Abstract: An apparatus for replacing a damaged spinal disc in a spinal column includes a first retaining device having an outer surface engageable with a first vertebra of the spinal column and an inner surface. A second retaining device has an outer surface engageable with a second vertebra of the spinal column and an inner surface. A resilient core has a first surface and a second surface. The first surface engages the inner surface of the first retaining device. The second surface engages the inner surface of the second retaining device. The resilient core has a tapered radially outer surface extending from adjacent the first surface to adjacent the second surface. The first retaining device may have a flange extending toward the second retaining device. A concave surface may extend between the first surface and the radially outer surface. The concave surface of the core may engage the flange when the apparatus is free of a load.

Abstract: An artificial disc (10) to replace a damaged spinal disc in a spinal column (16) includes a resilient core (60) having an upper surface (62) and a lower surface(64). An upper retaining member (20) has an outer surface (22) engageable with a first vertebra (12) of the spinal column (16) and an inner surface (24) affixed to the upper surface (62) of the resilient core (60). A lower retaining member (40) has an outer surface (42) engageable with a second vertebra (14) of the spinal column (16) and an inner surface (44) affixed to the lower surface (64) of the resilient core (60). One of the upper and lower retaining members (20, 40) has an opening (30, 50) extending through the outer and inner surfaces into which the resilient core (60) deflects upon relative movement of the upper and lower retaining members (20, 40).

Abstract: An apparatus for replacing a spinal disc which has a rail extending from the outer surface to connect the apparatus to the first vertebra. The rail extends a first distance from the outer surface adjacent a first end. The rail extends a second distance from the outer surface adjacent a second end. The second distance is greater than the first distance. In another aspect of the apparatus, the first rail extends generally transverse to the first and second ends. The second rail extends generally transverse to the first rail.

Abstract: An apparatus for replacing a damaged spinal disc in a spinal column includes an artificial disc. The artificial disc includes a resilient core having a first surface and a second surface, a first retaining member connected to the first surface of the resilient core, and a second retaining member connected to the second surface of the resilient core. The first retaining member has an outer surface engageable with a first vertebra of the spinal column and an inner surface facing the first surface of the resilient core. The second retaining device has an outer surface engageable with a second vertebra of the spinal column and an inner surface facing the second surface of the resilient core. A first mounting member is connectable with the first vertebra and the artificial disc to position the artificial disc between the first and second vertebrae.

Abstract: A method for replacing a damaged spinal disc between first and second vertebrae of a spinal column includes connecting a first mounting member with the first vertebra of the spinal column. An artificial disc is moved between the first and second vertebrae and into engagement with the first mounting member to guide the artificial disc into position between the first and second vertebrae. The artificial disc includes a resilient core having a first surface and a second surface, a first retaining member connected to the first surface of the resilient core, and a second retaining member connected to the second surface of the resilient core. The first retaining member has an outer surface engageable with a first vertebra of the spinal column and an inner surface facing the first surface of the resilient core. The second retaining member has an outer surface engageable with the second vertebra of the spinal column and an inner surface facing the second surface of the resilient core.

Abstract: An artificial disc to replace a damaged spinal disc in a spinal column includes an upper retaining member having an outer surface engageable with a first vertebra of the spinal column and an inner surface. A lower retaining member has an outer surface engageable with a second vertebra of the spinal column and an inner surface. A resilient core interconnects the upper and lower retaining members. The resilient core has an upper surface affixed to the inner surface of the upper retaining member. The resilient core has a lower surface affixed to the inner surface of the lower retaining member. The resilient core has a surface extending from one of the upper and lower surfaces toward another of the upper and lower surfaces and at least partially defining an empty space extending from the one of the upper and lower surfaces.

Abstract: An apparatus for replacing a damaged spinal disc in a spinal column includes a resilient core having a first surface and a second surface. A first retaining device is connected to the first surface of the resilient core. The first retaining device includes an outer surface engageable with a first vertebra of the spinal column and an inner surface facing the first surface of the resilient core. A second retaining device is connected to the second surface of the resilient core. The second retaining device has an outer surface engageable with a second vertebra of the spinal column and an inner surface facing the second surface of the resilient core. The inner surface of the first retaining device is spaced from the core. The core deflects into engagement with the inner surface of the first retaining device upon relative movement between the first and second retaining devices.

Abstract: An artificial disc to replace a damaged spinal disc in a spinal column includes an upper retaining member having an outer surface engageable with a first vertebra of the spinal column and an inner surface. A lower retaining member has an outer surface engageable with a second vertebra of the spinal column and an inner surface. A resilient core interconnects the upper and lower retaining members. The resilient core has an upper surface affixed to the inner surface of the upper retaining member. The resilient core has a lower surface affixed to the inner surface of the lower retaining member. The resilient core has a surface extending from one of the upper and lower surfaces toward another of the upper and lower surfaces and at least partially defining an empty space extending from the one of the upper and lower surfaces.

Abstract: An artificial disc (10) to replace a damaged spinal disc in a spinal column (16) includes a resilient core (60) having an upper surface (62) and a lower surface(64). An upper retaining member (20) has an outer surface (22) engageable with a first vertebra (12) of the spinal column (16) and an inner surface (24) affixed to the upper surface (62) of the resilient core (60). A lower retaining member (40) has an outer surface (42) engageable with a second vertebra (14) of the spinal column (16) and an inner surface (44) affixed to the lower surface (64) of the resilient core (60). One of the upper and lower retaining members (20, 40) has an opening (30, 50) extending through the outer and inner surfaces into which the resilient core (60) deflects upon relative movement of the upper and lower retaining members (20, 40).

Abstract: An artificial disc (10) to replace a damaged spinal disc in a spinal column (16) includes a resilient core (60) having an upper surface (62) and a lower surface (64). An upper retaining member (20) has an outer surface (22) engageable with a first vertebra (12) of the spinal column (16) and an inner surface (24) affixed to the upper surface (62) of the resilient core (60). A lower retaining member (40) has an outer surface (42) engageable with a second vertebra (14) of the spinal column (16) and an inner surface (44) affixed to the lower surface (64) of the resilient core (60). One of the upper and lower retaining members (20, 40) has an opening (30, 50) extending through the outer and inner surfaces into which the resilient core (60) deflects upon relative movement of the upper and lower retaining members (20, 40).