2002
DOI: 10.1118/1.1488603
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Vessel size measurements in angiograms: A comparison of techniques

Abstract: As interventional procedures become more complicated, the need for accurate quantitative vascular information increases. In response to this need, many commercial vendors provide techniques for measurement of vessel sizes, usually based on derivative techniques. In this study, we investigate the accuracy of several techniques used in the measurement of vessel size. Simulated images of vessels having circular cross sections were generated and convolved with various focal spot distributions taking into account t… Show more

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Cited by 28 publications
(29 citation statements)
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“…This technique proved accurate as long as the vessel diameter was not smaller than the full width at half maximum of the CT images. 25 Selection of the VOF was similar to the selection of the AIF, though now the ROIs were placed over large veins (sagittal sinus) that were approximately perpendicular to the imaging plane. Because the vessel center can be considered least affected by partial volume, the AUC was estimated by fitting a Gaussian curve to the time-attenuation curve of the pixel determined to be at the center.…”
Section: Image Analysismentioning
confidence: 99%
See 1 more Smart Citation
“…This technique proved accurate as long as the vessel diameter was not smaller than the full width at half maximum of the CT images. 25 Selection of the VOF was similar to the selection of the AIF, though now the ROIs were placed over large veins (sagittal sinus) that were approximately perpendicular to the imaging plane. Because the vessel center can be considered least affected by partial volume, the AUC was estimated by fitting a Gaussian curve to the time-attenuation curve of the pixel determined to be at the center.…”
Section: Image Analysismentioning
confidence: 99%
“…17 The content of each region of interest in the raw data was examined to determine the artery diameter and center. The diameter and center were estimated by using a threshold technique, 25 allowing grouping in artery types: ICA (diameter Ն4 mm), MCA (2-3 mm), and smaller arteries (1-2 mm) such as small MCA and anterior cerebral artery vessels. This technique proved accurate as long as the vessel diameter was not smaller than the full width at half maximum of the CT images.…”
Section: Image Analysismentioning
confidence: 99%
“…The measured diameters of the imaged stenoses were determined using a relatively simple 2D approach and compared to the known values, with the most accurate technique found to be MRI, followed by US, CT and DSA. The reader is referred to Hoffmann et al for a discussion of more complex methods for determining vessel diameters in DSA images, which has been found to improve the accuracy of this technique [23]. There was a general trend for the modalities to perform worse as the degree of stenosis increased.…”
Section: Diameter Measurements 375mentioning
confidence: 99%
“…We corrected for this vessel thickness modulation using the width of the projected vessel to determine the thickness. The vessel thicknesses were estimated using a threshold-based method 48 and an approach similar to Clough et al 45 Briefly, a minimum intensity projection of the DSA images was filtered and thresholded to extract the contrastfilled vessels. A distance transform was performed to find the distance of each pixel in the vessel from the nearest vessel boundary, and skeletonization was performed to locate the pixels on the central axes of the vessels.…”
Section: Iie Svd Flow Metric Vessel Thickness Correction and Experimentioning
confidence: 99%