Minimally disruptive retractor and associated methods for spinal surgery
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61B-017/02
A61B-017/00
출원번호
US-0756198
(2015-08-14)
등록번호
US-9795370
(2017-10-24)
발명자
/ 주소
O'Connell, Casey James
Lee, James Coleman
Shorooghi, Ali A.
출원인 / 주소
NuVasive, Inc.
대리인 / 주소
Schermerhorn, Rory
인용정보
피인용 횟수 :
4인용 특허 :
216
초록
This application describes a surgical retractor and related methods for providing access to a surgical target site for the purpose performing minimally invasive spinal fusion across one or more segments of the spinal column.
대표청구항▼
1. A posterior spinal retractor for a maintaining an access corridor to a site along a posterior spinal column on which a surgical procedure is performed, the surgical procedure including use of first and second bone anchors anchorable into a first pedicle of a first vertebra and a second pedicle of
1. A posterior spinal retractor for a maintaining an access corridor to a site along a posterior spinal column on which a surgical procedure is performed, the surgical procedure including use of first and second bone anchors anchorable into a first pedicle of a first vertebra and a second pedicle of a second vertebra, respectively, comprising: a retractor body having a first arm extending along a first arm axis and a second arm extending along a second arm axis, the first arm axis and second arm axis being parallel to one another and perpendicular to a first translation axis, the retractor body being operable to move the first retractor arm and second retractor arm relative to each other in a direction plane parallel to the first translation axis, the first arm including a splay mechanism operable to rotate a portion of the first arm about the first arm axis, the second arm including a splay mechanism operable to rotate a portion of the second arm about the second arm axis;a first retractor blade coupleable to the first arm and having a distal end and a proximal end, the distal end of the first retractor blade including an integral blade foot operable to directly couple to a first bone anchor shank, the blade foot permitting angular adjustability of the first retractor blade relative to the first bone anchor shank, the proximal end including a proximal connector that engages the first arm such that the rotatable portion of the first arm rotates relative to the first retractor blade about a limited first free rotation range and beyond the limited first free rotation range the first retractor blade rotates with rotatable portion of the first arm to splay the distal end of the first retractor blade; anda second retractor blade coupleable to the second arm and having a distal end and a proximal end, the distal end of the second retractor blade including an integral blade foot operable to directly couple to a second bone anchor shank, the blade foot permitting angular adjustability of the second retractor blade relative to the second bone anchor shank, the proximal end including a proximal connector that engages the second arm such that the rotatable portion of the second arm rotates relative to the second retractor blade about a limited second free rotation range and beyond the limited second free rotation range the second retractor blade rotates with the rotatable portion of the second arm to splay the distal end of the second retractor blade. 2. The posterior spinal retractor of claim 1, including a first retractor blade clutch, the first retractor blade clutch including a first clutch extension on the first retractor blade proximal connector that is received within a first clutch cavity on the rotatable portion of the first arm, the first clutch extension having a lesser width than the width of the first clutch cavity, the difference between the first clutch extension width and the first clutch cavity width defining the limited free rotation range, the first blade clutch engaging when a side wall of the first clutch extension contacts a sidewall of the first clutch cavity. 3. The posterior spinal retractor of claim 2, including a second retractor blade clutch, the second retractor blade clutch including a second clutch extension on the second retractor blade proximal connector that is received within a second clutch cavity on the rotatable portion of the second arm, the second clutch extension having a lesser width than the width of the second clutch cavity, the difference between the second clutch extension width and the second clutch cavity width defining the limited second free rotation range, the second blade clutch engaging when a side wall of the second clutch extension contacts a sidewall of the second clutch cavity. 4. The posterior spinal retractor of claim 3, wherein when the first and second retractor blades are coupled to anchored first and second bone anchor shanks, an angle of the operative corridor between the first and second blades can be adjusted by moving the retractor body to move the proximal end of the first retractor blade and the proximal end of the second retractor blade in a same direction with the first retractor blade clutch and second retractor blade clutch disengaged. 5. The posterior spinal retractor of claim 3, wherein when the first and second retractor blades are coupled to anchored first and second bone anchor shanks, a volume of the operative corridor between the first and second blades can be adjusted by translating the first arm and second arm relative to each other to move the proximal ends of the first and second blades relative to each other with the first retractor blade clutch and second retractor blade clutch disengaged. 6. The posterior spinal retractor of claim 3, wherein when the first and second retractor blades are coupled to anchored first and second bone anchor shanks, the first and second arms can be translated relative to each other with the first retractor blade clutch and second retractor blade clutch engaged to adjust a distance between the first and second bone anchors. 7. The posterior spinal retractor of claim 3, wherein when the first and second retractor blades are coupled to anchored first and second bone anchor shanks, at least one of the first and second rotatable arm portions can be rotated with the first retractor blade clutch and second retractor blade clutch engaged to adjust a distance between the first and second bone anchors. 