Abstract
We compared three-dimensional (3D) CT images of stabbing victims subjected to volume-rendering (VR) or global illumination-rendering (GIR), a new technique now available for the reconstruction of 3D CT images. It simulates the complete interactions of photons with the scanned object, thereby providing photorealistic images. The diagnostic value of the images was also compared with that of macroscopic photographs. We used postmortem 3D CT images of 14 stabbing victims who had undergone autopsy and CT studies. The 3D CT images were subjected to GIR or VR and the 3D effect and the smoothness of the skin surface were graded on a 5-point scale. We also compared the 3D CT images of 37 stab wounds with macroscopic photographs. The maximum diameter of the wounds was measured on VR and GIR images and compared with the diameter recorded at autopsy. The overall image-quality scores and the ability to assess the stab wounds were significantly better on GIR than VR images (median scores: VR = 3 vs GIR = 4, p < 0.01). The mean difference between the wound diameter measured on VR and GIR images and at autopsy were both 0.2 cm, respectively. For the assessment of stab wounds, 3D CT images subjected to GIR were superior to VR images. The diagnostic value of 3D CT GIR image was comparable to that of macroscopic photographs.
Highlights
We compared three-dimensional (3D) CT images of stabbing victims subjected to volume-rendering (VR) or global illumination-rendering (GIR), a new technique available for the reconstruction of 3D CT images
Under the hypothesis that the diagnostic value of postmortem 3D images subjected to GIR and of macroscopic photographs is comparable and that GIR helps in the investigation of stab wounds on the body surface, we evaluated their diagnostic utility
They were significantly higher for GIR images with respect to the 3D effect and the smoothness of the skin surface
Summary
We compared three-dimensional (3D) CT images of stabbing victims subjected to volume-rendering (VR) or global illumination-rendering (GIR), a new technique available for the reconstruction of 3D CT images. It simulates the complete interactions of photons with the scanned object, thereby providing photorealistic images. The global illumination rendering (GIR) technique, widely used by the film industry, video games, lighting engineering, and flight simulators, is available to reconstruct 3D CT images in the medical field[3,6,7,8,9,10,11,12,13,14] Because it can simulate complete interactions of photons with the scanned object, thereby providing photorealistic. Images and improving the visualization of fine details, it is superior to the conventional volume rendering (VR) technique[6,7,9]
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