Patent Number: 056299710
Section: claims

1. An apparatus for collecting transmission data associated with an object, said apparatus comprising: a radiation detector for detecting radiation and reporting image information;  a source of radiation for emitting transmission radiation through said object to said radiation detector;  a processor coupled to receive information from said radiation detector and coupled to control said source of radiation, said processor for controlling said source of radiation to perform a first transmission prescan over said object for a first duration and generating in response thereto a first count density information;  said processor for computing a second duration for a second transmission scan phase based on said first count density information; and  said processor for controlling said source of radiation to perform said second transmission scan phase over said object for said second duration and generating in response thereto a second count density information.  a scintillation detector for receiving radiation and reporting image information;  a line source of radiation for emitting transmission radiation through said object to said scintillation detector;  a processor coupled to receive information from said scintillation detector and coupled to control said line source of radiation, said processor for controlling said line source of radiation to perform a first transmission prescan over said object for a first duration and generating in response thereto a first count density information;  said processor for computing a second duration for a second transmission scan phase based on said first count density information;  said processor for controlling said line source of radiation to perform said second transmission scan phase over said object for said second duration and generating in response thereto a second count density information, said second duration representing a minimum duration of exposure of said object required for generating said second count density information;  said processor for generating a set of attenuation correction factors based on said second count density information, said set of attenuation correction factors for use in correcting image data gathered by said scintillation detector during emission scanning; and  a memory unit coupled to store and provide access to said first and said second count density information.  a scintillation detector for receiving radiation and reporting image information;  a line source of radiation for emitting transmission radiation through said object to said scintillation detector;  a gantry structure for positioning said scintillation detector and said line source of radiation;  a computer system for acquiring and processing image information, said computer system coupled to said scintillation detector and coupled to control said line source of radiation, said computer system comprising a processor;  said processor for controlling said line source of radiation to perform a first transmission prescan over said object for a first duration and generating in response thereto a first count density information;  said processor for computing a second duration for a second transmission scan phase based on said first count density information;  said processor for controlling said line source of radiation to perform said second transmission scan phase over said object for said second duration and generating in response thereto a second count density information; and  said processor for generating a set of attenuation correction factors based on said second count density information, said set of attenuation correction factors for use in correcting image data gathered during emission scanning.  controlling said line source of radiation to perform a first transmission prescan over said object for a first predetermined duration and generating in response thereto a first count density information;  computing a second duration for a second transmission scan phase based on said first count density information; and  controlling said line source of radiation to perform said second transmission scan phase over said object for said second duration and generating in response thereto a second count density information.  analyzing said first count density information and determining a minimum observed count density in response thereto; and  computing said second duration according to the procedure: ##EQU7## wherein Ts is said second duration, Cm is said minimum observed count density value, Tp is said first predetermined duration, and Co is said minimum count density value.  obtaining a minimum count density value desired for each portion of a resultant count density distribution;  controlling said pair of radiation line sources to perform a first transmission prescan over said object for a first predetermined duration and generating in response thereto a first count density distribution;  computing a second duration for a second transmission scan phase based on said first count density distribution;  controlling said pair of radiation line sources to perform said second transmission scan phase over said object for said second duration and generating in response thereto said resultant count density distribution, said second duration representing a minimum duration of exposure of said object required to generate said second count density distribution; and  generating a set of attenuation correction factors based on said second count density information, said set of attenuation correction factors for use in correcting image data acquired during emission scanning.  analyzing said first count density distribution and determining a minimum observed count density value in response thereto wherein said minimum observed count density value corresponds to a portion of said object exhibiting maximum attenuation; and  computing said second duration according to the procedure: ##EQU8## wherein Ts is said second duration, Cm is said minimum observed count density value, Tp is said first predetermined duration, and Co is said minimum count density value. 