An imaging system for imaging a living organism that is treated with a radionuclide emitting positrons is provided. A portion of the emitted positrons create photons within said living organism. The living organism is placed between first and second detection systems, which are diametrically opposed
An imaging system for imaging a living organism that is treated with a radionuclide emitting positrons is provided. A portion of the emitted positrons create photons within said living organism. The living organism is placed between first and second detection systems, which are diametrically opposed. The first and second detection systems are comprised of a plurality of position sensitive detectors. A portion of said photons are detected within said detection systems. A multi-channel readout system is coupled to the position sensitive detectors. A display system is coupled to the multi-channel readout system and includes a processor which determines directions of the portion of said photons.
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What is claimed is: 1. An imaging system for imaging a living organism, said living organism treated with a radionuclide emitting positrons, a portion of said emitted positrons creating photons within said living organism, said system comprising: a first and a second detection systems, said living
What is claimed is: 1. An imaging system for imaging a living organism, said living organism treated with a radionuclide emitting positrons, a portion of said emitted positrons creating photons within said living organism, said system comprising: a first and a second detection systems, said living organism placed between said first and second detection systems, wherein said first and second detection systems are diametrically opposed, wherein said first and second detection systems are comprised of a plurality of position sensitive detectors, and wherein a portion of said photons are detected within said detection systems; a multi-channel readout system coupled to said plurality of position sensitive detectors; a display system coupled to multi-channel readout systems, said display system including a processor, said processor determining directions of said portion of said photons; and said display system displaying an image of said living organism. 2. The imaging system of claim 1, wherein at least one pair of the first and second detection systems are placed on a circumference of a circular track surrounding the living organism. 3. The imaging system of claim 2, having a rotation system coupled to at least one pair of said first and second detection systems for rotating said pair of detection systems around the said living organism. 4. The imaging system of claim 3, said rotation system is coupled to said living organism for rotating said living organism relative to at least one pair of said first and second detection systems. 5. The imaging system of claim 1, wherein a portion of the said living organism is imaged. 6. The imaging system of claim 1, wherein a portion of the said living organism is treated by the said radionuclide. 7. The imaging system of claim 1, wherein the said radionuclide is a radiopharmaceutical. 8. The imaging system of claim 1, wherein the said directions for said portion of said photons are determined using creation geometry of two positron annihilation photons. 9. The imaging system of claim 1, wherein the said position sensitive detectors determine an entry position of a photon. 10. The imaging system of claim 1, wherein the position sensitive detectors determine energy of a photon. 11. The imaging system of claim 1, wherein a portion of photons make at least one Compton scatter in the detection systems. 12. The imaging system of claim 11, wherein a portion of the said plurality of position sensitive detectors detect at least first Compton scatter of the portion of photons. 13. The imaging system of claim 11, wherein a portion of the said plurality of position sensitive detectors detect at least last Compton scatter of the said portion of photons. 14. The imaging system of claim 1, wherein a processor determines direction of a portion of said photons using Compton scatter technique. 15. The imaging system of claim 1, wherein the photons are simultaneously created in pairs. 16. The imaging system of claim 15, wherein the said pairs of photons are detected in coincidence by the detection systems. 17. The imaging system of claim 1, further comprising passive septa interposed between said position sensitive detectors. 18. The imaging system of claim 1, wherein said image and information are produced in real time. 19. An imaging system for imaging an object using a photon source, said system comprising: a detector aperture, said aperture limiting said detector to a predetermined field-of-view; a detection system comprised of a plurality of position sensitive detectors, wherein a portion of said photons pass through said aperture into said detection system and detected with position information; a multi-channel readout system coupled to said plurality of position sensitive detectors; a processor coupled to said multi-channel readout system; and an output device coupled to said multi-channel readout system, said output device outputting information corresponding to said portion of gamma rays, wherein a portion of the information is displayed as an image of the said object. 20. The imaging system of claim 19, having a rotation system coupled to said detection system for rotating said detection system with respect to the object. 21. The imaging system of claim 20, said rotation system coupled to said object for rotating said object relative to detection system. 22. The imaging system of claim 19, wherein said photon source is distributed within the said object and photons emitted from said object. 23. The imaging system of claim 19, wherein said object is placed between said photon source and said detection system. 24. The imaging system of claim 23, wherein said photon source is a point source. 25. The imaging system of claim 24, wherein the directions of said portion of photons are determined using the position of the said point source and the position of said portion of photons detected by said position sensitive detectors. 26. The imaging system of claim 19, wherein at least one image is made at a different energy spectrum.
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