IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0067383
(2006-09-19)
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등록번호 |
US-8238513
(2012-08-07)
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국제출원번호 |
PCT/US2006/036550
(2006-09-19)
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§371/§102 date |
20080319
(20080319)
|
국제공개번호 |
WO2007/035775
(2007-03-29)
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발명자
/ 주소 |
|
출원인 / 주소 |
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인용정보 |
피인용 횟수 :
3 인용 특허 :
7 |
초록
▼
An imaging system and method for producing an image based on primary radiation. A separate image based solely on scattered radiation may also be obtained and may be of practical interests. The separation of primary and scattered radiation is achieved by utilizing a small beam exposure and a cone bea
An imaging system and method for producing an image based on primary radiation. A separate image based solely on scattered radiation may also be obtained and may be of practical interests. The separation of primary and scattered radiation is achieved by utilizing a small beam exposure and a cone beam exposure, then the primary and scatter images are reconstructed based on a pencil beam model or from a Monte Carlo method. Other embodiments disclosed include two-layer detector arrays or volumetric detector arrays that measure the relationship between the dose and the position, from which the primary and scattered radiation can be extracted. In addition, by limiting a readout time of a detector, primary radiation component may be read because of a delay in the scattered radiation.
대표청구항
▼
1. An imaging system configured to construct a Computed Tomography (CT) image of an internal structure of an object based on a primary radiation, wherein the imaging system is configured to separate the primary radiation from a scattered radiation based on a mathematical model, the imaging system co
1. An imaging system configured to construct a Computed Tomography (CT) image of an internal structure of an object based on a primary radiation, wherein the imaging system is configured to separate the primary radiation from a scattered radiation based on a mathematical model, the imaging system comprising: a computer configured to calculate a scatter-to-primary ratio (SPR) based on the mathematical model to thereby: separate of the primary radiation from the scattered radiation using the SPR in the mathematical model; andconstruct a CT image based on the primary radiation derived from the mathematical model,wherein the mathematical model is built upon that the primary radiation propagates in a way different from the scattered radiation; anda detector configured to detect radiation intensities in a first position and in a second position, wherein the detector comprises two layers of flat-panel X-ray detector arrays disposed respectively at the first position and the second position and configured to measure a decreasing radiation flux versus distance. 2. The imaging system of claim 1, wherein the mathematical model comprises at least one of a Monte Carlo algorithm, or an analytical pencil beam model that uses a narrow beam to predict the primary radiation of a wide-beam X-ray radiation. 3. The imaging system of claim 1, wherein the mathematical model includes a description of SPR(r,d)=Kμz, where r is a radius, d is a depth, μ is a linear attenuation coefficient for primary photons, z=rd/(r+d), and K is a coefficient that depends on μ. 4. The imaging system of claim 1, wherein the mathematical model is characterized in that the primary radiation has a decreasing flux versus distance as governed by an inverse-squared law. 5. The imaging system of claim 1, wherein a space between the two layers of flat-panel X-ray detector arrays is filled with a material with specified properties. 6. The imaging system of claim 5, wherein the material comprises at least one of air, water, solid water, plastic, or rubber. 7. The imaging system of claim 1, wherein the mathematical model is configured to use iteration of an output CT image as an input density map to Monte Carlo simulations, to generate a more accurate density map image. 8. The imaging system of claim 1, wherein the detector comprises a is configured as a two-layer detector array. 9. The imaging system of claim 1, wherein the detector comprises a 3-dimensional volumetric detector array including the two layers. 10. The imaging system of claim 1, wherein at least a portion of the detector is configured to move along the direction of the primary radiation. 11. The imaging system of claim 1, further comprising a timing device configured to turn on a detecting element for a short period such that the detecting element detects only primary radiation. 12. The imaging system of claim 1, wherein the detector is configured to selectively read an output from a first selected detecting element to obtain a primary radiation reading and a second selected detecting element to obtain a scattered radiation reading. 13. The imaging system of claim 1, wherein the imaging system is further configured to generate a CT image based on the scattered radiation. 14. The imaging system of claim 1, further comprising a blocking device including a multi-leaf collimator. 15. The imaging system of claim 14, wherein the multi-leaf collimator is configured to generate both a narrow beam and a wide beam, and wherein the narrow beam comprises at least one of a pencil beam or a fan beam, and wherein the wide beam comprises a cone beam. 16. A non-transitory computer-readable medium having instructions stored thereon and configured to construct Computed Tomography (CT) images from data obtained from a CT system, wherein the CT system comprises a radiation source configured to transmit a cone-beam of X-rays, and a detection system including at least two detecting elements located at different distances from the radiation source and configured to measure X-ray radiation doses at different distances, the instructions comprising: deriving, from the measured X-ray radiation doses and using a mathematical model, a scatter-to-primary ratio (SPR) of the X-ray radiation doses as a function of position;separating primary and scattered components of the measured X-ray radiation doses based on the derived SPR;constructing a first set of CT images with the primary component; andconstructing a second set of CT images with the scattered component.
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