Patent ID: 8728110
Filing Date: 2014-05-20
Classification: A61M,B29C,B29K,B29L

Abstract:
1. A shaft for a balloon dilation catheter to be utilized with a balloon and a guidewire, the shaft comprising: a catheter shaft having a coaxial portion including an outer tubular member having a bore, a proximate end, a distal end and a transition neck formed at the distal end of the coaxial portion, the transition neck having a proximate end adjacent the distal end of the outer tubular member and a distal end adjacent a proximate end of the balloon; an access fitting adjacent the proximate end of the catheter shaft including an access port for directing a guidewire into the catheter shaft; an inflation port for directing an incompressible inflation medium into the catheter shaft; a guidewire tubular member having a bore defining a guidewire lumen, a proximate end and a distal end, the guidewire tubular member disposed coaxially in the outer tubular member between the access port of the catheter shaft and extending continuously through the outer tubular member to the distal end of the outer tubular member and through the transition neck, the outer tubular member and guidewire tubular member defining a first, annular inflation/deflation lumen therebetween in fluid communication with the inflation port, the first inflation/deflation lumen having a first cross section and terminating at the transition neck; and at least one second inflation/deflation lumen formed through the transition neck, the second inflation/deflation lumen separate from and non-coaxial with the guidewire tubular member and having a cross-sectional area less than the cross-sectional area of the first inflation/deflation lumen and opening at the proximate end thereof into the first inflation/deflation lumen and at the distal end of the transition neck whereby the second inflation/deflation lumen provides fluid communication from the first inflation/deflation lumen through the transition neck such that inflation fluid passing through the first inflation lumen may flow though the second inflation/deflation lumen and directly into a dilation balloon attached to the transition neck to inflate or deflate the dilation balloon; wherein the transition neck consists of a continuous mass formed by thermal compression molding of the outer tubular member and the guidewire tubular member, and wherein the transition neck defines the at least one second inflation/deflation lumen such that the at least one second inflation/deflation lumen begins at the proximate end of the transition neck and terminates at the distal end of the transition neck, said continuous mass integrally surrounding the guidewire tubular member with no space therebetween within the transition neck.