Computational morphology of the lung and its virtual imaging

Kitaoka, Hiroko

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Volume 44, Issue 3 , Pages 164-171, December 2002

Computational morphology of the lung and its virtual imaging

Division of Physiologic Imaging, Department of Radiology, University of Iowa College of Medicine, 200 Hawkins Drive, Iowa City, IA 52240, USA

Received 5 September 2002; received in revised form 6 September 2002; accepted 9 September 2002.

Abstract

The author proposes an entirely new approach called ‘virtual imaging’ of an organ based on ‘computational morphology’. Computational morphology describes mathematically design as principles of an organ structure to generate the organ model via computer, which can be called virtual organ. Virtual imaging simulates image data using the virtual organ. The virtual organ is divided into cubic voxels, and the CT value or other intensity value for each voxel is calculated according to the tissue properties within the voxel. The validity of the model is examined by comparing virtual images with clinical images. Computational image analysis methods can be developed based on validated models. In this paper, computational anatomy of the lung and its virtual X-ray imaging are introduced.

Keywords: Computer, Morphology, Virtual imaging, 3D model, Simulation, Lung