Bone joining apparatus and method

What is claimed is: 1. A bone coupling device for coupling a first bone piece to a second bone piece, the device comprising: a first component comprising a wall portion, a first cavity defined by an interior surface of the wall portion, a first indentation extending into an exterior surface of the wall portion, at least one aperture extending through the wall portion from within the first indentation and to the first cavity, and a first stem portion for coupling with the first bone piece; a second component comprising a second stem portion for coupling with the second bone piece and an axially extending connector portion angularly offset from the second stem portion and configured to be positioned within the first cavity, the connector portion including a plurality of second indentations that are arranged along an axis of the connector portion; and a coupling member including at least one knob, the coupling member being positioned within the first indentation of the first component and extending through the at least one aperture such that the at least one knob is at least partially positioned within the first cavity, wherein in a first orientation of the first and second components with the connector portion of the second component positioned within the first cavity of the first component, the at least one knob is at least partially retracted from the first cavity and abuts an outer surface of the connector portion adjacent to a second indentation, and wherein in a second orientation of the first and second components with the connector portion of the first component positioned within the first cavity of the first component, the coupling member portion is in a contracted state as compared to the first orientation such that the least one knob is positioned within at least one of the second indentations and thereby coupling the first and second components. 2. The device of claim 1 , wherein the connector portion of the second component includes two sets of a plurality of axially disposed second indentations along differing sides of the connector portion, wherein the coupling member includes two knobs, and wherein the first indentation of the first component includes two apertures extending to the first cavity configured to accept the two knobs therein. 3. The device of claim 1 , wherein the first and second orientations of the first and second components are differing axial and/or rotational orientations of the first and second components with respect to each other. 4. The device of claim 1 , wherein the connector portion of the second component extends from a first end of the second component in a first axial direction, and wherein the second indentations are spaced along the first axial direction from each other. 5. The device of claim 4 , wherein the second indentations include a distal edge proximate the first end of the second component, and wherein the distal edge of the second indentations extends substantially perpendicular from the outer surface of the second component or is sloped at an acute angle from the outer surface of the second component toward the first end to substantially prevent the connector portion of the second component from translating in a second axial direction that substantially opposes the first axial direction. 6. The device of claim 4 , wherein the second indentations include a proximal edge that is distal the first end of the second component and substantially opposes the distal edge thereof, and wherein the proximal edge of the second indentations is sloped at an acute angle from the outer surface of the second component toward the first end to guide the at the least one knob positioned within a second indentation out of the second indentation in the first axial direction. 7. The device of claim 4 , wherein, in the second orientation, the least one knob being positioned within at least one of the second indentations limits the relative rotation of the first and second components with respect to each other, and substantially prevents the connector portion of the first component from translating out from the first cavity of the first component in a second axial direction substantially opposing the first axial direction. 8. The device of claim 7 , wherein, in the first and second orientations, the connector portion of the first component is translatable in the first axial direction to insert the connector portion further into the cavity of the first component. 9. The device of claim 1 , wherein the cavity of the first component and outer surface of the connector portion of the second component are substantially cylindrical, and wherein the outer surface of the connector portion extends substantially about the plurality of axially disposed second indentations. 10. The device of claim 9 , wherein coupling member is a spring clip that extends about the outer surface of the connector portion of the second component, and wherein the spring clip is oriented substantially perpendicular to the axis of the axially extending connector portion. 11. The device of claim 1 , wherein the entirety of the coupling member is positioned below or even with an exterior surface of the first component that extends about the first indentation thereof. 12. A method of coupling a first bone piece to a second bone piece, the method comprising: coupling a first stem portion of a first component with the first bone piece, the first component including a wall portion, a first cavity defined by an interior surface of the wall portion, and a first indentation extending into an exterior surface of the wall portion, and at least one aperture extending through the wall portion from within the first indentation and to the first cavity; coupling a second stem portion of a second component with the second bone piece, the second component including an axially extending connector portion angularly offset from the second stem portion and configured to be positioned within the first cavity of the first component, the connector portion including a plurality of second indentations that are arranged along an axis of the connector portion; positioning the connector portion of the second component within the first cavity of the first component such that the at least one aperture of the first component is substantially aligned with a first portion of the outer surface of the connector portion; and substantially aligning the at least one aperture of the first component with at least one of the second indentations of the connector portion. 13. The method of claim 12 , wherein substantially aligning the at least one aperture of the first component with at least one of the second indentations contracts a coupling member that is positioned within the first indentation of the first member such that the coupling member extends through the least one aperture and into the first cavity. 14. The method of claim 13 , wherein contracting the coupling member positions at least one knob of the coupling member into at least one of the second indentations to couple the first and second components. 15. The method of claim 12 , wherein positioning the connector portion of the second component within the first cavity of the first component such that the at least one aperture of the first component is substantially aligned with a first portion of the outer surface of the connector portion expands a coupling member that is positioned within at least one of the second indentations. 16. The method of claim 15 , wherein expanding a coupling member includes positioning at least one knob of the coupling member into abutment with an outer surface of t