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A gamma camera device includes a collimator with pinholes which surrounds an object space for receiving an object, a detector surface for detecting gamma radiation emitted by the object and passing through pinholes of the collimator, and a controller for processing the detector signals into an image

A gamma camera device includes a collimator with pinholes which surrounds an object space for receiving an object, a detector surface for detecting gamma radiation emitted by the object and passing through pinholes of the collimator, and a controller for processing the detector signals into an image of the object. The collimator and the object space have a common longitudinal axis, wherein the collimator includes a plurality of groups each of multiple pinholes with a central line. In each group, the pinholes lie in a plane perpendicular to the longitudinal axis, wherein the pinholes of the groups together see a focus volume, which focus volume has a geometric center. Within each group, on a rotation around said longitudinal axis, the respective central line of each of said pinholes becomes congruent with the central line of each of the other pinholes of the group.

대표청구항 ▼

1.-12. (canceled) 13. A gamma camera device for producing an image of an object by means of gamma radiation, comprising: a collimator with pinholes, the collimator extending about an object space configured for receiving the object;a detection device with at least one detector having a detector surf

1.-12. (canceled) 13. A gamma camera device for producing an image of an object by means of gamma radiation, comprising: a collimator with pinholes, the collimator extending about an object space configured for receiving the object;a detection device with at least one detector having a detector surface for detecting, as detector signals, gamma radiation emitted by the object and passing through pinholes of the collimator; anda controller configured for processing the detector signals into said image of the object,wherein the collimator and the object space have a common longitudinal axis with a longitudinal direction,wherein the collimator comprises a plurality of groups of pinholes, each group composed of multiple pinholes, each pinhole having a central line,wherein for each of said groups, the pinholes lie in a plane perpendicular to the longitudinal axis,wherein the pinholes of said groups together see a focus volume, the focus volume having a geometric center, andwherein within each of said groups, the respective central line of each of said pinholes passes said longitudinal axis at a distance therefrom, and on a rotation around said longitudinal axis, the central line becomes congruent with the central line of each of the other pinholes of said group. 14. The gamma camera device according to claim 13, wherein of a first group of said groups, viewed from the respective pinhole, the respective central line in each case passes said geometric center to the right thereof, and the respective central line of the second group of said groups, viewed from the respective pinhole, in each case passes said geometric center to the left thereof. 15. The gamma camera device according to claim 14, comprising multiple of said first groups and/or multiple of said second groups. 16. The gamma camera device according to claim 15, wherein the first groups and the second groups alternate with one another viewed in said longitudinal direction, such that one second group is arranged between a pair of first groups. 17. The gamma camera device according to claim 13, wherein the central lines of both one or each said first group and of one or each said second group pass said geometric center at a distance not equal to zero. 18. The gamma camera device according to claim 15, wherein the central lines of both one or each said first group and of one or each said second group pass said geometric center at a distance not equal to zero, and wherein said distance differs for at least two of the first groups and/or for at least two of the second groups. 19. The gamma camera device according to claim 13, wherein each of said groups is rotationally symmetrical around said longitudinal axis. 20. The gamma camera device according to claim 13, wherein the collimator comprises one or more annular collimator parts, each with one or more of said groups. 21. The gamma camera device according to claim 13, furthermore comprising a supplementary group of pinholes, wherein the respective central lines of said supplementary group intersect said geometric center. 22. The camera device according to claim 13, further comprising precisely one supplementary group of pinholes, wherein the respective central lines of said supplementary group intersect said geometric center, 23. The camera device according to claim 22, wherein all central lines of said supplementary group lie in a plane perpendicular to the longitudinal axis. 24. The gamma camera device according to claim 13, wherein the device is configured for rotation of the collimator about the longitudinal axis. 25. A collimator for imaging of an object by means of gamma radiation emitted by the object, wherein the collimator has pinholes and is configured to extend about an object space configured for receiving the object, wherein the collimator and the object space have a common longitudinal axis with a longitudinal direction,wherein the collimator comprises a plurality of groups of pinholes, each group composed of multiple pinholes, each pinhole having a central line,wherein for each of said groups, the pinholes lie in a plane perpendicular to the longitudinal axis,wherein the pinholes of said groups together see a focus volume, the focus volume having a geometric center,wherein within each of said groups, the respective central line of each of said pinholes passes said longitudinal axis at a distance therefrom, and on a rotation around said longitudinal axis, the central line becomes congruent with the central line of each of the other pinholes of said group. 26. A method for imaging of an object by means of gamma radiation emitted by said object, comprising using the gamma camera device according to claim 13.