Orthopedic implant with adjustable angle between tissue contact surfaces
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61F-002/44
A61F-002/46
A61F-002/30
출원번호
US-0165614
(2014-01-28)
등록번호
US-10149770
(2018-12-11)
발명자
/ 주소
Loebl, Oded
Toubia, Didier
Yustein, Haim
출원인 / 주소
SEASPINE, INC.
대리인 / 주소
Middleton Reutlinger
인용정보
피인용 횟수 :
0인용 특허 :
82
초록▼
An implant having a base with a first contact surface and a hinged element, hingedly interconnected with a first portion of the base, providing a second contact surface. The first portion of the base is displaceable relative to a second portion so that the base can be shortened from an initial lengt
An implant having a base with a first contact surface and a hinged element, hingedly interconnected with a first portion of the base, providing a second contact surface. The first portion of the base is displaceable relative to a second portion so that the base can be shortened from an initial length towards a second length. A linking segment is hingedly connected to both the second portion of the base and to the hinged element so that shortening of the base causes the linking segment to push a region of the hinged element away from the base, thereby changing an angle of the second contact surface relative to the first contact surface.
대표청구항▼
1. A system comprising an implant for insertion between two adjacent vertebral bodies, the implant comprising: (a) a base having a first contact surface for contacting a first of the adjacent vertebral bodies, said base comprising a first portion displaceable relative to a second portion, said base
1. A system comprising an implant for insertion between two adjacent vertebral bodies, the implant comprising: (a) a base having a first contact surface for contacting a first of the adjacent vertebral bodies, said base comprising a first portion displaceable relative to a second portion, said base having an initial length and being shortened towards a second length through relative displacement of said first portion and said second portion;(b) a hinged element having a second contact surface for contacting a second of the adjacent vertebral bodies, said hinged element being interconnected with said first portion of said base at a hinge; and(c) a linking segment hingedly connected to said second portion of said base so as to be pivotable about a first axis and further hingedly connected to said hinged element so as to be pivotable about a second axis,wherein said base, said hinged element and said linking segment rigidly interconnect said hinged connections of said first axis, said second axis and said hinge in a rigid triangular geometry for any given length of said base such that shortening of said base from said initial length towards said second length causes said linking segment to push a region of said hinged element away from said base, thereby changing an angle of said second contact surface relative to said first contact surface,wherein each of said first and second contact surfaces spans a dimension of the implant parallel to said first axis and is provided with a plurality of projecting features configured for gripping respective endplates of the two adjacent vertebral bodies such that, when the implant is deployed between the first and second vertebral bodies and said base is shortened, said changing of said angle of said second contact surface relative to said first contact surface adjusts an extent of correction of a relative angle between the first and second vertebral bodies,wherein said second contact surface has a largest dimension referred to as a contact surface length, and wherein said linking segment has a dimension between said first axis and said second axis referred to as a linking segment length, said contact surface length being at least 40% longer than said linking segment length, and wherein said contact surface length is a majority of a total length of said implant when said base has said initial length. 2. The system of claim 1, wherein said hinged element has an end corresponding to a point on said hinged element furthest from said hinge, and wherein a location of hinged connection between said linking segment and said hinged element is distanced from said end by at least 10% of said contact surface length. 3. The system of claim 1, further comprising a deployment rod inserted via an opening in a proximal end of the implant and engaging a distal one of said first and second portions of said base such that a force applied to said proximal end of the implant in a distal direction can be opposed by a counterforce applied to said deployment rod, thereby causing shortening of said base. 4. The system of claim 1, wherein said first portion and said second portion are formed with complementary features defining a ratchet configuration comprising a series of ratchet teeth and a resiliently biased detent, said ratchet configuration being deployed to allow shortening of said base from said initial length through a range of lengths, and to oppose lengthening of said base. 5. The system of claim 4, further comprising a ratchet release element insertable via an opening in the implant and deployable to release engagement of said detent with said ratchet teeth to allow lengthening of said base. 6. The system of claim 4, further comprising a deployment rod inserted via an opening in a proximal end of the implant and engaging a distal one of said first and second portions of said base such that a force applied to said proximal end of the implant in a distal direction can be opposed by tension applied to said deployment rod, thereby causing shortening of said base. 7. The system of claim 6, wherein an engagement of said deployment rod with said distal portion is configured to allow a first motion of said deployment rod while maintaining engagement with said distal portion, and wherein said deployment rod has at least one feature deployed such that said first motion is effective to bring said at least one feature to bear on a part of said ratchet configuration so as to release engagement of said detent with said ratchet teeth to allow lengthening of said base. 8. The system of claim 7, wherein said engagement of said deployment rod with said distal portion is a threaded engagement, and wherein said first motion is a rotation effective to advance said deployment rod in relation to said threaded engagement. 9. The system of claim 1, wherein said first contact surface and said second contact surface are each partial surfaces having one or more openings totaling at least a quarter of a total area of a contact surface footprint. 10. The system of claim 1, wherein said first contact surface defines a first contact plane and said second contact surface defines a second contact plane, and wherein shortening of said base from said initial length towards said second length displaces said second contact plane through an angular range of at least 10° relative to said first contact plane. 11. A method comprising the steps of: (a) introducing the implant of claim 1 between two vertebral bodies such that said first contact surface contacts an endplate of a first of said vertebral bodies and said second contact surface contacts an endplate of a second of said vertebral bodies; and(b) causing relative motion of said first and second portions of said base so as to change an angle between said first and second contact surfaces, thereby changing an angle between said endplates. 