Extremity imaging apparatus for cone beam computed tomography

What is claimed is: 1. An apparatus for cone beam computed tomography imaging of a subject, the apparatus comprising: an x-ray source; an x-ray detector; a removable antiscatter grid attached proximate to the detector; a rotatable gantry attached to the source, the detector, and the grid to rotate the source, the detector and the grid about an imaging axis; and a C-shaped housing enclosing the source, the detector, the grid, and the gantry, the C-shaped housing comprising an end wall at each one of two terminal ends of the C-shaped housing, wherein one of the end walls comprises an opening large enough to manually detach and remove the grid therethrough when the gantry is rotated to a grid removal position. 2. The apparatus of claim 1 , further comprising a substantially vertical support column attached to the gantry and configured to controllably move the gantry vertically to a desired height position. 3. The apparatus of claim 2 , further comprising a rigid dual-forked support arm attached to the support column and to the gantry, the dual-forked support arm configured to controllably rotate the gantry about an axis perpendicular to the vertical support column. 4. The apparatus of claim 3 , further comprising a rotatable attachment assembly attached to the gantry and to the support arm, the rotatable attachment assembly configured to controllably rotate the gantry about an axis extending between two opposing ends of the dual-forked support arm. 5. The apparatus of claim 4 , further comprising an operator control disposed proximate one of the two terminal ends of the C-shaped housing, the operator control comprising controls operable by an operator to controllably actuate the support column, the dual-forked support arm, the rotatable attachment assembly, or a combination thereof. 6. The apparatus of claim 5 , further comprising an indicator to indicate an actuation of the support column, the dual-forked support arm, the rotatable attachment assembly, or a combination thereof. 7. The apparatus of claim 5 , wherein the operator control is configured to move the gantry, rotate the gantry, or a combination thereof, for a preset distance when the operator control is actuated. 8. The apparatus of claim 1 , wherein the gantry is configured to rotate the source and the detector at least 180 degrees about the imaging axis. 9. The apparatus of claim 1 , wherein the detector is removable, and wherein the opening in said one of the end walls is large enough to remove the detector therethrough when the gantry is rotated to a detector removal position. 10. The apparatus of claim 1 , further comprising a housing extension attached proximate to one of said end walls, the housing extension extensible from said one of said end walls to the other one of said end walls, wherein the housing extension is configured to enclose the source as the source rotates about the imaging axis. 11. An apparatus for cone beam computed tomography imaging of a subject, the apparatus comprising: a rotatable gantry; an x-ray source attached to the gantry; an x-ray detector attached to the gantry; a removable antiscatter grid attached proximate to the detector; a C-shaped housing enclosing the source, the detector, the grid, and the gantry, the C-shaped housing comprising an end wall at each one of two terminal ends of the C-shaped housing, wherein the gantry, the source and the detector are configured to rotate about an imaging axis, the source is configured to rotate along a source path, the detector is configured to rotate along a detector path, a length of the source path being longer than a length of the detector path, and wherein one of the end walls comprises an opening large enough to detach and remove the grid therethrough when the gantry is rotated to a grid removal position. 12. The apparatus of claim 11 , wherein the opening is large enough to replace the removed grid by inserting and reattaching the removed grid or a replacement grid therethrough when the gantry is rotated to a grid replacement position. 13. A method of operating a cone beam computed tomography apparatus, the method comprising: attaching an x-ray source to a rotatable gantry; attaching an x-ray detector to the rotatable gantry; attaching an antiscatter grid proximate to the detector; enclosing the gantry, the source, the detector, and the grid within a C-shaped housing; providing an opening at one end of the C-shaped housing; actuating the gantry to rotate the grid proximate to the one end of the C-shaped housing; and manually detaching and removing the grid through the opening. 14. The method of claim 13 , further comprising: actuating the gantry to rotate the detector proximate to the one end of the C-shaped housing; and manually detaching and removing the detector through the opening. 15. The method of claim 14 , further comprising: actuating the gantry to rotate the gantry to a detector replacement position; and manually inserting and reattaching the removed detector or a replacement detector through the opening. 16. The method of claim 13 , further comprising: actuating the gantry to rotate the detector proximate to the one end of the C-shaped housing; and manually inserting and reattaching the removed grid or a replacement grid through the opening.