Head and neck imager

What is claimed is: 1. An imaging system comprising: a digital radiation detector; a detector transport to move the digital radiation detector along at least a portion of a first curved path, the at least a portion of the first curved path extending at least partially around the head of a patient at a distance D 1 from a central axis of the first curved path; a radiation source; a radiation transport to move the radiation source along at least a portion of a second curved source path outside the first curved path, the second curved source path extending at least partially around the head of the patient and having a distance D 2 from the central axis greater than the distance D 1 ; wherein the digital radiation detector is configured to travel at least a portion of the first curved path, the radiation source is configured to travel at least a portion of the second curved source path, the distance D 2 is sufficiently long to allow sufficient radiation exposure of the head for a CBCT image capture by the digital radiation detector, and wherein the digital radiation detector is configured to obtain a plurality of 2D projection images over a range of image capture scan angles; a processor to reconstruct a 3D volume using more than one of the plurality of 2D projection images; and a substantially circular housing configured to contain the radiation source, the digital radiation detector, the radiation transport, and the detector transport, the substantially circular housing including an examination opening for placement of the head of the patient. 2. The imaging system of claim 1 , wherein the radiation transport and the detector transport each includes a mechanism to independently move the radiation source and the digital radiation detector further from, or closer to, the central axis. 3. The imaging system of claim 2 , wherein the radiation transport and the detector transport each include a mechanism to independently move the radiation source and the digital radiation detector parallel to the central axis. 4. The imaging system of claim 3 , further comprising a patient transport comprising a base and a platform to support the patient in a horizontal prone position, the platform being rotatable in a horizontal plane with respect to the base of the patient transport. 5. The imaging system of claim 4 , wherein the patient transport further comprises an extension mechanism to extend the platform in the horizontal plane in a direction away from the base of the patient transport. 6. The imaging system of claim 1 , further comprising a wheeled transport cart configured to support the substantially circular housing, the wheeled transport cart for manually transporting the substantially circular housing over a floor. 7. An imaging system comprising: a vertical height adjustable and tiltable gantry; a digital radiation detector attached to the gantry; a detector transport attached to the gantry and configured to move the digital radiation detector along at least a portion of a first curved path, the first curved path extending at least partially around the head of a patient placed at a central axis of the first curved path, the digital radiation detector disposed at a distance D 1 from the central axis; at least one radiation source; a radiation transport to move the at least one radiation source along at least a portion of a second curved source path outside the first curved path, the second curved source path extending at least partially around the head of the patient and having a distance D 2 from the central axis greater than the distance D 1 , wherein the digital radiation detector is configured to travel along at least a portion of the first curved path, the at least one radiation source is configured to travel along at least a portion of the second curved source path, and wherein the distance D 2 is sufficiently long to allow sufficient radiation exposure of the patient for capturing a plurality of 2D projection images of the head of the patient by the digital radiation detector; a processor to reconstruct a 3D volume using more than one of the plurality of 2D projection images; and a substantially circular housing configured to contain the gantry, the substantially circular housing including an examination opening for placement of the head of the patient. 8. The imaging system of claim 7 , wherein the radiation transport and the detector transport each includes a mechanism to independently move the at least one radiation source and the digital radiation detector further from, or closer to, the central axis. 9. The imaging system of claim 8 , wherein the radiation transport and the detector transport each includes a mechanism to independently move the at least one radiation source and the digital radiation detector parallel to the central axis. 10. The imaging system of claim 9 , further comprising a patient transport comprising a base and a platform to support the patient in a horizontal prone position, the platform being rotatable in a horizontal plane with respect to the base of the patient transport. 11. The imaging system of claim 10 , wherein the patient transport further comprises an extension mechanism to extend the platform in the horizontal plane in a direction away from the base of the patient transport. 12. The imaging system of claim 7 , further comprising a wheeled transport cart configured to support the substantially circular housing, the wheeled transport cart for manually transporting the substantially circular housing over a floor. 13. An imaging system comprising: a support column; a rotatable support arm attached to the support column, the rotatable support arm having a central rotation axis; a digital radiation detector having a substantially planar shape attached to the support column, the digital radiation detector positioned such that the head of a patient may be place above and proximate to a top planar surface of the digital radiation detector; and a radiation source attached to the rotatable support arm to move along at least a portion of a curved source path, the curved source path extending at least partially around the head of the patient and positioned further from the head of the patient than the digital radiation detector, the radiation source aimed at the top planar surface of the digital radiation detector, wherein the radiation source is configured to rotate with respect to the rotatable support arm such that the radiation source remains aimed at the top planar surface of the digital radiation detector when the rotatable support arm is rotated. 14. The imaging system of claim 13 , wherein the radiation source is configured to move inward or outward from the central rotation axis. 15. The imaging system of claim 14 , further comprising a patient transport for positioning the head of the patient proximate the top planar surface of the digital radiation detector, the patient transport comprising a base and a platform to support the patient in a horizontal prone position, the platform being rotatable in a horizontal plane with respect to the base of the patient transport. 16. The imaging system of claim 15 , wherein the patient transport further comprises an extension mechanism to extend the platform in the horizontal plane in a direction away from the base of the patient transport. 17. The imaging system of claim 13 , wherein the rotatable support arm is configured to capture images of the head of the patient at different angles without movement of the digital radiation detector. 18. The imaging system of claim