Source: http://www.google.de/patents/US8535379
Timestamp: 2017-12-17 23:28:57
Document Index: 714479221

Matched Legal Cases: ['§120', '§120', '§119', 'Application No. 60', '§119', '§119', 'Application No. 60', 'Application No. 60', 'Application No. 60', 'Application No. 60', 'Application No. 60', '§119']

Patent US8535379 - Artificial cervical and lumbar discs, disc plate insertion gun for ... - Google Patentsuche
An artificial replacement disc includes a pair of substantially parallel plates formed to occupy a space defined by vertebral endplates, each of the plates including a plurality of spikes on a first surface and a concave trough formed on a second surface opposite of the first surface. A mobile core includes...http://www.google.de/patents/US8535379?utm_source=gb-gplus-sharePatent US8535379 - Artificial cervical and lumbar discs, disc plate insertion gun for performing sequential single plate intervertebral implantation enabling symmetric bi-disc plate alignment for interplate mobile core placement
Veröffentlichungsnummer US8535379 B2
Auch veröffentlicht unter US9056018, US20090132051, US20140067067, US20160100952
Veröffentlichungsnummer 11943334, 943334, US 8535379 B2, US 8535379B2, US-B2-8535379, US8535379 B2, US8535379B2
Ursprünglich Bevollmächtigter Nathan C. Moskowitz, Pablo A Valdivia Y ALVARADO, Mosheh T. MOSKOWITZ, Ahmnon D. Moskowitz
Patentzitate (42), Nichtpatentzitate (5), Referenziert von (3), Klassifizierungen (13), Juristische Ereignisse (5)
US 8535379 B2
a pair of substantially parallel plates formed to occupy a space defined by vertebral endplates, each of said plates having parallel, straight peripheral edges extending in a first direction and partial, elliptical shape peripheral edges extending in a second direction, each of the plates including a plurality of spikes on a first surface and a concave trough formed on a second surface opposite of the first surface; and
a mobile core having a circular perimeter shape, the mobile core including a core rim with opposing convex surfaces extending from opposite sides of the core rim, the mobile core disposed between the pair of plates and permitting the vertebral endplates to move relative to one another,
wherein a diameter of the circular perimeter shape of the mobile core is greater than a distance between the parallel, straight peripheral edges of each of the plates,
wherein the plurality of spikes on each of said plates extend substantially away from the mobile core and said convex surfaces are formed to integrally fit within the concave trough of at least one of the plates,
wherein the core rim limits lateral movement of the mobile core relative to the plates.
2. The artificial disc according to claim 1, wherein the plates and the mobile core are sized and shaped to integrally fit within a space defined by cervical vertebral endplates.
4. The artificial disc according to claim 1, wherein the concave trough of each of the plates is disposed in a center of each respective plate.
5. The artificial disc according to claim 1, wherein the concave trough of each of the plates is shaped to receive one of the convex surfaces of the mobile core and the core rim is shaped to receive outer edges of the concave trough of each of the plates with an integral fit.
6. The artificial disc according to claim 1, wherein the plurality of spikes of the substantially parallel plates include a plurality of conically shaped spikes.
9. The artificial disc according to claim 1, wherein each of the plates has a first axis and a second axis each lying in a first same plane, a dimension of the plate in a first direction of the first axis being greater than a dimension of the plate in a second direction of the second axis,
wherein each of the plates has a first rotational axis and a second rotational axis lying in a second plane that is parallel to the first same plane, and
wherein the first rotational axis and the second rotational axis pass through the core rim of the core.
10. The artificial disc according to claim 1, wherein a distance in a first direction between an outermost surface of each of the opposing convex surfaces is greater than a thickness in the first direction of the core rim.
11. The artificial disc according to claim 1, wherein the second surface of each of the plates includes a first substantially ring shaped raised portion.
12. The artificial disc according to claim 11, wherein the concave trough is disposed within the first substantially ring shaped raised portion and extends outward from within the first substantially ring shaped raised portion.
