Method of manufacturing a catheter sheath
First Claim
1. A method of manufacturing a catheter sheath, comprising:
- providing a tubular member of non-conductive material having a proximal end and a distal end;
forming at least one opening in an outer wall of the tubular member;
attaching at least one conductive element on the outer wall of the tubular member;
placing a mold about the at least one conductive element and longitudinally adjacent the outer wall of the tubular member;
heating by induction the at least one conductive element in which the induction heat is directly conducted by only the at least one conductive element, such that indirect heat from the induction heated at least one conductive element causes local melting of the tubular member; and
constraining the local melting of the tubular member to fill a transition zone adjacent the at least one conductive element with the mold.
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Accused Products
Abstract
A catheter sheath comprises a tubular member connected to a catheter handle, the tubular sheath including one or more electrical conductors and one or more electrode rings attached to the tip of the tubular member. The tubular member further includes at least one opening that allows the one or more electrical conductor to be electrically connected to the one or more electrode rings. The electrode ring is slid over the tubular member so as to cover the opening. The tubular member and the electrode ring are subjected to heat treatment by induction heating so that the material of the tubular member melts locally around the electrode ring to form a seal between the tubular member and the electrode ring.
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Citations
13 Claims
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1. A method of manufacturing a catheter sheath, comprising:
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providing a tubular member of non-conductive material having a proximal end and a distal end; forming at least one opening in an outer wall of the tubular member; attaching at least one conductive element on the outer wall of the tubular member; placing a mold about the at least one conductive element and longitudinally adjacent the outer wall of the tubular member; heating by induction the at least one conductive element in which the induction heat is directly conducted by only the at least one conductive element, such that indirect heat from the induction heated at least one conductive element causes local melting of the tubular member; and constraining the local melting of the tubular member to fill a transition zone adjacent the at least one conductive element with the mold. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method of manufacturing a catheter sheath, comprising:
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providing a tubular member of non-conductive material having a proximal end and a distal end; forming at least one opening in an outer wall of the tubular member; attaching at least one conductive element comprising a conductive ring on the outer wall of the tubular member; reducing a diameter of the conductive ring after the attaching on the outer wall of the tubular member to be flush with a diameter of the tubular member; placing a sacrificial heat-shrink sleeve about the conductive ring and longitudinally adjacent outer wall of the tubular member; heating by induction the at least one conductive element in which the induction heat is directly conducted by only the at least one conductive element, such that indirect heat from the induction heated at least one conductive element causes local melting of the tubular member; and shrinking the heat-shrink sleeve responsive to the induction heating of the at least one conductive element and constraining the local melting of the tubular member to fill a transition zone adjacent the at least one conductive element.
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12. A catheter sheath, comprising:
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a tubular member of non-conductive material having a proximal end and a distal end; at least one electrical conductor extending from the proximal end to the distal end within the tubular member; at least one opening in an outer wall of the tubular member for accessing the at least one electrical conductor within the tubular member; at least one conductive element on the outer wall of the tubular member, the at least one conductive element being adjacent to and surrounding the at least one opening and arranged in conductive connection with the at least one electrical conductor; and a seal, formed by induction heating, in a transition zone along each edge of the at least one conductive element between the at least one conductive element and the tubular member, the seal comprising locally melted and re-solidified material of the tubular member, the inductively heated, locally melted material of the tubular member constrained to fill the transition zones and form the seal by a mold placed about the at least one conductive element prior to the induction heating, longitudinally adjacent the outer wall of the tubular member. - View Dependent Claims (13)
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Specification