2. An apparatus as described in claim 1 wherein said source of radiation is a scanning line source. 3. An apparatus as described in claim 1 wherein said radiation detector is a scintillation detector of a gamma camera. 4. An apparatus as described in claim 1 wherein said radiation detector is a pair of scintillation detectors and wherein said source of radiation is a pair of scanning line sources each configured to provide transmission radiation for a particular scintillation detector. 5. An apparatus as described in claim 1 further comprising a memory unit coupled to store and provide access to said first and said second count density information. 6. An apparatus as described in claim 1 wherein said processor is for computing a set of attenuation correction factors based on said second count density information, said set of attenuation correction factors used for correcting image data gathered by emission scanning of said radiation detector. 7. An apparatus as described in claim 1 wherein said second count density information is a distribution over different portions of said object and wherein said processor is for inputting a minimum count density, wherein said distribution contains at least said minimum count density for each portion of said object. 8. An apparatus as described in claim 7 wherein said processor is for analyzing said first count density information and determining a minimum observed count density in response thereto, wherein said minimum observed count density corresponds to a portion of said object exhibiting maximum attenuation. 9. An apparatus as described in claim 8 wherein said processor determines said second duration according to the procedure: ##EQU4## wherein Ts is said second duration, Cm is said minimum observed count density, Tp is said first duration, and Co is said minimum count density. 10. An apparatus for collecting transmission data associated with an object, said apparatus comprising: 11. An apparatus as described in claim 10 wherein said second count density information is a distribution over different portions of said object and wherein said processor is for inputting a minimum count density wherein said distribution contains at least said minimum count density for each portion of said object. 12. An apparatus as described in claim 11 wherein said processor is for analyzing said first count density information and determining a minimum observed count density in response thereto wherein said minimum observed count density corresponds to a portion of said object that exhibits maximum attenuation. 13. An apparatus as described in claim 12 wherein said processor determines said second duration according to the procedure: ##EQU5## wherein Ts is said second duration, Cm is said minimum observed count density, Tp is said first duration, and Co is said minimum count density. 14. A gamma camera system for collecting transmission data associated with an object, said gamma camera system comprising: 15. A gamma camera system as described in claim 14 wherein said computer system further comprises a memory unit and wherein said memory unit is coupled to store and provide access to said first and said second count density information. 16. A gamma camera system as described in claim 15 wherein said second count density information is a distribution over different portions of said object and wherein said processor is for inputting a minimum count density wherein said distribution contains at least said minimum count density for each portion of said object. 17. A gamma camera system as described in claim 16 wherein said processor is for analyzing said first count density information and determining a minimum observed count density in response thereto wherein said minimum observed count density corresponds to a portion of said object exhibiting maximum attenuation and wherein said processor determines said second duration according to the procedure: ##EQU6## wherein Ts is said second duration, Cm is said minimum observed count density, Tp is said first duration, and Co is said minimum count density. 18. In a nuclear camera system having a scintillation detector for receiving radiation and reporting image information; a line source of radiation for emitting transmission radiation through an object to said scintillation detector; and a computer system, a computer implemented method of collecting transmission data associated with said object, said method comprising the steps of: 19. A method as described in claim 18 further comprising the steps of generating a set of attenuation correction factors based on said second count density information, said set of attenuation correction factors for use in correcting image data acquired during emission scanning. 20. A method as described in claim 19 wherein said second count density information is a distribution over different portions of said object and further comprising the step of inputting a minimum count density wherein said distribution contains at least said minimum count density for each portion of said object. 21. A method as described in claim 20 wherein said step of computing a second duration comprises the steps of: 22. A method as described in claim 21 wherein said minimum observed count density corresponds to a portion of said object exhibiting maximum attenuation. 23. In a nuclear camera system having a pair of scintillation detectors for receiving radiation and reporting image information; a pair of radiation line sources each for emitting transmission radiation through an object to an associated scintillation detector; and a computer system, a computer implemented method of collecting transmission data associated with said object, said method comprising the steps of: 24. A method as described in claim 23 wherein said step of computing a second duration comprises the steps of: