X-ray or gamma ray systems or devices – Specific application – Absorption
Reexamination Certificate
2002-05-16
2004-06-15
Bruce, David V. (Department: 2882)
X-ray or gamma ray systems or devices
Specific application
Absorption
C378S098000, C378S098200
Reexamination Certificate
active
06751286
ABSTRACT:
BACKGROUND
The invention relates to a computed-tomography system comprising a data-processing system.
In general, a computed-tomography system comprises an x-ray source and an x-ray detector which can be rotated around an object to be examined, notably a patient to be examined. From several orientations the object is irradiated with an x-ray beam from the x-ray source. At these respective orientations the x-ray detector receives x-radiation that has passed through the object and forms a attenuation profile for the orientation at issue. The attenuation profiles represent the attenuation of incident x-rays in the object, notably due to scattering of x-rays and absorption of x-rays along the path of the x-rays through the object at the orientation at issue.
Such a computed-tomography system is known from the U.S. Pat. No. 5,416,815.
The data-processing system of the known computed-tomography system is arranged to reconstruct slice images from projection data which form the attenuation profiles. The attenuation profiles are adaptively filtered in order to avoid streak-like artefacts in the reconstructed slice images. The adaptive filter of the known computed-tomography system is adjusted in dependence of the signal level of the attenuation profile at issue.
SUMMARY
An object of the invention is to provide a computed-tomography system in which the diagnostic quality of the reconstructed slice images is further improved.
This object is achieved by a computed-tomography system according to the invention wherein the data-processing system is arranged to
receive attenuation profiles for respective orientations
determine a lowest representative noise level of the individual attenuation profiles and
filter the attenuation profiles in dependence of said lowest representative noise level.
The data-processor of the computed-tomography system according to the invention reduces propagation of noise in the attenuation profiles into slice images reconstructed from the filtered attenuation profiles. Notably, the contrast resolution of the reconstructed slice images is increased by the filtering. Consequently, the diagnostic quality of the reconstructed slice image is improved in that small details having little contrast are rendered well visible in a display of the reconstructed slice images.
Preferably, the filtered attenuation profiles have substantially equal noise levels. This may for example be achieved in that the filtered attenuation profiles have a noise level that equals the lowest of the representative noise levels in the individual attenuation profiles received by the data-processing system.
More preferably, the maximum noise level in the individual attenuation profile is used as the representative noise level of the individual attenuation profiles. In this way, the filtered attenuation profiles all have the lowest of the maximum noise level occurring in the received attenuation profiles. Then in the reconstruction of the slice images, such as by a filtered back-projection applied to the filtered attenuation profiles the contrast resolution is improved. Although the filtering of the attenuation profiles causes a slight deterioration of the spatial resolution, the contrast resolution is more improved than the amount by which spatial resolution becomes worse.
Advantageously, the representative noise level, such as the maximum noise level of the individual attenuation profiles is derived from the attenuation value of the attenuation profile at issue. Notably, the noise level is mainly determined by the Poisson-like x-ray shot noise. Especially at low x-ray intensities x-ray shot noise dominates the noise in the attenuation profiles. Owing to the Poisson-nature of the noise, the noise level can be determined from the attenuation value of the attenuation profile at issue. This attenuation value is the ratio of the x-ray intensity having passed through the object, such as the patient to be examined, to the incident x-ray intensity. In practice accurate values for the attenuation value are obtained by averaging this ratio of the attenuation profile at issue. It is noted that the attenuation values of respective profiles are compared relative to one another and the absolute attenuation level relative to the actual incident X-ray intensity is not required. For example, the attenuation value of several attenuation profiles at respective positions in the object may be derived from an explorative x-ray image, such as the so-called scanogram, which is formed before the acquisition of the attenuation profiles.
The invention also relates to a computed-tomography method as defined in claim
5
. The computed-tomography method according to the invention increases the contrast resolution of the reconstructed slice images by the filtering.
The invention further relates to a computer programme as defined in claim
6
. The computer programme according to the invention may be loaded, i.e. install the software, into the working memory of a computed tomography system. Hence, that computed tomography system is enabled to increase the contrast resolution by employing the method as defined in claim
5
. It is noted that computed-tomography systems are in general arranged to receive the attenuation profiles so that instructions for receiving the attenuation need in general not be supplied together with the instructions aimed at increase the contrast resolution. However, of course, when complete software is installed also instruction pertaining to the acquisition of the attenuation profiles is involved.
REFERENCES:
patent: 4707786 (1987-11-01), Dehner
patent: 5416815 (1995-05-01), Hsieh
patent: 5708693 (1998-01-01), Aach et al.
patent: 5818900 (1998-10-01), Vogelsong et al.
patent: 6141399 (2000-10-01), Tsujii
patent: 198 53 143 (1999-06-01), None
Bruce David V.
Koninklijke Philips Electronics , N.V.
Lundin, Esq. Thomas M.
Song Hoon
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