A bone fusion device provides stability to bones during a bone fusion period. The bones include, for example, the vertebrae of a spinal column. The bone fusion device comprises one or more extendable tabs attached to the bone fusion device by associated rotating means. The bone fusion device is pref
A bone fusion device provides stability to bones during a bone fusion period. The bones include, for example, the vertebrae of a spinal column. The bone fusion device comprises one or more extendable tabs attached to the bone fusion device by associated rotating means. The bone fusion device is preferably inserted by using an arthroscopic surgical procedure. During arthroscopic insertion of the device, the tabs are pre-configured for compactness. In this compact configuration, the tabs are preferably deposed along and/or within an exterior surface of the bone fusion device. After the bone fusion device has been positioned between the bones, one or more tab(s) are extended. In the preferred embodiment, the position of each tab is related to a positioning element and extending blocks. Typically, the tabs advantageously position and brace the bone fusion device in the confined space between the bones until the bones have fused.
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1. A telescoping bone fusion device for insertion into a desired location, comprising: a. a body having a first end and an interior cavity;b. one or more tabs each having a plurality of nested levels configured to selectively telescope between a retracted position within the body and extended positi
1. A telescoping bone fusion device for insertion into a desired location, comprising: a. a body having a first end and an interior cavity;b. one or more tabs each having a plurality of nested levels configured to selectively telescope between a retracted position within the body and extended positions extending out of the body in order to brace the bone fusion device in the desired location, wherein each of the nested levels of each tab has a maximum extended position that is different than the maximum extended position of the other nested levels of the tab;c. a positioning element positioned through the first end of the body and substantially within the interior cavity of the body; andd. one or more extending blocks coupled to the positioning element for moving the nested levels of the one or more tabs between the retracted position and the extended positions. 2. The device of claim 1, wherein the distance from the body of the maximum extended position for each of the nested levels of each tab increases from the outermost nested level to the innermost nested level. 3. The device of claim 1, wherein each of the nested levels of each tab include an inner surface having a profile that is different than the inner surface profile of the other nested levels of the tab, and further wherein at least one of the extending blocks is configured to contact the inner surfaces when moving the nested levels between the retracted position and the extended positions. 4. The device of claim 1, wherein the one or more extending blocks comprise a plurality of upper surfaces at different heights, and further wherein the upper surfaces at each height are associated with one or more of the nested levels such that the upper surfaces of that height contact the associated nested levels when moving the nested levels between the retracted position and the extended positions. 5. The device of claim 1, wherein the innermost nested level of each tab comprises one or more tongues that extend from the top surface of the innermost nested level to the perimeter of the tab. 6. The device of claim 5, wherein the non-innermost nested levels of each tab comprise one or more recesses that align with the one or more tongues such that when the innermost nested level is nested within one or more of the non-innermost nested levels the tongues slide within the recesses. 7. A method of implanting a telescoping bone fusion device, the method comprising: a. inserting the bone fusion device into a desired location, wherein the bone fusion device comprises a body, a positioning element, one or more extending blocks and one or more moveable tabs each having a plurality of nested levels configured to selectively telescope between a retracted position within the body and extended positions extending out of the body in order to brace the bone fusion device in the desired location, wherein each of the nested levels of each tab has a maximum extended position that is different than the maximum extended position of the other nested levels of the tab;b. pre-configuring the one or more moveable tabs to the retracted position with the positioning element and the plurality of extending blocks such that the bone fusion device has a minimized form factor; andc. telescoping each of the nested levels of the one or more tabs to desired extended positions by moving the plurality of extending blocks with the positioning element. 8. The method of claim 7, wherein rotating the positioning element moves the plurality of extending blocks. 9. The method of claim 7, wherein the distance from the body of the maximum extended position for each of the nested levels of each tab increases from the outermost nested level to the innermost nested level. 10. The method of claim 7, wherein each of the nested levels of each tab include an inner surface having a profile that is different than the inner surface profile of the other nested levels of the tab, and further wherein the telescoping comprises at least one of the extending blocks contacting the inner surfaces of each of the nested levels when being moved by the positioning element. 11. The method of claim 7, wherein the one or more extending blocks comprise a plurality of upper surfaces at different heights and the upper surfaces at each height are associated with one or more of the nested levels, and further wherein the telescoping comprises the upper surfaces of the extending blocks at a height contacting the associated nested levels when being moved by the positioning element. 12. The method of claim 7, wherein the innermost nested level of each tab comprises one or more tongues that extend from the top surface of the innermost nested level to the perimeter of the tab. 13. The method of claim 12, wherein the non-innermost nested levels of each tab comprise one or more recesses that align with the one or more tongues such that when the innermost nested level is nested within one or more of the non-innermost nested levels the tongues slide within the recesses. 