Multi wire sheath
First Claim
1. A sheath for insertion into a vessel, said sheath comprising:
- a lumen with a proximal end configured for insertion into said vessel and a distal end;
a plurality of guidewires for simultaneous insertion within said lumen;
an engagement system with a series of wire-lock engagement points affixed to said distal end for individually engaging each of said plurality of guidewires;
a rotatable hub at the distal end of said sheath configured with a hemostatic valve and a slit extending from said hemostatic valve to an outer edge of said hub; and
wherein a guidewire of said plurality of guidewires is individually adjustable when said slit is aligned with an engagement point corresponding to said guidewire, and the engagement point is unlocked to provide movement of said guidewire to said hemostatic valve via said slit.
1 Assignment
0 Petitions
Accused Products
Abstract
A multi-guidewire sheath (MGS) is provided for cases where simultaneous guidewire access to multiple target arteries is required. Embodiments of the MGS have multiple guidewires in a single sheath configured with a single lumen. The MGS incorporates an engagement system to independently secure the one or more guidewires within the sheath to maintain the separate positions of the guidewires. Embodiments of the MGS are configured with a taper from the desired intra-arterial portion (e.g., conventional French sizes) to a larger diameter for the portion of the sheath outside (distal) the vessel. The distal segment of the MGS has a larger diameter to accommodate the engagement system to secure the independent positions of multiple guidewires, and a hemostatic valve seal and slit mounted in a rotating hub. The engagement system has a series of wire-lock engagement points positioned along the circumference of the MGS.
70 Citations
13 Claims
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1. A sheath for insertion into a vessel, said sheath comprising:
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a lumen with a proximal end configured for insertion into said vessel and a distal end; a plurality of guidewires for simultaneous insertion within said lumen; an engagement system with a series of wire-lock engagement points affixed to said distal end for individually engaging each of said plurality of guidewires; a rotatable hub at the distal end of said sheath configured with a hemostatic valve and a slit extending from said hemostatic valve to an outer edge of said hub; and wherein a guidewire of said plurality of guidewires is individually adjustable when said slit is aligned with an engagement point corresponding to said guidewire, and the engagement point is unlocked to provide movement of said guidewire to said hemostatic valve via said slit. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method of using a sheath in a subject, the method comprising:
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inserting a sheath into a subject vessel, said sheath comprising a lumen with a proximal end configured for insertion into said vessel and a distal end;
a plurality of guidewires for simultaneous insertion within said lumen;
an engagement system with a series of wire-lock engagement points affixed to said distal end for individually engaging each of said plurality of guidewires; and
a rotatable hub at the distal end of said sheath configured with a hemostatic valve and a slit extending from said hemostatic valve to an outer edge of said hub in a patient vessel;selecting a first guidewire from said plurality of guidewires by rotating said hub to align said slit with one of said series of wire-lock engagement points; disengaging said first guidewire from the one of said series of wire-lock engagement points; moving said first guidewire along said slit until reaching said hemostatic valve; and using said selected guidewire by at least one of;
moving back and forth, or twisting. - View Dependent Claims (12)
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13. A sheath for insertion into a vessel, said sheath comprising:
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a lumen with a proximal end configured for insertion into said vessel and a distal end; a plurality of guidewires for simultaneous insertion within said lumen; an engagement system with a series of wire-lock engagement points affixed to said distal end for individually engaging each of said plurality of guidewires; a rotatable hub at the distal end of said sheath configured with a hemostatic valve and a slit extending from said hemostatic valve to an outer edge of said hub; wherein a guidewire of said plurality of guidewires is individually adjustable when said slit is aligned with an engagement point corresponding to said guidewire, and the engagement point is unlocked to provide movement of said guidewire to said hemostatic valve via said slit, wherein in the event said guidewire is positioned in said hemostatic valve, said guidewire is free to move back and forth, or be twisted, along a longitudinal axis of said sheath.
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Specification