최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
---|---|
국제특허분류(IPC7판) |
|
출원번호 | US-0016457 (2013-09-03) |
등록번호 | US-8814913 (2014-08-26) |
발명자 / 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 | 피인용 횟수 : 17 인용 특허 : 417 |
A spinal fixation device combines an open-headed anchor member, such as a bone screw or a hook with spaced apart arms forming a rod receiving channel. The arms have break-off arm extensions that are broken-off or separated after the rod is clamped. The closure and inner surfaces of the arms and tabs
A spinal fixation device combines an open-headed anchor member, such as a bone screw or a hook with spaced apart arms forming a rod receiving channel. The arms have break-off arm extensions that are broken-off or separated after the rod is clamped. The closure and inner surfaces of the arms and tabs have mating helical anti-splay guide and advancement flanges formed thereon which radially interlock and mechanically cooperate to prevent splaying the arms and extensions as the closure is advanced into the rod receiving channel.
1. In a device for securing a rod shaped member having a receiver with a pair of upwardly extended and spaced apart arms forming a rod receiving channel therebetween that receives a closure, the improvement comprising: a) the arms having main portions and extended portions connected to said main por
1. In a device for securing a rod shaped member having a receiver with a pair of upwardly extended and spaced apart arms forming a rod receiving channel therebetween that receives a closure, the improvement comprising: a) the arms having main portions and extended portions connected to said main portions by weakened regions, said main portions and said extended portions of said arms having inner surfaces;b) a closure sized to be received within said channel to clamp the rod shaped member therein and having a body;c) a closure guide and advancement flange extending helically about and along said closure, said closure flange having a closure anti-splay contour with a downwardly facing closure leading surface and a trailing surface; the trailing surface having an inner portion extending outwardly and downwardly from the body and an outer portion that has a surface that is raised above the inner portion;d) a discontinuous receiver guide and advancement flange extending helically about and along said inner surfaces of said main portions and said extended portions of said arms, said receiver flange having a receiver anti-splay contour with an upwardly facing receiver leading surface; the closure trailing surface raised surface being sized and shaped to remain spaced from the receiver guide and advancement flange so as to remain unloaded during use;e) the anti-splay contours of said closure flange and said receiver flange being complementary to mate during rotation of the closure relative to the receiver, while radially interlocking, and thereafter cooperatively to prevent splaying of said arms when said closure is advanced into said receiver; said closure being advanceable against rod shaped member to clamp the member relative to said receiver; said downwardly facing closure leading surface and said upwardly facing receiver leading surface cooperating so as to produce a gap therebetween; andf) said extended portions of said arms guiding the closure into the channel during rotation of the closure into the channel and thereafter being separable from said main portions after said closure clamps the rod shaped member within a portion of said channel defined by said main portions of said arms. 2. The improvement as set forth in claim 1 wherein: a) said receiver is spinal fixation anchor and the rod shaped member is a spinal fixation rod. 3. The improvement as set forth in claim 1 wherein: a) said receiver is an open-headed bone screw adapted for implanting in a vertebra and said member is a spinal fixation rod. 4. The improvement as set forth in claim 1 wherein: a) said closure anti-splay contour includes a lip extending helically along said closure flange;b) said receiver anti-splay contour includes a groove extending helically along said receiver flange; andc) said lip and said groove cooperate to receive said lip in said groove when said closure is rotated and advanced into said receiver. 5. The improvement as set forth in claim 1 wherein: a) said closure flange has a closure load flank on a trailing side of said closure flange relative to a clamping direction of movement of said closure within said receiver;b) said closure anti-splay contour includes a lip extending helically along said closure load flank of said closure flange;c) said receiver flange has a receiver load flank on a trailing side of said receiver flange relative to said clamping direction of movement;d) said receiver anti-splay contour includes a groove extending helically along said receiver load flank of said receiver flange; ande) said lip and said groove cooperate to receive said lip in said groove when said closure is rotated and advanced into said receiver. 6. In a spinal fixation anchor for clamping and anchoring a spinal fixation rod having a an open head including a pair of spaced apart arms defining a rod receiving channel therebetween, the improvement comprising: a) the arms having main portions and extended portions connected to said main portions by weakened regions, said main portions and said extended portions of said arms having inner surfaces;b) a closure having a body and being sized to be received within said channel and adapted to be rotated and advanced into the channel and between the arms to clamp a spinal fixation rod in the channel;c) a closure guide and advancement flange extending helically about and along said closure, said closure flange having a closure anti-splay contour and a downwardly facing closure leading surface and a trailing surface; the trailing surface having an inner portion sloping downwardly and outwardly from the closure body and