14. A method of implanting a telescoping bone fusion device, the method comprising: a. inserting the bone fusion device into a desired location, wherein the bone fusion device comprises a body, a positioning element, one or more extending blocks and one or more moveable tabs each having a plurality of nested levels configured to selectively telescope between a retracted position within the body and extended positions extending out of the body in order to brace the bone fusion device in the desired location;b. pre-configuring the one or more moveable tabs to the retracted position with the positioning element and the plurality of extending blocks such that the bone fusion device has a minimized form factor;c. telescoping each of the nested levels of the one or more tabs to desired extended positions by moving the plurality of extending blocks with the positioning element; andd. inserting a distraction instrument having an indicator and a pair of distraction plates into the desired location, separating the distraction plates and displaying information corresponding to the separation of the distraction plates with the indicator. 15. A bone fusion device for insertion into a desired location comprising: a. a housing comprising first and second ends;b. one or more tabs for bracing the bone fusion device in a space in the desired location, each tab comprising a first tab end proximate the first end and a second tab end distal from the first end and proximate the second end, each tab having a plurality of nested levels configured to selectively telescope between a retracted position within the body and extended positions extending out of the body in order to brace the bone fusion device in the desired location, wherein each of the nested levels of each tab has a maximum extended position that is different than the maximum extended position of the other nested levels of the tab;c. a positioning element positioned through the first end; andd. a plurality of extending blocks coupled to the positioning element and in contact with the one or more tabs for moving the one or more tabs, wherein as the positioning element moves in a first direction the plurality of extending blocks raise the tabs toward an extended position and directly support the first tab end or the second tab end when in the extended position. 16. The device of claim 15, further comprising a radio frequency identification device that uniquely identifies the bone fusion device. 17. A method of implanting a bone fusion device in a desired location, the method comprising: a. inserting the bone fusion device in the desired location, wherein the bone fusion device comprises a first end, a second end, an internal cavity, a positioning element, a plurality of extending blocks and one or more moveable tabs each in contact with one of the extending blocks and comprising a first tab end proximate the first end and a second tab end distal from the first end and proximate the second end;b. extending the one or more tabs to an extended position by moving at least one of the plurality of extending blocks toward the first end or the second end of one or more of the tabs by rotating the positioning element, wherein the at least one extending block directly supports the first tab end or the second tab end of the one or more of the tabs when the tabs are in the extended position; andc. inserting a distraction instrument having a handle, an indicator and a pair of distraction plates into the desired location, separating the distraction plates by rotating the handle and displaying information corresponding to the separation of the distraction plates with the indicator, wherein the displayed information further indicates a size or type of bone fusion device. 18. A method of operating a retraction instrument for implanting a bone fusion device having one or more tabs and a positioning element, the method comprising: a. inserting a distraction instrument having a handle, an indicator and a pair of distraction plates into a desired location;b. separating the distraction plates by rotating the handle; andc. displaying information corresponding to the separation of the distraction plates with the indicator, wherein the displayed information indicates the amount of separation between the distraction plates, wherein the displayed information further indicates the amount of force resisting the distraction of the plates. 19. The method of claim 18, wherein the desired position comprises between one or more vertebrae. 20. The method of claim 18, further comprising collapsing the distraction plates together and removing the distraction instrument from the desired location. 21. A method of operating a retraction instrument for implanting a bone fusion device having one or more tabs and a positioning element, the method comprising: a. inserting a distraction instrument having a handle, an indicator and a pair of distraction plates into a desired location;b. separating the distraction plates by rotating the handle; andc. displaying information corresponding to the separation of the distraction plates with the indicator, wherein the displayed information indicates the amount of separation between the distraction plates, wherein the displayed information further identifies a type of bone fusion device. 22. A method of operating a retraction instrument for implanting a bone fusion device having one or more tabs and a positioning element, the method comprising: a. inserting a distraction instrument having an indicator and a pair of distraction plates into a desired location;b. separating the distraction plates; andc. displaying information corresponding to the separation of the distraction plates with the indicator, wherein the displayed information indicates a number of rotations that the positioning element of the bone fusion device will require in order to extend the one or more tabs such that the height of the bone fusion device equals the amount of distraction of the distraction plates, wherein the displayed information further identifies a type of bone fusion device.
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