Abstract: One aspect of the invention provides a phantom including a confined fluidic path defining a plurality of regions of monotonically decreasing, discrete cross-sectional dimensions with respect to an imaging plane. Another aspect of the invention provides a method of assessing imaging. The method includes: placing a phantom as described herein within an imaging system; flowing one or more fluids through the phantom; and capturing one or more images of the phantom. Another aspect of the invention provides a kit for assessing imaging. The kit includes a phantom as described herein and instructions for use.

Abstract: One aspect of the invention provides a phantom including a confined fluidic path defining a plurality of regions of monotonically decreasing, discrete cross-sectional dimensions with respect to an imaging plane. Another aspect of the invention provides a method of assessing imaging. The method includes: placing a phantom as described herein within an imaging system; flowing one or more fluids through the phantom; and capturing one or more images of the phantom. Another aspect of the invention provides a kit for assessing imaging. The kit includes a phantom as described herein and instructions for use.

Abstract: The invention is directed to a method and a device for separate three-dimensional presentation of arteries and/or veins of a vessel system in a part of the body of a vertebrate by a rotation computer tomography. A masking run of the tomograph is undertaken without contrast media around the part of the body. Then two filling runs with contrast media are executed, with the venous phase of vessel contrasting during the first filling run occurring during the arterial phase of vessel contrasting of the second filling run and vice-versa. The data from the first and second filling run is combined into data sets from the arterial or the venous phases of the vessel contrasting of the filling runs. The data of the masking run is subtracted from the combined data sets to obtain final data sets for a three-dimensional presentation of the arterial or the venous vessel system.

Abstract: Disclosed are methods for reconstructing a three-dimensional image of an object's volume of interest using computed tomography that employs conical-beam, intensity-modulated projections of this object. In one embodiment, a plurality of collimating devices serves to modulate the aperture of the radiation source thereby acting to modulate the intensity of the source upon the object. Also provided are image processing devices, examination apparatus, as well as a computer-readable medium and a program element adapted and configured to perform aspects of the methods disclosed herein.

Abstract: The invention is directed to a method and a device for separate three-dimensional presentation of arteries and/or veins of a vessel system in a part of the body of a vertebrate by a rotation computer tomography. A masking run of the tomograph is undertaken without contrast media around the part of the body. Then two filling runs with contrast media are executed, with the venous phase of vessel contrasting during the first filling run occurring during the arterial phase of vessel contrasting of the second filling run and vice-versa. The data from the first and second filling run is combined into data sets from the arterial or the venous phases of the vessel contrasting of the filling runs. The data of the masking run is subtracted from the combined data sets to obtain final data sets for a three-dimensional presentation of the arterial or the venous vessel system.