13. The artificial disc according to claim 12, wherein the mobile core rim includes a first substantially ring shaped member having a raised edge and a second substantially ring shaped member having a raised edge,
wherein the first ring shaped member and the second ring shaped member each defines a respective cavity in which the convex surfaces are respectively positioned within and extend therefrom, and
wherein each convex surface of the mobile core respectively engages the first substantially ring shaped raised portion and the second substantially ring shaped raised portion of the plates.
14. The artificial disc according to claim 1, wherein the concave trough has a substantially circular perimeter.
15. The artificial disc according to claim 1, wherein the concave trough has substantially uniform radius.
16. The artificial disc according to claim 1, wherein each of the plates has a first axis and a second axis lying in a same plane, a dimension of the plate in a first direction of the first axis being greater than a dimension of the plate in a second direction of the second axis, and
wherein a first distance extending in the first direction between a first edge of the plate and a first edge of the concave trough is greater than a second distance extending in the second direction between a second edge of the plate and a second edge of the concave trough.
17. The artificial disc according to claim 1, wherein the concave trough is radially symmetric.
18. The artificial disc according to claim 1, wherein the concave trough is radially symmetric.
19. The artificial disc according to claim 1, wherein the core rim is a circular core rim, and
wherein the core rim is radially symmetric.
20. The artificial disc according to claim 1, wherein each of the plates has a first axis and a second axis lying in a same plane, a dimension of the plate in a first direction of the first axis being greater than a dimension of the plate in a second direction of the second axis, and
wherein a maximum range of motion of each of the plates with respect to the mobile core about the first axis is substantially +/−4.39 degrees from the first axis.
21. The artificial disc according to claim 20, wherein a maximum range of motion of each of the plates with respect to the mobile core about the second axis is substantially +/−4.39 degrees from the second axis.
22. The artificial disc according to claim 1, wherein each of the plates has a first axis and a second axis lying in a same plane, a dimension of the plate in a first direction of the first axis being greater than a dimension of the plate in a second direction of the second axis, and
wherein a maximum range of motion of each of the plates with respect to the mobile core about the second axis is substantially +/−4.39 degrees from the second axis.
23. The artificial disc according to claim 1, wherein a first plate of the plates has a first axis and a second axis lying in a same plane, a dimension of the first plate in a first direction of the first axis being greater than a dimension of the plate in a second direction of the second axis, and
wherein a maximum range of motion of the first plate with respect to a second plate of the plates about the first axis is substantially +/−8.78 degrees from the first axis.
24. The artificial disc according to claim 23, wherein a maximum range of motion of the first plate with respect to the second plate of the plates about the second axis is substantially +/−8.78 degrees from the second axis.
25. The artificial disc according to claim 1, wherein a first plate of the plates has a first axis and a second axis lying in a same plane, a dimension of the first plate in a first direction of the first axis being greater than a dimension of the plate in a second direction of the second axis, and
wherein a maximum range of motion of the first plate with respect to a second plate of the plates about the second axis is substantially +/−8.78 degrees from the second axis.
26. The artificial disc according to claim 1, wherein each of the plates has a first axis and a second axis lying in a same plane, a dimension of the plate in a first direction of the first axis being greater than a dimension of the plate in a second direction of the second axis, and
wherein a maximum range of motion of each of the plates with respect to the mobile core about the first axis and the second axis simulates a maximum range of motion of a natural human disc.
27. The artificial disc according to claim 1, wherein a first plate of the plates has a first axis and a second axis lying in a same plane, a dimension of the first plate in a first direction of the first axis being greater than a dimension of the plate in a second direction of the second axis, and
wherein a maximum range of motion of the first plate with respect to a second plate of the plates about the first axis and the second axis simulates a maximum range of motion of a natural human disc.
