Drive shaft for acoustic imaging catheters and flexible catheters
First Claim
1. A method of forming a superelastic drive shaft comprising the steps of providing coils made of nickel-titanium alloy superelastic material,reducing the diameter of a first coil of superelastic material from its original diameter to a reduced diameterinserting the first coil while in a reduced diameter state into an inner lumen of a second coil of superelastic material, the second coil being wound in a direction opposite to the direction of winding of the first coil, and having an inner luminal diameter that is larger than an outside diameter of the first coil while in a reduced diameter state, andreleasing the first coil from a reduced diameter state allowing it to spring toward its original diameter and interferingly engage the second coil.
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Abstract
A shaft is shown having inner and outer members in interfering contact along their length, at least one of which comprises a wire, at least a portion of which is superelastic, to achieve substantial mechanical fidelity and resistance to damage. An ultrasound imaging catheter has a hollow catheter shaft, an ultrasound transducer in the shaft, and a drive shaft that rotates the transducer. The shaft comprises at least one metal coil having characteristic elastic deformation under stress in the range of about 3% to 9%, while a restraint means prevents torsional deflection of the coil. A drive shaft having a coil surrounded by a tube, a coil bonded to an inner coaxial cable, and an inner and outer coil that interfere with one another are shown. A superelastic coil is formed by continuously winding a wire about a mandrel, heating a region of the wire to render it superelastic, and after cooling, removing it from the mandrel.
196 Citations
14 Claims
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1. A method of forming a superelastic drive shaft comprising the steps of providing coils made of nickel-titanium alloy superelastic material,
reducing the diameter of a first coil of superelastic material from its original diameter to a reduced diameter inserting the first coil while in a reduced diameter state into an inner lumen of a second coil of superelastic material, the second coil being wound in a direction opposite to the direction of winding of the first coil, and having an inner luminal diameter that is larger than an outside diameter of the first coil while in a reduced diameter state, and releasing the first coil from a reduced diameter state allowing it to spring toward its original diameter and interferingly engage the second coil.
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5. A method of forming a coil of superelastic material for a catheter drive shaft comprising the steps of
a) providing a first length of wire of latent superelastic properties from a wire supply of a nickel-titanium alloy, b) winding said first length of wire about a mandrel to form a coil, c) subjecting said first length of wire to heating conditions sufficient to stress relieve the first length of wire and convert it to having superelastic properties, and d) removing said first length of wire having superelastic properties from the mandrel, e) forming a first coil of superelastic material according to steps a through d wound in a first direction, f) separating said first coil from the wire supply, g) forming a second coil of superelastic material according to steps a through d wound in a second direction opposite said first direction, h) separating said second coil from the wire supply, and i) inserting said second coil within an inner lumen of said first coil.
Specification
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Current AssigneeBoston Scientific Corporation
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Original AssigneeBoston Scientific Corporation
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InventorsKoger, James D., Kapravv, Andrew, Crowley, Robert J., Heath, Kevin R.
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Primary Examiner(s)Ip, Sikyin
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Application NumberUS08/781,503Time in Patent Office937 DaysField of Search148/563, 148/576, 148/402, 148/902, 148/908, 604/96, 604/282, 29/450, 29/451, 128/662.06, 128/772US Class Current148/563CPC Class CodesA61B 2017/00526 Methods of manufacturingA61B 2017/22078 for rotating the instrument...A61B 8/12 in body cavities or body tr...A61B 8/4461 Features of the scanning me...A61M 25/0045 multi-layered, e.g. coated ...G10K 11/004 Mounting transducers, e.g. ...G10K 11/355 Arcuate movementY10T 29/4987 Elastic joining of partsY10T 29/49872 Confining elastic part in s...
