Catheter shaft junction having a polymeric multilayered sleeve with a low processing temperature outer layer
First Claim
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1. A balloon catheter, comprising:
- a) an elongated shaft having a rapid exchange intermediate section between a proximal and a distal shaft section, an inflation lumen, and a guidewire lumen extending from a guidewire distal port at a distal end of the catheter to a guidewire proximal port in the rapid exchange intermediate section, the rapid-exchange intermediate section comprising;
i) a mid-shaft outer tubular member formed of a first polymeric material, with a proximal end secured to a proximal tubular member and with a distal end secured to a distal outer tubular member;
ii) an inner tubular member within the mid-shaft outer tubular member, having the guidewire lumen and a proximal end at the guidewire proximal port in communication with the guidewire distal port, and having a proximal end portion extending through a sidewall of the mid-shaft outer tubular member so that the proximal end portion has an outer surface extending along an outer surface of a portion of the mid-shaft outer tubular member; and
iii) a multilayered sleeve within the mid-shaft outer tubular member, in a side-by-side relation to the proximal end portion of the inner tubular member, having an outer layer formed of a second polymeric material and an inner layer formed of a third polymeric material, the second polymeric material being different than and having a melting temperature or a glass transition temperature significantly lower than a melting temperature or glass transition temperature of the first and third polymeric materials such that the inner tubular member and the mid-shaft outer tubular member are melt bondable to one another at a relatively low temperature while the multilayered sleeve inner layer retains a wall integrity around the inflation lumen as the multilayered sleeve outer layer flows to form a filler around the inflation lumen at the guidewire proximal port; and
b) an inflatable balloon on the distal shaft section, having an interior in fluid communication with the inflation lumen.
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Abstract
One aspect of the invention is directed to a balloon catheter with a multilayered polymeric sleeve at the rapid exchange intermediate section, having an outer layer formed of a polymer with a relatively low processing temperature (i.e., melting temperature for semi-crystalline polymers or glass transition temperature for amorphous polymers), and having an inner layer.
32 Citations
15 Claims
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1. A balloon catheter, comprising:
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a) an elongated shaft having a rapid exchange intermediate section between a proximal and a distal shaft section, an inflation lumen, and a guidewire lumen extending from a guidewire distal port at a distal end of the catheter to a guidewire proximal port in the rapid exchange intermediate section, the rapid-exchange intermediate section comprising; i) a mid-shaft outer tubular member formed of a first polymeric material, with a proximal end secured to a proximal tubular member and with a distal end secured to a distal outer tubular member; ii) an inner tubular member within the mid-shaft outer tubular member, having the guidewire lumen and a proximal end at the guidewire proximal port in communication with the guidewire distal port, and having a proximal end portion extending through a sidewall of the mid-shaft outer tubular member so that the proximal end portion has an outer surface extending along an outer surface of a portion of the mid-shaft outer tubular member; and iii) a multilayered sleeve within the mid-shaft outer tubular member, in a side-by-side relation to the proximal end portion of the inner tubular member, having an outer layer formed of a second polymeric material and an inner layer formed of a third polymeric material, the second polymeric material being different than and having a melting temperature or a glass transition temperature significantly lower than a melting temperature or glass transition temperature of the first and third polymeric materials such that the inner tubular member and the mid-shaft outer tubular member are melt bondable to one another at a relatively low temperature while the multilayered sleeve inner layer retains a wall integrity around the inflation lumen as the multilayered sleeve outer layer flows to form a filler around the inflation lumen at the guidewire proximal port; and b) an inflatable balloon on the distal shaft section, having an interior in fluid communication with the inflation lumen. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A balloon catheter, comprising:
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a) an elongated shaft having a proximal shaft section, a distal shaft section, and a rapid exchange intermediate section therebetween, an inflation lumen, and a guidewire lumen extending from a guidewire distal port at a distal end of the catheter to a guidewire proximal port in the rapid exchange intermediate section, the rapid-exchange intermediate section comprising i) an outer tubular member formed of a first polymeric material having the inflation lumen therein; ii) an inner tubular member within the outer tubular member, having the guidewire lumen and a proximal end at the guidewire proximal port in communication with the guidewire distal port, and a proximal end portion extending out from the intermediate shaft section outer tubular member so that the proximal end portion has an outer surface extending along an outer surface of a portion of the intermediate shaft section outer tubular member; iii) a multilayered sleeve within the intermediate shaft section outer tubular member, extending distally from the distal end of the proximal shaft section in a side-by-side relation to the proximal end portion of the inner tubular member so that the outer tubular member separates the inflation lumen from the guidewire lumen along a section of the multilayered sleeve, and having coextensive outer and inner layers, the outer layer being secured to an inner surface of the outer tubular member and formed of a second polymeric material different than the first polymeric material, and the inner layer being secured to an inner surface of the sleeve outer layer and formed of a third polymeric material different than the second polymeric material, the second polymeric material having a melting temperature or glass transition temperature significantly lower than a melting temperature or glass transition temperature of the first and third polymeric materials such that the inner tubular member and the outer tubular member are melt bondable to one another at a relatively low temperature while the multilayered sleeve inner layer retains a wall integrity around the inflation lumen as the multilayered sleeve outer layer forms a filler around the inflation lumen at the guidewire port; and b) an inflatable balloon on the distal shaft section, having an interior in fluid communication with the inflation lumen. - View Dependent Claims (15)
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Specification