage or snagging and cause the balloon to expand evenly and the stent to deploy uniformly, wherein the stent is formed of a helically wound wire having longitudinally movable elements, the wire wound into a zig-zag pattern and wherein the first and second ridge define a recess in the outer diameter of the balloon, the recess sized to receive the helically wound wire.
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Accused Products
Abstract
An intravascular catheter system and method of manufacture for implanting a radially expandable stent within a body vessel. The catheter system comprises a shaft defining an inflation lumen in fluid communication with a balloon on the distal end of the shaft. A stent is mounted coaxially upon a balloon. The balloon has ridges impressed in the outline of the stent for at least a portion of the stent. The ridges are sized to receive the stent so as to cause the balloon to expand evenly and the stent to deploy uniformly. In an alternative embodiment the balloon may additionally have a polymeric surface layer exhibiting a higher coefficient of friction than the underlying material against the stent material. The surface layer may be provided as a high friction polymeric coating on a formed balloon or as a coaxial extrusion of a high friction polymeric material over the underlying balloon tubing material. In a further embodiment the balloon may have the polymeric surface layer exhibiting a higher coefficient of friction than the underlying material against the stent material but without the ridges.
154 Citations
28 Claims
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1. An intravascular catheter system for implanting a radially expandable stent within a body vessel the system comprising:
a catheter comprising; a shaft defining an inflation lumen having a proximal end and a distal end; an inflatable balloon having a proximal end and a distal end, the balloon proximal end being sealingly affixed to the distal end of the shaft, the balloon being in fluid communication with the inflation lumen, the balloon having an outer diameter, the balloon having a surface layer over an underlying layer, the surface layer having a lower melt temperature than the underlying layer such that heating the surface layer will not damage the underlying layer; a stent mounted coaxially upon the balloon, the stent having a thickness, a portion of the stent thickness being recessed into the balloon surface layer and forming a permanent first and second ridge deformation for receiving at least a portion of the stent so as to reduce stent slippage or snagging and cause the balloon to expand evenly and the stent to deploy uniformly, wherein the stent is formed of a helically wound wire having longitudinally movable elements, the wire wound into a zig-zag pattern and wherein the first and second ridge define a recess in the outer diameter of the balloon, the recess sized to receive the helically wound wire. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. An intravascular catheter system for implanting a radially expandable stent within a body vessel the system comprising:
a catheter comprising; a shaft defining an inflation lumen having a proximal end and a distal end; an inflatable balloon having a proximal end and a distal end, the balloon proximal end being sealingly affixed to the distal end of the shaft, the balloon being in fluid communication with the inflation lumen; a stent mounted coaxially upon the balloon, the stent is formed of a helically wound wire having longitudinally movable elements, the balloon having a polymeric surface layer over an underlying layer, the polymeric surface layer having a lower melt temperature than the underlying layer such that heating the polymeric surface layer will not damage the underlying layer, the polymeric surface layer having a permanent first and second ridge defining a recess sized to receive the helically wound wire, the underlying layer having a first coefficient of friction, the polymeric surface layer having a second coefficient of friction, the second coefficient of friction being greater than the first coefficient of friction, the friction between the stent and the polymeric surface layer being sufficient to reduce stent slippage and to cause the balloon to expand evenly and the stent to deploy uniformly. - View Dependent Claims (18, 19, 20, 21, 22, 23, 24, 25, 26, 27)
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28. An intravascular catheter system for implanting a radially expandable stent within a body vessel the system comprising:
a catheter comprising; a shaft defining an inflation lumen having a proximal end and a distal end; an inflatable balloon having a proximal end and a distal end, the balloon proximal end being sealingly affixed to the distal end of the shaft, the balloon being in fluid communication with the inflation lumen, the balloon having an outer diameter the balloon having a surface layer over an underlying layer, the surface layer having a lower melt temperature than the underlying layer such that heating the surface layer will not damage the underlying layer; a stent mounted coaxially upon the balloon, the stent having a thickness, a portion of the stent thickness being recessed into the balloon outer diameter forming a permanent first and second ridge deformation defining a recess for receiving at least a portion of the stent so as to reduce stent slippage or snagging and cause the balloon to expand evenly and the stent to deploy uniformly, wherein the stent is formed of a wound wire having longitudinally movable elements, the wire wound into a zig-zag pattern and wherein the recess is sized to receive the longitudinally movable elements.
Specification