Device for selectively forming a temporary blood filter
First Claim
1. A blood filter device adapted to be implanted inside a blood vessel, comprising:
- a strand formed in a zigzag configuration including an endless series of elongated sections being joined by bends at opposite ends of said filter device to form, upon uniform full expansion, an essentially cylindrical open wall;
tie means linked to fewer than all said bends, at one of the opposite ends of said filter device, for variably constricting those strand sections to which the tie means are linked, thus forming an essentially frusto-conical/conical open wall for engaging said blood vessel, the constricted strand sections axially converging for controllably filtering encountered blood clots flowing through the filter device.
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Accused Products
Abstract
The invention relates to a device which can be implanted inside a vessel to form a blood filter there. The device comprises a structure (7) disposed along the axis (3) of a surface of revolution, radially to which axis the structure can be expanded or compressed such that, in its expanded position, it can contact the interior of the vessel. Means (15, 17) for stressing at least a portion of this structure "in situ" are further provided either to move it closer to the axis of the surface of revolution, forming a constriction area for filtering the blood, or to move it away therefrom, thus varying this filtering capacity. Application to temporary filters which can be implanted "for life".
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Citations
10 Claims
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1. A blood filter device adapted to be implanted inside a blood vessel, comprising:
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a strand formed in a zigzag configuration including an endless series of elongated sections being joined by bends at opposite ends of said filter device to form, upon uniform full expansion, an essentially cylindrical open wall; tie means linked to fewer than all said bends, at one of the opposite ends of said filter device, for variably constricting those strand sections to which the tie means are linked, thus forming an essentially frusto-conical/conical open wall for engaging said blood vessel, the constricted strand sections axially converging for controllably filtering encountered blood clots flowing through the filter device. - View Dependent Claims (2, 3)
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4. A blood filter device adapted to be implanted inside a blood vessel, comprising:
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a strand formed in a zigzag configuration including an endless series of elongated sections being joined by bends at opposite ends of said filter device to form, upon uniform full expansion, an essentially cylindrical open wall; an elongated tie passing through loops present at fewer than all said bends at one of the opposite ends of said filter device; said tie passing through opened operating means, located adjacent the loops for permitting the tie to be pulled with alterable tightness, resulting in corresponding changeable constriction of said one end of the filter device, thus forming an essentially frusto-conical/conical open wall for engaging the blood vessel, the constricted strand sections axially converging for variably filtering encountered blood clots flowing through the filter device. - View Dependent Claims (5)
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6. A blood filter device adapted to be implanted inside a blood vessel, comprising:
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a strand formed in a zigzag configuration including an endless series of elongated sections being joined by bends at opposite ends of said filter device to form, upon uniform full expansion, an essentially cylindrical open wall; preselected pairs of connected elongated sections being made of memory alloy to allow differential thermally induced expansion of the preselected pairs as compared with the remaining strand sections between a first position in which said preselected pairs are constricted at one of said opposite ends, thus forming an essentially frusto-conical/conical open wall for engaging said blood vessel, the constricted strand sections axially converging for filtering encountered blood clots therein, and a second position in which said preselected pairs are expanded at said one end of the filter device, thereby forming a generally essentially cylindrical wall allowing unrestricted blood flow therethrough. - View Dependent Claims (7)
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8. A method for implanting a variable blood filter device into a blood vessel, comprising the steps:
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shaping a strand into a zigzag configuration including an endless series of elongated sections being joined by bends at opposite ends; linking tie means with fewer than all said bends, at one of the opposite ends of said filter device; variably constricting those strand sections to which the tie means are linked, to form an essentially frusto-conical/conical open wall for engaging said blood vessel, the constricted strand sections axially converging for controllably filtering encountered blood clots flowing through the filter device; and selectively displacing the constricted strand sections, in situ, to form a generally essentially cylindrical wall allowing unrestricted blood flow therethrough. - View Dependent Claims (9)
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10. A method for implanting a variable blood filter device into a blood vessel, comprising the steps:
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shaping a strand into a zigzag configuration including an endless series of elongated sections being joined by bends at opposite ends of said filter device, preselected pairs of connected elongated sections of said strand being made of memory alloy to allow differential thermal induced expansion of the preselected pairs as compared with the remaining elongated sections; implanting said strand into said blood vessel; introducing a fluid of preselected temperature into the blood vessel, in the vicinity of the filter device, thus causing said differential thermally expansion of the preselected pairs, between a first position in which said preselected pairs are constricted at one of said opposite ends, thus forming an essentially frusto-conical/conical open wall for engaging said blood vessel, the constricted strand sections axially converging for controllably filtering encountered blood clots flowing through the filter device, and a second position in which said preselected pairs are expanded at said one end of the filter device, thereby forming a generally essentially cylindrical wall allowing unrestricted blood flow therethrough.
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Specification