Rapid exchange catheters having a sealed guidewire lumen and methods of making the same

What is claimed is: 1. A method of fabricating a rapid exchange catheter having a proximal portion and a distal portion with a proximal guidewire port therebetween, the distal portion including a guidewire member defining a majority of a guidewire lumen having a proximal end at the proximal guidewire port and a distal end at a distal end of the catheter, the method comprising: providing a fluid flow stop for preventing fluid flow through the guidewire lumen, the fluid flow stop disposed between the proximal and distal ends of the guidewire lumen, wherein the step of providing the fluid flow stop includes forming a seal member within the guidewire lumen from a material that forms the guidewire lumen; wherein the step of forming the seal member includes creating a necked portion of the guidewire lumen by applying heat to the guidewire member; wherein the rapid exchange catheter includes an outer member and the guidewire member, the guidewire member extending distally from the proximal guidewire port inside the outer member, the rapid exchange catheter also including a balloon having a proximal waist secured to the outer member and a distal waist secured to the guidewire member, wherein the step of creating the necked portion of the guidewire lumen is performed as part of a process for securing the distal balloon waist to the guidewire member. 2. The method of claim 1 , wherein the guidewire member of the rapid exchange catheter includes a proximal tubular member and a bumper tip, and wherein the step of creating the necked portion comprises: placing an end of the bumper tip adjacent a distal end of the distal balloon waist over the proximal tubular member; placing a mandrel inside the proximal tubular member and/or bumper tip, the mandrel having a stepped portion having a lesser diameter than other portions of the mandrel, such that the stepped portion is adjacent a distal end of the proximal tubular member; and applying heat to secure the bumper tip, balloon, and proximal tubular member together; wherein the necked portion is formed at a location corresponding to the distal end of the proximal tubular member. 3. The method of claim 1 , wherein the guidewire member of the rapid exchange catheter includes a proximal tubular member and a bumper tip, and wherein the step of creating the necked portion comprises: placing a proximal end of the bumper tip adjacent a distal end of the proximal tubular member to form a butt-joint beneath the distal balloon waist; placing a mandrel inside the proximal tubular member and/or bumper tip, the mandrel having a stepped portion having a lesser diameter than other portions of the mandrel, such that the stepped portion is adjacent the butt-joint; and applying heat to secure the bumper tip, balloon, and proximal tubular member together; wherein the necked portion is formed at a location corresponding to the butt-joint. 4. The method of claim 1 , wherein the step of providing the fluid flow stop includes providing a mandrel having a first diameter at a first location and a second diameter at a second location, the second diameter being less than the first diameter, and the necked portion is formed by: inserting the mandrel into the guidewire lumen; and applying heat to the guidewire member at a location corresponding to the second location on the mandrel to reduce an inner diameter of the guidewire member. 5. The method of claim 1 , wherein the guidewire lumen extends distally from the proximal guidewire port, the proximal guidewire port being constructed in a molding step. 6. A method of fabricating a rapid exchange catheter having a proximal portion and a distal portion with a proximal guidewire port therebetween, the distal portion including a guidewire member defining a majority of a guidewire lumen having a proximal end at the proximal guidewire port and a distal end at a distal end of the catheter, the method comprising: forming a fluid flow stop from a material defining the guidewire lumen, the fluid flow stop preventing fluid flow through the guidewire lumen at a location spaced apart from the distal end of the guidewire lumen; wherein the step of forming the fluid flow stop includes creating a necked portion of the guidewire lumen by applying heat to the guidewire member; wherein the rapid exchange catheter includes an outer member and the guidewire member, the guidewire member extending distally from the proximal guidewire port inside the outer member, the rapid exchange catheter also including a balloon having a proximal waist secured to the outer member and a distal waist secured to the guidewire member, wherein the step of creating the necked portion of the guidewire lumen is performed as part of a process for securing the distal balloon waist to the guidewire member. 7. The method of claim 6 , wherein the fluid flow stop is formed in a proximal portion of the guidewire lumen. 8. The method of claim 6 , wherein the guidewire member of the rapid exchange catheter includes a proximal tubular member and a bumper tip, and wherein the step of creating the necked portion comprises: placing an end of the bumper tip adjacent a distal end of the distal balloon waist over the proximal tubular member; placing a mandrel inside the proximal tubular member and/or bumper tip, the mandrel having a stepped portion having a lesser diameter than other portions of the mandrel, such that the stepped portion is adjacent a distal end of the proximal tubular member; and applying heat to secure the bumper tip, balloon, and proximal tubular member together; wherein the necked portion is formed at a location corresponding to the distal end of the proximal tubular member. 9. The method of claim 6 , wherein the guidewire member of the rapid exchange catheter includes a proximal tubular member and a bumper tip, and wherein the step of creating the necked portion comprises: placing a proximal end of the bumper tip adjacent a distal end of the proximal tubular member to form a butt-joint beneath the distal balloon waist; placing a mandrel inside the proximal tubular member and/or bumper tip, the mandrel having a stepped portion having a lesser diameter than other portions of the mandrel, such that the stepped portion is adjacent the butt-joint; and applying heat to secure the bumper tip, balloon, and proximal tubular member together; wherein the necked portion is formed at a location corresponding to the butt-joint. 10. The method of claim 6 , wherein the step of providing the fluid flow stop includes providing a mandrel having a first diameter at a first location and a second diameter at a second location, the second diameter being less than the first diameter, and the necked portion is formed by: inserting the mandrel into the guidewire lumen; and applying heat to the guidewire member at a location corresponding to the second location on the mandrel to reduce an inner diameter of the guidewire member. 11. The method of claim 6 , wherein the guidewire lumen extends distally from the proximal guidewire port, the proximal guidewire port being constructed in a molding step. 12. A method of fabricating a rapid exchange catheter having a proximal portion and a distal portion with a proximal guidewire port therebetween, the rapid exchange catheter including an outer member and a guidewire member, the guidewire member defining a majority of a guidewire lumen having a proximal end at the proximal guidewire port and a distal end at a distal end of the catheter, the catheter also including a balloon having a proximal waist secured to the outer member and a distal waist secured to the guidewire member, the method comprising forming a fluid flow stop p