Devices configured from strain hardened Ni Ti tubing
First Claim
1. A medical device for use in a body lumen, comprising:
- a tubular body formed from small diameter tubing;
a plurality of struts formed from a large diameter tubing and disposed on the tubular body such that the struts project radially outward in an unconstrained state;
wherein the large diameter tubing includes a cold formed nickel-titanium alloy, and the nickel-titanium alloy is in a martensitic phase only regardless of stress applied to the alloy; and
a sheath at least partially enveloping the body and restraining the struts in a compressed state for delivery and retrieval of the device to and from the body lumen.
1 Assignment
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Accused Products
Abstract
Cold worked nickel-titanium alloys that have linear pseudoelastic behavior without a phase transformation or onset of stress-induced martensite as applied to a medical device having a strut formed body deployed from a sheath is disclosed. In one application, an embolic protection device that employs a linear pseudoelastic nitinol self-expanding strut assembly with a small profile delivery system for use with interventional procedures is disclosed. Linear pseudoelastic nitinol is used in the medical device as distinct from non-linear pseudoelastic (i.e., superelastic) nitinol. The expandable strut assembly is made from a small diameter tubing of cold worked nickel-titanium alloys. The self-expanding struts that deploy the filter element is laser cut from a large diameter cold worked nickel-titanium alloy, then joined to the small diameter tubing.
137 Citations
23 Claims
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1. A medical device for use in a body lumen, comprising:
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a tubular body formed from small diameter tubing;
a plurality of struts formed from a large diameter tubing and disposed on the tubular body such that the struts project radially outward in an unconstrained state;
wherein the large diameter tubing includes a cold formed nickel-titanium alloy, and the nickel-titanium alloy is in a martensitic phase only regardless of stress applied to the alloy; and
a sheath at least partially enveloping the body and restraining the struts in a compressed state for delivery and retrieval of the device to and from the body lumen. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A medical device for delivery to, deployment within, and removal from a lumen of a mammalian body, comprising:
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a tubular body derived from small diameter tubing having a plurality of apertures formed therein;
a plurality of struts derived from a large diameter tubing;
wherein the apertures receive the struts therein and in an unstressed state bend away from the tubular body;
wherein the small and large diameter tubing include a cold formed nickel-titanium alloy, and the nickel-titanium alloy is in a martensitic phase only regardless of stress applied to the alloy; and
a sheath at least partially enveloping the body and restraining the struts in a compressed state for delivery and retrieval of the device to and from the lumen. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18)
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19. A method for providing a medical device for use in a body lumen, comprising:
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providing a small diameter tubing;
forming the small diameter tubing into a tubular body;
providing a large diameter tubing wherein the large diameter tubing includes a cold formed nickel-titanium alloy wherein the nickel-titanium alloy is in a martensitic phase only regardless of stress applied to the alloy;
fashioning a plurality of struts from the large diameter tubing;
disposing the struts on the tubular body such that the struts project radially outward in an unconstrained state; and
providing a sheath that at least partially envelopes the body and restrains the struts in a compressed state for delivery and retrieval of the device to and from the body lumen. - View Dependent Claims (20, 21, 22)
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23. A medical device for use in a body lumen, comprising:
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a tubular body formed from small diameter tubing;
a plurality of struts formed from a large diameter tubing and disposed on the tubular body such that the struts project radially outward in an unconstrained state;
wherein the large diameter tubing includes a cold formed nickel-titanium alloy that includes heat treating, and the nickel-titanium alloy is in a martensitic phase only regardless of stress applied to the alloy; and
a sheath at least partially enveloping the body and restraining the struts in a compressed state for delivery and retrieval of the device to and from the body lumen.
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Specification