EMBOLIC PROTECTION DEVICE WITH OPEN CELL DESIGN
First Claim
1. An embolic filtering device, comprising:
- a filter cage assembly that is movable between an unexpanded position and an expanded position, wherein the filter cage includes an open cell central ring, a plurality of proximal struts connected to the central ring and a plurality of distal struts connected to the central ring; and
a sleeve assembly formed around the distal struts of the filter cage assembly.
1 Assignment
0 Petitions
Accused Products
Abstract
A cage and sleeve assembly for an embolic filtering device used to filter embolic particles from a body vessel has a strut assembly that is movable between an unexpanded position and an expanded position. The struts are configured to form a cage having an open cell design. The open cell design provides a filter cage with increased radial flexibility that also increases the contact with a vessel wall while reducing the landing zone length. Such an open cell design may have one or more rings that are not connected together at each vertex, and may be constructed from one ring. The sleeve assembly of the embolic filtering device may be joined to the filter cage at each vertex of the open cell or along the periphery of the open cell.
128 Citations
20 Claims
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1. An embolic filtering device, comprising:
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a filter cage assembly that is movable between an unexpanded position and an expanded position, wherein the filter cage includes an open cell central ring, a plurality of proximal struts connected to the central ring and a plurality of distal struts connected to the central ring; and a sleeve assembly formed around the distal struts of the filter cage assembly. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. An embolic filtering device, comprising:
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a filter cage assembly that is movable between an unexpanded position and an expanded position, wherein the filter cage includes an open cell central ring, a plurality of proximal struts each connected to a plurality of proximal vertexes formed in the central ring, and a plurality of distal struts connected to a plurality of distal vertexes formed in the central ring; and a sleeve assembly formed around the distal struts of the filter cage assembly and secured to the open cell ring. - View Dependent Claims (13, 14)
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15. A filtering system, comprising:
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a filter cage assembly that is movable between an unexpanded position and an expanded position, wherein the filter cage includes an open cell central ring, a plurality of proximal struts each having a proximal portion and a distal portion such that each distal portion is connected to one of a plurality of proximal vertexes formed in the central ring, and a plurality of distal struts each having a proximal portion and a distal portion such that each proximal portion is connected to one of a plurality of distal vertexes formed in the central ring; a sleeve assembly formed around the distal struts of the filter cage assembly and secured to the open cell ring; a guidewire having a distal portion disposed within the filter cage and the sleeve assembly; and a sheath configured to contain the filter cage and sleeve assembly when the filter cage is in the unexpanded position. - View Dependent Claims (16, 17, 18, 19)
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20. A method for positioning an embolic filter, comprising:
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providing a filter cage assembly that is movable between an unexpanded position and an expanded position, wherein the filter cage includes an open cell central ring, a plurality of proximal struts each having a proximal portion and a distal portion such that each distal portion is connected to one of a plurality of proximal vertexes formed in the central ring, and a plurality of distal struts each having a proximal portion and a distal portion such that each proximal portion is connected to one of a plurality of distal vertexes formed in the central ring; providing a sleeve assembly formed around the distal struts of the filter cage assembly and secured to the open cell ring; providing a guidewire having a proximal portion and a distal portion disposed within the filter cage and the sleeve assembly; providing a sheath configured to contain the filter cage and sleeve assembly when the filter cage is in the unexpanded position; inserting the guidewire into the vasculature of a patient; manipulating the proximal portion of the guidewire such that the distal portion of the guidewire is positioned at a desired location in the vasculature; inserting the sheath containing the distal portion of the filter cage and sleeve assembly over the guidewire so as to position the distal portion of the sheath at the desired location in the vasculature; and moving the sheath in a proximal direction so as to allow the filter cage to form in its expanded position.
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Specification