System and method for medical imaging

What is claimed is: 1. An imaging system comprising: a gantry, with a bore therethrough; a rotary member attached to the gantry, wherein the rotary member rotates around an axis of the bore; a first pair of opposing first image detector units attached to the rotary member, wherein each first image detector unit comprises a plurality of gamma cameras in a step-staggered arrangement; a second pair opposing straight detector units attached to the rotary member, wherein each of the straight detector units comprises one or more gamma cameras arranged in a line; and wherein the scanning axis of the two opposing straight detector units is perpendicular to the scanning axis of the two step-staggered detector units; and wherein the system rotates the detector units around the circumference of the bore during an imaging operation. 2. The imaging system of claim 1 , wherein the plurality of gamma cameras in the first image detector units are adjacently positioned such that gaps between gamma cameras in a detector unit are less than 1 millimeter. 3. The imaging system of claim 2 , wherein at least one gap is lubricated. 4. The imaging system of claim 1 , wherein each gamma camera comprises a CZT module and a collimator. 5. The imaging system of claim 1 , further comprising an image reconstruction module; wherein the step-staggered first detector units and straight detector units output scan data to the image reconstruction module; and wherein, for each voxel of the scan data, if the voxel is within an area continuously scanned by all detector units, the image reconstruction module reconstructs the voxel using data from all detector units, and if the voxel is within an area not continuously scanned by all detector units, the image reconstruction module reconstructs the voxel using scan data solely from the step-staggered first detector units. 6. The imaging system of claim 1 , wherein the detector units output scan data to an image reconstruction module; the image reconstruction module reconstructs the scan data into an image and outputs the image to a display, printer, storage memory, or network. 7. The imaging system of claim 1 , wherein each detector unit detects positron emission tomography (PET) data. 8. The imaging system of claim 1 , wherein each gamma camera comprises an image detection module, an image detection material, and a collimator. 9. The imaging system of claim 1 , wherein at least one gamma camera is set as inactive for an imaging scan. 10. An imaging system, comprising: a gantry, with a bore therethrough; a rotary member attached to the gantry; a plurality of first image detectors, each attached to the rotary member by a detector arm, wherein each detector arm can extend and retract a first image detector in relation to the rotary member; wherein, in an extended mode, the plurality of first image detectors form a pair of opposing step-staggered detector units; a plurality of second image detectors, each attached to the rotary member by a detector arm, wherein each detector arm can extend and retract a second image detector in relation to the rotary member; wherein, in an extended mode, the plurality of additional image detectors form a pair of opposing straight detector units; and wherein the scanning axis of the plurality of first detector units is perpendicular to the scanning axis of the plurality of second detector units; and wherein the system rotates the image detectors during an imaging operation. 11. The imaging system of claim 10 , wherein each image detector comprises a CZT module and a collimator. 12. The imaging system of claim 10 , wherein the plurality of first image detectors comprises at least six image detectors. 13. The imaging system of claim 10 , further comprising an image reconstruction module; wherein the step-staggered plurality of first detector units and straight plurality of second detector units output scan data to the image reconstruction module; and wherein, for each voxel of the scan data, if the voxel is within an area continuously scanned by all detectors, the image reconstruction module reconstructs the voxel using data from all detectors, and if the voxel is within an area not continuously scanned by all detectors, the image reconstruction module reconstructs the voxel using scan data solely from the step-staggered plurality of first detectors. 14. The imaging system of claim 10 , wherein the image detectors output scan data to an image reconstruction module; the image reconstruction module reconstructs the scan data into an image; and the system outputs the image to a display, printer, storage memory, or network. 15. The imaging system of claim 10 , wherein each image detector detects single photon emission computed tomography (SPECT) data. 16. The imaging system of claim 10 , wherein each image detector detects positron emission tomography (PET) data. 17. The imaging system of claim 10 , wherein at least one image detector is set as inactive for an imaging scan. 18. The imaging system of claim 10 , wherein each image detector comprises an image detection module, an image detection material, and a collimator. 19. A non-transitory computer readable storage medium having stored thereon a computer program comprising instructions, which, when executed by a computer, cause the computer to: receive scan data from an opposing pair of step-staggered detector units and an opposing pair of straight detector units, wherein the two pairs of detector units have rotated around an object during a scan process; reconstruct the scan data into image data, wherein for each voxel of the scan data, if the voxel is within an area continuously scanned by all detector units, the computer reconstructs the voxel using data from all detector units, and if the voxel is within an area not continuously scanned by all detector units, the computer reconstructs the voxel using scan data solely from the step-staggered detector units; and output the image data to a display, printer, storage memory, or network. 20. The non-transitory computer readable storage medium of claim 19 , wherein each detector unit comprises a plurality of gamma cameras; and the plurality of gamma cameras in each detector unit are adjacently positioned such that gaps between gamma cameras in a detector unit are less than 1 millimeter.