Vascular and bodily duct treatment devices and methods
First Claim
1. A clot retrieval device comprising:
- an elongate self-expandable member having a length and expandable from a first delivery position to a second position, in the first delivery position the self-expandable member being in an unexpanded position and having a first nominal diameter and in the second position the self-expandable member being in a radially expanded position and having a second nominal diameter greater than the first nominal diameter, the self-expandable member adapted for deployment within a clot located in a vessel or duct of a patient as the self-expandable member transitions between the first delivery position to the second position, the self-expandable member comprising a first plurality of closed cell structures and a second plurality of closed cell structures, the self-expandable member having a proximal end portion with a proximal end and an elongate cylindrical main body portion, the proximal end portion being formed by the first plurality of closed cell structures and the elongate cylindrical main body portion being formed by the second plurality of closed cell structures, the second plurality of closed cell structures in the elongate cylindrical main body portion extending circumferentially around a longitudinal axis of the self-expandable member, the first plurality of closed cell structures in the proximal end portion extending less than circumferentially around the longitudinal axis of the self-expandable member, the first and second plurality of closed cell structures having dimensional and material characteristics that result in an overall radial force exerted along the length of the self-expandable member of between 1.70N and 2.50N when the self-expandable member has a nominal diameter of one millimeter and that further results in a −
1.0N to a −
1.7N overall reduction in radial force along the length of the self-expandable member per millimeter of expansion during an initial 0.50 mm diametric range of expansion from the first nominal diameter and that results in a −
0.10N to a −
0.35N overall reduction in radial force along the length of the expandable member per millimeter of expansion during subsequent diametric ranges of expansion.
2 Assignments
0 Petitions
Accused Products
Abstract
A clot retrieval device including a self-expandable member having a proximal end portion and a main body portion. The self-expandable member is expandable from a first delivery position to a second placement position. In the first delivery position the expandable member has a first overall diameter In one implementation the cell structures that form the self-expandable member have dimensional and material characteristics that result in about a −1.0N to about a −1.7N overall reduction in radial force along the length of the expandable member per millimeter of expansion during about an initial 0.50 mm diametric range of expansion from the first overall diameter and that results in about a −0.10N to about a −0.35N overall reduction in radial force along the length of the expandable member per millimeter of expansion during subsequent diametric ranges of expansion.
232 Citations
11 Claims
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1. A clot retrieval device comprising:
an elongate self-expandable member having a length and expandable from a first delivery position to a second position, in the first delivery position the self-expandable member being in an unexpanded position and having a first nominal diameter and in the second position the self-expandable member being in a radially expanded position and having a second nominal diameter greater than the first nominal diameter, the self-expandable member adapted for deployment within a clot located in a vessel or duct of a patient as the self-expandable member transitions between the first delivery position to the second position, the self-expandable member comprising a first plurality of closed cell structures and a second plurality of closed cell structures, the self-expandable member having a proximal end portion with a proximal end and an elongate cylindrical main body portion, the proximal end portion being formed by the first plurality of closed cell structures and the elongate cylindrical main body portion being formed by the second plurality of closed cell structures, the second plurality of closed cell structures in the elongate cylindrical main body portion extending circumferentially around a longitudinal axis of the self-expandable member, the first plurality of closed cell structures in the proximal end portion extending less than circumferentially around the longitudinal axis of the self-expandable member, the first and second plurality of closed cell structures having dimensional and material characteristics that result in an overall radial force exerted along the length of the self-expandable member of between 1.70N and 2.50N when the self-expandable member has a nominal diameter of one millimeter and that further results in a −
1.0N to a −
1.7N overall reduction in radial force along the length of the self-expandable member per millimeter of expansion during an initial 0.50 mm diametric range of expansion from the first nominal diameter and that results in a −
0.10N to a −
0.35N overall reduction in radial force along the length of the expandable member per millimeter of expansion during subsequent diametric ranges of expansion.- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A clot retrieval device comprising:
an elongate self-expandable member having a length and expandable from a first delivery position to a second placement position, in the first delivery position the self-expandable member being in an unexpanded position and having a first nominal diameter and in the second position the self-expandable member being in a radially expanded position and having a second nominal diameter greater than the first nominal diameter for deployment within a clot within a vessel or duct of a patient, the self-expandable member comprising a plurality of generally longitudinal undulating elements with adjacent undulating elements being interconnected in a manner to form a first plurality of diagonally disposed closed cell structures, a second plurality of diagonally disposed closed cell structures and a third plurality of diagonally disposed closed cell structures, the self-expandable member having a proximal end portion formed by the first plurality of diagonally disposed closed cell structures, an elongate cylindrical main body portion formed by the second plurality of diagonally disposed closed cell structures and a distal end portion formed by the third plurality of diagonally disposed closed cell structures, the second plurality of diagonally disposed closed cell structures extending circumferentially around a longitudinal axis of the self-expandable member, each of the first and third plurality of diagonally disposed cell structures extending less than circumferentially around the longitudinal axis of the self-expandable member, the first, second and third plurality of diagonally disposed closed cell structures having dimensional and material characteristics that result in an overall radial force exerted along the length of the self-expandable member of between 1.70N and 2.50N when the self-expandable member has a nominal diameter of one millimeter and that further results in a −
1.0N to a −
1.7N overall reduction in radial force along the length of the expandable member per millimeter of expansion during an initial 0.50 mm diametric range of expansion from the first nominal diameter and that results in a −
0.10N to a −
0.35N overall reduction in radial force along the length of the self-expandable member per millimeter of expansion during subsequent diametric ranges of expansion.- View Dependent Claims (10, 11)
Specification