28. The artificial disc according to claim 1, wherein each of the plates has a first axis and a second axis lying in a same plane, a dimension of the plate in a first direction of the first axis being greater than a dimension of the plate in a second direction of the second axis, and
wherein a maximum range of motion of each of the plates with respect to the mobile core about the first axis is substantially equal to a maximum range of motion of each of the plates with respect to the mobile core about the second axis.
29. The artificial disc according to claim 1, wherein each of the plates has a first axis and a second axis lying in a same plane, a dimension of the plate in a first direction of the first axis being greater than a dimension of the plate in a second direction of the second axis,
wherein each of the plates has a third axis that is perpendicular to each of the first axis and the second axis, and
wherein a range of motion of each of the plates with respect to the mobile core about the third axis is unconstrained.
30. The artificial disc according to claim 1, wherein each of the plates has a first axis and a second axis lying in a same plane, a dimension of the plate in a first direction of the first axis being greater than a dimension of the plate in a second direction of the second axis, and
wherein a maximum range of motion of each of the plates with respect to the mobile core about the first axis in a first direction is substantially equal to a maximum range of motion of each of the plates with respect to the mobile core about the first axis in a second direction.
31. The artificial disc according to claim 1, wherein each of the plates has a first axis and a second axis lying in a same plane, a dimension of the plate in a first direction of the first axis being greater than a dimension of the plate in a second direction of the second axis, and
wherein a maximum range of motion of each of the plates with respect to the mobile core about the second axis in a first direction is substantially equal to a maximum range of motion of each of the plates with respect to the mobile core about the second axis in a second direction.
32. The artificial disc according to claim 1, wherein the plurality of spikes on the first surface of each plate are uniformly spaced around a perimeter of the plate.
33. The artificial disc according to claim 1, wherein the plurality of spikes on the first surface of each plate includes six spikes uniformly spaced around a perimeter of the plate.
34. The artificial disc according to claim 1, wherein a spike of the plurality of spikes on the first surface of each plate includes a first end coupled to the plate and a second free end,
the second end having a conical shape.
35. The artificial disc according to claim 34, wherein the spike includes a first cylindrical portion between the plate and the second end having the conical shape.
36. The artificial disc according to claim 35, wherein the spike includes a second cylindrical portion between the plate and the first cylindrical portion,
wherein a diameter of the first cylindrical portion is greater than a diameter of the second cylindrical portion.
37. The artificial disc according to claim 36, wherein the spike includes a tapered portion coupling the spike to the plate, the tapered portion being disposed between the second cylindrical portion and the plate.
38. The artificial disc according to claim 35, wherein the spike includes a tapered portion coupling the spike to the plate, the tapered portion being disposed between the first cylindrical portion and the plate.
39. The artificial disc according to claim 34, wherein the spike includes a tapered portion coupling the spike to the plate.
40. The artificial disc according to claim 34, wherein the spike includes an indented mid-section.
41. The artificial disc according to claim 1, wherein a spike of the plurality of spikes on the first surface of each plate includes an indented mid-section.
42. The artificial disc of claim 1, wherein the concave trough of each of the plates includes a perimeter rim extending around the concave trough, and
wherein each of the plates includes a groove between a lower surface of the perimeter rim of the concave trough and the second surface.