12. The method of claim 11, wherein said introducing and said causing relative motion are performed so as to correct a scoliosis misalignment between adjacent vertebral bodies. 13. The method of claim 11, wherein said introducing and said causing relative motion are performed so as to restore or increase an angle of lordosis between adjacent vertebral bodies. 14. A method comprising the steps of: (a) introducing two implants, each according to claim 1, between two vertebral bodies such that said first contact surface of each of said implants contacts an endplate of a first of said vertebral bodies and said second contact surface of each of said implants contacts an endplate of a second of said vertebral bodies; and(b) for each of said implants, causing relative motion of said first and second portions of said base so as to change an angle between said first and second contact surfaces, thereby changing an angle between said endplates. 15. A system comprising an implant for insertion between two adjacent vertebral bodies, the implant comprising: (a) a base having a first contact surface for contacting a first of the adjacent vertebral bodies, said base comprising a first portion displaceable relative to a second portion, said base having an initial length and being shortened towards a second length through relative displacement of said first portion and said second portion;(b) a hinged element having a second contact surface for contacting a second of the adjacent vertebral bodies, said hinged element being interconnected with said first portion of said base at a hinge; and(c) a linking segment hingedly connected to said second portion of said base so as to be pivotable about a first axis and further hingedly connected to said hinged element so as to be pivotable about a second axis,wherein said base, said hinged element and said linking segment rigidly interconnect said hinged connections of said first axis, said second axis and said hinge in a rigid triangular geometry for any given length of said base such that shortening of said base from said initial length towards said second length causes said linking segment to push a region of said hinged element away from said base, thereby changing an angle of said second contact surface relative to said first contact surface,wherein each of said first and second contact surfaces is provided with a plurality of projecting features configured for gripping respective endplates of the two adjacent vertebral bodies,wherein said second contact surface has a largest dimension referred to as a contact surface length, and wherein said hinged element has an end corresponding to a point on said hinged element furthest from said hinge, a location of hinged connection between said linking segment and said hinged element being distanced from an end of said hinged element by at least 10% of said contact surface length. 16. The system of claim 15, wherein said linking segment has a dimension between said first axis and said second axis referred to as a linking segment length, said contact surface length being at least 40% longer than said linking segment length. 17. The system of claim 15, further comprising a deployment rod inserted via an opening in a proximal end of the implant and engaging a distal one of said first and second portions of said base such that a force applied to said proximal end of the implant in a distal direction can be opposed by a counterforce applied to said deployment rod, thereby causing shortening of said base. 18. The system of claim 15, wherein said first portion and said second portion are formed with complementary features defining a ratchet configuration comprising a series of ratchet teeth and a resiliently biased detent, said ratchet configuration being deployed to allow shortening of said base from said initial length through a range of lengths, and to oppose lengthening of said base. 19. The system of claim 18, further comprising a ratchet release element insertable via an opening in the implant and deployable to release engagement of said detent with said ratchet teeth to allow lengthening of said base. 20. The system of claim 18, further comprising a deployment rod inserted via an opening in a proximal end of the implant and engaging a distal one of said first and second portions of said base such that a force applied to said proximal end of the implant in a distal direction can be opposed by tension applied to said deployment rod, thereby causing shortening of said base. 21. The system of claim 20, wherein an engagement of said deployment rod with said distal portion is configured to allow a first motion of said deployment rod while maintaining engagement with said distal portion, and wherein said deployment rod has at least one feature deployed such that said first motion is effective to bring said at least one feature to bear on a part of said ratchet configuration so as to release engagement of said detent with said ratchet teeth to allow lengthening of said base. 22. The system of claim 21, wherein said engagement of said deployment rod with said distal portion is a threaded engagement, and wherein said first motion is a rotation effective to advance said deployment rod in relation to said threaded engagement. 23. The system of claim 15, wherein said first contact surface and said second contact surface are each partial surfaces having one or more openings totaling at least half of a total area of a contact surface footprint. 24. The system of claim 15, wherein said first contact surface defines a first contact plane and said second contact surface defines a second contact plane, and wherein shortening of said base from said initial length towards said second length displaces said second contact plane through an angular range of at least 10° relative to said first contact plane. 25. A method comprising the steps of: (a) introducing the implant of claim 15 between two vertebral bodies such that said first contact surface contacts an endplate of a first of said vertebral bodies and said second contact surface contacts an endplate of a second of said vertebral bodies; and(b) causing relative motion of said first and second portions of said base so as to change an angle between said first and second contact surfaces, thereby changing an angle between said endplates. 26. The method of claim 25, wherein said introducing and said causing relative motion are performed so as to correct a scoliosis misalignment between adjacent vertebral bodies. 27. The method of claim 25, wherein said introducing and said causing relative motion are performed so as to restore or increase an angle of lordosis between adjacent vertebral bodies. 28. A method comprising the steps of: (a) introducing two implants, each according to claim 15, between two vertebral bodies such that said first contact surface of each of said implants contacts an endplate of a first of said vertebral bodies and said second contact surface of each of said implants contacts an endplate of a second of said vertebral bodies; and(b) for each of said implants, causing relative motion of said first and second portions of said base so as to change an angle between said first and second contact surfaces, thereby changing an angle between said endplates.
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