Comparative Imaging Study in Ultrasound, MRI, CT and DSA Using a Multi-Modality Renal Artery Phantom
Document Type
Article
Rights
Available under a Creative Commons Attribution Non-Commercial Share Alike 4.0 International Licence
Abstract
A range of anatomically realistic multimodality renal artery phantoms consisting of vessels with varying degrees of stenosis was developed and evaluated using four imaging techniques currently used to detect renal artery stenosis (RAS). The spatial resolution required to visualize vascular geometry and the velocity detection performance required to adequately characterize blood flow in patients suffering from RAS are currently ill-defined, with the result that no one imaging modality has emerged as a gold standard technique for screening for this disease.
Methods:
The phantoms, which contained a range of stenosis values (0%, 30%, 50%, 70%, and 85%), were designed for use with ultrasound,magnetic resonance imaging,x-raycomputed tomography, and x-raydigital subtraction angiography. The construction materials used were optimized with respect to their ultrasonic speed of sound and attenuation coefficient, MR relaxometry(T1,T2)properties, and Hounsfield number/x-ray attenuation coefficient, with a design capable of tolerating high-pressure pulsatile flow. Fiducial targets, incorporated into the phantoms to allow for registration of images among modalities, were chosen to minimize geometric distortions.
Results:
High quality distortion-free images of the phantoms with good contrast between vessel lumen, fiducial markers, and background tissue to visualize all stenoses were obtained with each modality. Quantitative assessments of the grade of stenosis revealed significant discrepancies between modalities, with each underestimating the stenosis severity for the higher-stenosed phantoms (70% and 85%) by up to 14%, with the greatest discrepancy attributable to DSA.
Conclusions:
The design and construction of a range of anatomically realistic renal artery phantoms containing varying degrees of stenosis is described. Images obtained using the main four diagnostic techniques used to detect RAS were free from artifacts and exhibited adequate contrast to allow for quantitative measurements of the degree of stenosis in each phantom. Such multimodality phantoms may prove useful in evaluating current and emerging US,MRI,CT, and DSA technology.
DOI
https://doi.org/10.1118/1.3533674
Recommended Citation
King, D.M., Fagan, A.J., Moran, C.,Browne, J.E.: Comparative Imaging Study in Ultrasound, MRI, CT and DSA Using a Multi-Modality Renal Artery Phantom. Medical Physics, Vol. 38, no. 565. doi:10.1118/1.3533674
Funder
Technological Sector Research Strand 1 Scheme, HEA, and the TERs 2005 and CABS 2007 Schemes,
Publication Details
Medical Physics, Vol. 38, no. 565.
doi:10.1118/1.3533674