an outer portion with a raised surface;d) an anchor guide and advancement flange discontinuously extending helically about and along said inner surfaces of said main portions and said extended portions of said arms, said anchor flange having an anchor anti-splay contour and an upwardly facing anchor leading surface complementary to said closure leading surface; the closure trailing surface raised surface being sized and shaped so as to remain spaced from the anchor guide and advancement flange during use;e) an anti-splay gap between said complementary leading surfaces;f) the anti-splay contours of said closure flange and said anchor flange allowing rotation of the closure relative to the anchor while being complementary and radially interlocking so as to cooperate to prevent splaying of said arms when said closure is advanced into said anchor; andg) said extended portions of said arms being separable from said main portions after said closure clamps the rod within a portion of said channel between said main portions of said arms. 7. The improvement as set forth in claim 6 wherein: a) said anchor is an open-headed bone screw adapted for helical implanting in a vertebra. 8. The improvement as set forth in claim 6 wherein: a) said closure anti-splay contour includes a lip extending helically along said closure flange;b) said anchor anti-splay contour includes a groove extending helically along said receiver flange; andc) said lip and said groove cooperate to receive said lip in said groove when said closure is advanced into said anchor. 9. The improvement as set forth in claim 6 wherein: a) said closure flange has a closure load flank on a trailing side of said closure flange relative to a clamping direction of movement of said closure within said anchor;b) said closure anti-splay contour includes a lip extending helically along said closure load flank of said closure flange;c) said anchor flange has an anchor load flank on a trailing side of said anchor flange relative to said clamping direction of movement;d) said anchor anti-splay contour includes a groove extending helically along said anchor load flank of said anchor flange; ande) said lip and said groove cooperate to receive said lip in said groove when said closure is advanced into said anchor. 10. In a spinal fixation bone screw for clamping and anchoring a spinal fixation rod having a an open head including a pair of spaced apart arms defining a rod receiving channel therebetween, the improvement comprising: a) the arms having main portions and extended portions connected to said main portions by weakened regions, said main portions and said extended portions of said arms having inner surfaces;b) a closure having a body and being sized to be received within said channel to clamp a spinal fixation rod therein;c) a closure guide and advancement flange extending helically about and along said closure, said closure flange having a closure anti-splay contour with a downwardly facing closure leading surface and a trailing surface, the trailing surface having an inner portion that slopes outwardly and downwardly from the body and an outer portion with a raised surface relative to the inner portion;d) a head guide and advancement flange discontinuously extending helically about and along said inner surfaces of said main portions and said extended portions of said arms, said head flange having a head anti-splay contour with an upwardly facing head leading surface;e) the anti-splay contours of said closure flange and said head flange being complementary and radially interlocking so as to cooperate to prevent splaying of said arms when said flanges are mated and said closure is rotated and advanced into said screw head with the head flange mating with the closure flange between the arm extended portions and guiding the closure into the channel between the arm main portions; the trailing surface raised surface being sized and shaped to be spaced from the head guide and advancement flange during use;f) the closure leading surface and the head leading surface cooperating when said flanges are mated and said closure is rotated and advanced into said screw head with the head flange mating with the closure flange between the arm extended portions and guiding the closure into the channel between the arm main portions; andg) said extended portions of said arms being separated from said main portions after said closure clamps the rod within a portion of said channel located between said main portions of said arms. 11. The improvement as set forth in claim 10 wherein: a) said closure anti-splay contour includes a lip extending helically along said closure flange;b) said head anti-splay contour includes a groove extending helically along said head flange; andc) said lip and said groove cooperate to receive said lip in said groove when said closure is advanced into said screw head. 12. The improvement as set forth in claim 10 wherein: a) said closure flange has a closure load flank on a trailing side of said closure flange relative to a clamping direction of movement of said closure within said screw head;b) said closure anti-splay contour includes a lip extending helically along said closure load flank of said closure flange;c) said head flange has a head load flank on a trailing side of said head flange relative to said clamping direction of movement;d) said anchor anti-splay contour includes a groove extending helically along said anchor load flank of said head flange; ande) said lip and said groove cooperate to receive said lip in said groove when said closure is advanced into said head. 13. The improvement as set forth in claim 10 wherein: a) said closure includes a break off insertion head adapted to be driven by an insertion tool and to break off at a preselected torque. 14. The improvement as set forth in claim 10 wherein: a) said bone screw is a polyaxial bone screw. 15. The improvement as set forth in claim 10 wherein: a) said bone screw is a fixed headed bone screw. 