8. The posterior spinal retractor of claim 1, wherein the first retractor blade proximal connector includes a coupling mechanism configured to automatically lock the first retractor blade to the first retractor arm upon engagement. 9. The posterior spinal retractor of claim 8, wherein the coupling mechanism includes a release button configured to unlock the first retractor blade from the first retractor body to facilitate decoupling. 10. The posterior spinal retractor of claim 9, wherein the first retractor blade proximal connector includes a second coupling mechanism structurally identical to the coupling mechanism. 11. The posterior spinal retractor of claim 10, comprising a secondary retractor body that couples to the second coupling mechanism. 12. The posterior spinal retractor of claim 11, wherein the second retractor blade is structurally identical to the first retractor blade. 13. The posterior spinal retractor of claim 12, wherein the secondary retractor body couples to both the second coupling mechanism of the first retractor blade and the second coupling mechanism of the second retractor blade. 14. The posterior spinal retractor of claim 13, comprising a third retractor blade coupleable to the secondary retractor body. 15. A posterior spinal retractor for a maintaining an access corridor to a site along a posterior spinal column on which a surgical procedure is performed, the surgical procedure including use of first and second bone anchors anchorable into a first pedicle of a first vertebra and a second pedicle of a second vertebra, respectively, comprising: a retractor body having a first arm extending along a first arm axis and a second arm extending along a second arm axis, the first arm axis and second arm axis being parallel to one another and perpendicular to a first translation axis, the retractor body being operable to move the first retractor arm and second retractor arm relative to each other in a first direction plane parallel to the first translation axis, the first arm including a splay mechanism operable to rotate a portion of the first arm about the first arm axis, the second arm including a splay mechanism operable to rotate a portion of the second arm about the second arm axis;a first retractor blade coupleable to the first arm and having a distal end and a proximal end, the distal end including a static arm, a pivot arm pivotally coupled to the static arm, an integral blade foot operable to directly couple to a first bone anchor shank while permitting angular adjustability of the first retractor blade relative to the first bone anchor shank, the blade foot including a static foot extending from the static arm and a pivot foot extending from the pivot arm; anda second retractor blade coupleable to the second arm and operable to directly couple to a second bone anchor shank while permitting angular adjustability of the second retractor blade relative to the second bone anchor shank. 16. The posterior spinal retractor of claim 15, wherein the blade foot includes a center aperture sized to receive a neck of the first bone anchor therein. 17. The posterior spinal retractor of claim 16, wherein the blade foot includes an open position with the pivot foot pivoted away from the static foot to permit passage of the first bone anchor neck into the center aperture and a closed position with the pivot foot adjacent the static foot to prevent the removal of the first bone anchor neck from the center aperture. 18. The posterior spinal retractor of claim 17, wherein the first retractor blade further comprises a lock to lock the pivot foot in the closed position. 19. The posterior spinal retractor of claim 17, wherein the lock comprises a shaft that translates through a passage extending along one side of the first retractor blade to engage the pivot arm. 20. The posterior spinal retractor of claim 19, wherein the pivot arm is biased to the open position and the shaft engages a ramped surface of the pivot arm to pivot the pivot arm towards the static arm as the shaft translates downward toward the distal end. 21. The posterior spinal retractor of claim 20, wherein translation of the shaft is controlled by a set screw situated at the proximal end of the retractor blade. 22. The posterior spinal retractor of claim 17, wherein a gap exists between free ends of the static foot and pivot foot when in the closed position. 23. The posterior spinal retractor of claim 22, wherein an inner surface of the blade foot is curved and angled. 24. The posterior spinal retractor of claim 15, wherein the first retractor blade proximal end includes a proximal connector that engages the retractor body first arm. 25. The posterior spinal retractor of claim 24, wherein the rotatable portion of the first arm rotates relative to the first retractor blade about a limited first free rotation range and beyond the limited first free rotation range the first retractor blade rotates with the rotatable portion of the first arm to splay the distal end of the first retractor blade. 26. The posterior spinal retractor of claim 25, including a retractor blade clutch, the retractor blade clutch including a clutch extension on the proximal connector that is received within a clutch cavity on the rotatable portion of the first arm, the clutch extension having a lesser width than the width of the clutch cavity, the difference between the clutch extension width and the clutch cavity width defining the limited free rotation range, the retractor blade clutch engaging when a side wall of the clutch extension contacts a sidewall of the clutch cavity. 27. The posterior spinal retractor of claim 15, wherein the proximal connector includes a first coupling mechanism configured to lock the first retractor blade to the first retractor arm and a second coupling mechanism configured to lock the first retractor blade to a secondary retractor body. 28. The posterior spinal retractor of claim 27, wherein the second retractor blade is structurally identical to the first retractor blade. 29. The posterior spinal retractor of claim 28, wherein the secondary retractor body couples to both the second coupling mechanism of the first retractor blade and the second coupling mechanism of the second retractor blade. 30. The posterior spinal retractor of claim 29, comprising a third retractor blade coupleable to the secondary retractor body and movable along a second direction plane perpendicular to the first direction plane.
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이 특허에 인용된 특허 (216)
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