43. An artificial spinal disc formed to occupy a space defined by vertebral endplates, the artificial spinal disc comprising:
a first plate having a first axis and a second axis lying in a first plane, a first dimension of the plate in a first direction of the first axis being greater than a second dimension of the first plate in a second direction of the second axis;
a second plate having a third axis and a fourth axis lying in a second plane, a third dimension of the second plate in a third direction of the third axis being greater than a fourth dimension of the second plate in a fourth direction of the fourth axis,
each of the first plate and the second plate including a first surface having a plurality of spikes and a second surface having a concave trough formed thereon, the first surface being opposite the second surface, the first surface of each of the first plate and the second plate facing away from each other, and the second surface of each of the first plate and the second plate facing toward each other,
wherein the first plate includes parallel, straight peripheral edges extending in the first direction and partial, elliptical shape peripheral edges extending in the second direction,
wherein the second plate includes parallel, straight peripheral edges extending in the third direction and partial, elliptical shape peripheral edges extending in the fourth direction; and
a mobile core interposing the first plate and the second plate, the mobile core facilitating movement of the first plate with respect to the second plate,
the mobile core having a circular perimeter shape, the mobile core including a core rim having a circular perimeter shape, the mobile core including a first convex surface extending from a first side of the core rim and disposed within a perimeter of the core rim and a second convex surface extending from a second side of the core rim and disposed within a perimeter of the core rim,
wherein a diameter of the circular perimeter shape of the mobile core is greater than the second dimension of the first plate in the second direction of the second axis and greater than the fourth dimension of the second plate in the fourth direction of the fourth axis such that the mobile core extends past the parallel, straight peripheral edges of each of the first plate and the second plate,
wherein the plurality of spikes on each of the first plate and the second plate extend substantially away from the mobile core, and
wherein each of the first convex surface and the second convex surface integrally fit respectively within the concave trough of the second side of the first plate and the second plate such that the core rim limits movement of the mobile core relative to the first plate and the second plate.
44. The artificial disc of claim 43, wherein the concave trough of each of the first plate and the second plate includes a perimeter rim extending around the concave trough, and
wherein each of the first plate and the second plate includes a groove between a lower surface of the perimeter rim of the concave trough and the second surface.
This application is a Continuation-In-Part Application, for which priority is claimed under 35 U.S.C. §120, of U.S. patent application Ser. No. 11/487,415 filed on Jul. 17, 2006 (now U.S. Pat. No. 7,854,766, issued on Dec. 21, 2010), which is a Continuation-In-Part of U.S. patent application Ser. No. 11/019,351, filed on Dec. 23, 2004 (now U.S. Pat. No. 7,083,650, issued on Aug. 1, 2006), which is a Continuation Application of U.S. patent application Ser. No. 10/964,633, filed on Oct. 15, 2004 (abandoned on Aug. 10, 2007), for which priority of each of the above-identified applications is claimed under 35 U.S.C. §120.
U.S. patent application Ser. No. 11/487,415, filed on Jul. 17, 2006 (now U.S. Pat. No. 7,854,766, issued on Dec. 21, 2010), claims the benefit of priority under 35 U.S.C. §119(e) of U.S. Provisional Application No. 60/788,720 filed on Apr. 4, 2006, and this application hereby incorporates the claim of priority under 35 U.S.C. §119(e) from the intermediate application of the above-identified U.S. provisional application.
U.S. patent application Ser. No. 10/964,633, filed on Oct. 15, 2004 (abandoned on Aug. 10, 2007), claims the benefit of priority under 35 U.S.C. §119(e) of U.S. Provisional Application No. 60/578,319 filed on Jun. 10, 2004, U.S. Provisional Application No. 60/573,346 filed on May 24, 2004, U.S. Provisional Application No. 60/572,468 filed on May 20, 2004, U.S. Provisional Application No. 60/570,837 filed on May 14, 2004, and U.S. Provisional Application No. 60/570,098 filed on May 12, 2004, and this application hereby incorporates the claim of priority under 35 U.S.C. §119(e) from the intermediate application of the above-identified U.S. provisional applications.
The Medical Device of FIGS. 1-9.
2 E.K. Wai et al., "Disk Replacement Arthroplasties: Can the Success of Hip and Knee Replacements be Repeated in the Spine?," Seminars in Spine Surgery, vol. 15, No. 4 Dec. 2003, pp. 473-482.
Unternehmensklassifikation A61F2/4425, A61F2/442, A61F2002/30125, A61F2230/008, A61F2002/30841, A61F2002/30662, A61F2002/443, A61F2002/30649, A61F2002/30604, A61F2230/0008, A61F2/4611
13. Sept. 2017 FEPP
13. Sept. 2017 MAFP