16. In a device for securing a rod shaped member having a receiver with a pair of upwardly extended and spaced apart arms forming a rod receiving channel therebetween that receives a closure, the improvement comprising: a) said arms have upwardly extending break off extensions;b) the closure has a body and a flange form thereabout with a trailing surface;c) said arms and said extensions each have inwardly facing surfaces with discontinuous helically wound flange forms thereon that interlock with the flange form on the closure and allow advancement and transfer of the closure between said extensions and said arms by rotation of the closure; whereind) the closure includes leading and trailing surfaces; the closure trailing surface having an inner portion sloping downwardly from the body and an outer portion with a raised surface forming a lip that remains spaced from the flange forms of the arms and extensions so as to remain unloaded when the flange forms are mated and said closure is rotated and advanced into said screw head and tightened. 17. The improvement as set forth in claim 16, wherein: a) said receiver is an open-headed bone screw adapted for implanting in a vertebra and said member is a spinal fixation rod. 18. In a device for securing a rod shaped member having a receiver with a pair of upwardly extended and spaced apart arms forming a rod receiving channel therebetween that receives a closure, the improvement comprising: a) the arms having main portions and extended portions connected to said main portions by weakened regions, said main portions and said extended portions of said arms having inner surfaces;b) a closure with a body and sized to be received within said channel to clamp the rod shaped member therein;c) a closure guide and advancement flange extending helically about and along said closure body, said closure flange having a closure anti-splay contour with an inner portion that slopes downwardly and outwardly from the body and an outer portion with a raised surface relative to the inner portion; the outer portion raised surface remaining unloaded in use;d) a discontinuous receiver guide and advancement flange extending helically about and along said inner surfaces of said main portions and said extended portions of said arms, said receiver flange having a mating receiver anti-splay contour;e) the anti-splay contours of said closure flange and said receiver flange being complementary to mate during rotation of the closure relative to the receiver, while radially interlocking, and thereafter cooperatively to prevent splaying of said arms when said closure is advanced into said receiver; said closure being advanceable to lock rod shaped member to said receiver; andf) said extended portions of said arms guiding the closure into the channel during rotation of the closure into the channel and thereafter being separable from said main portions after said closure clamps the rod shaped member within a portion of said channel defined by said main portions of said arms. 19. In a device for securing a rod shaped member having a receiver with a pair of upwardly extended and spaced apart arms forming a rod receiving channel therebetween that receives a closure, the improvement comprising: a) the closure has a body and a flange form thereabout with a trailing surface;b) said arms have inwardly facing surfaces with discontinuous helically wound flange forms thereon that interlock with the flange form on the closure and allow advancement of the closure along said arms by rotation of the closure; whereinc) the closure includes leading and trailing surfaces; the extending outwardly and trailing surface having an inner portion sloping downwardly from the body and an outer portion with a raised surface forming a lip that remains spaced from the flange forms of the arms so as to remain unloaded when the closure and arm flange forms are mated and the closure is rotated and advanced into the screw head and tightened. 20. The improvement as set forth in claim 19, wherein: a) said receiver is an open-headed bone screw adapted for implanting in a vertebra and said member is a spinal fixation rod. 21. A device for securing a rod shaped member having a receiver with a pair of upwardly extended and spaced apart arms forming a rod receiving channel therebetween that receives a closure, the improvement comprising: a) the arms having inner surfaces;b) a closure sized to be received within said channel to clamp the rod shaped member therein and having a body;c) a closure guide and advancement flange extending helically about and along the closure, the closure flange having a closure anti-splay contour with a downwardly facing closure leading surface and a trailing surface; the trailing surface having an inner portion extending outwardly and downwardly from the body and an outer portion that has a surface that is raised above the inner portion;d) a discontinuous receiver guide and advancement flange extending helically about and along the inner surfaces of the arms, the receiver flange having a receiver anti-splay contour with an upwardly facing receiver leading surface; the closure trailing surface raised surface being sized and shaped to remain spaced from the receiver guide and advancement flange so as to remain unloaded during use; ande) the anti-splay contours of said closure flange and said receiver flange being complementary to mate during rotation of the closure relative to the receiver, while radially interlocking, and thereafter cooperate to resist splaying of said arms when said closure is advanced into the receiver; the closure being advanceable against rod shaped member to clamp and secure the member relative to said receiver; the downwardly facing closure leading surface and said upwardly facing receiver leading surface being sized and shaped so as to produce a gap therebetween during use.
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