Medical model is a material model of human body part, used for better visualization or surgery planning. It may be produced by Rapid Prototyping method, based on data obtained during medical imaging (computer tomography--CT, magnetic resonance--MR). Important problem is to provide proper spatial accuracy of the model, influenced by imaging accuracy of CT and MR scanners. The aim of the study is the accuracy analysis of CT imaging for medical modeling purposes on the example of Siemens Sensation 10 scanner. Using stereolithography technique a physical pattern--phantom in the form of grating was produced. The phantom was measured by a Coordinate Measuring Machine Leitz PMM 12106 to consider production process inaccuracy. Then the phantom was examined using CT scanner Siemens Sensation 10. Phantom measurement error distribution was determined, based on the data obtained. Maximal measurement error, considering both phantom production inaccuracy and CT imaging inaccuracy was +/- 0.87 mm, while considering only CT imaging inaccuracy was not exceeding 0.28 mm. CT acquisition process is by itself the source of measurement errors. So to provide high quality of medical models produced by Rapid Prototyping methods, it is necessary to perform accuracy measurements for every CT scanner used for obtaing data serving as the base for model production.