In vivo  determination of renal stone composition with dual-energy computed tomography

John-Henry Corbett; Werner S. Harmse

doi:10.4102/sajr.v18i1.605

Original Research

In vivo determination of renal stone composition with dual-energy computed tomography

John-Henry Corbett, Werner S. Harmse

About the author(s)

John-Henry Corbett, Department of Clinical Imaging Sciences, University of the Free State, South Africa
Werner S. Harmse, Department of Clinical Imaging Sciences, University of the Free State, South Africa

Full Text:

HTML | EPUB | XML | PDF (610KB)

Abstract

Background: Composition of renal stones influences management of patients with renal stone disease. Currently stone composition can only be analysed ex vivo after stone extraction or passage, but recent introduction of dual-energy computed tomography (CT) to clinical practice has raised interest in the ability of this technology to determine composition of renal stones in vivo.

Objectives: To determine renal stone composition in patients using single-source dual-energy rapid-peak kilovolt (kVp) switching CT.

Method: Nineteen patients with renal stones for percutaneous nephrolithotomy were evaluated with single-source dual-energy computed tomography on a Discovery CT 750HD. The Gemstone Spectral Imaging (GSI) effective atomic number (Z_eff) and attenuation at 70 keV monochromatic energy were used to predict the stone composition. Infrared spectroscopy and x-ray diffraction of stones after extraction served as the reference standard.

Results: Two (10.5%) of the 19 stones had uric acid as major component. The other 17 (89.5%) were calcium-based stones. No statistically significant difference between the GSI Z_eff and calculated effective atomic number (Z) for stone compounds was found. The GSI Z_eff and attenuation could differentiate between uric acid and non-uric acid stones. No differentiation between different calcium stones could be made.

Conclusion: Uric acid and non-uric acid renal stones can be differentiated with single-source dual-energy in vivo. The GSI Z_eff reflects the dominant material in polycrystalline stones.

Keywords

No related keywords in the metadata.

Metrics

Total abstract views: 6175
Total article views: 8629

Crossref Citations

No related citations found.

African Online Scientific Information Systems (Pty) Ltd t/a AOSIS
Reg No: 2002/002017/07
International Tel: +27 21 975 2602
5 Hafele Street, Durbanville, Cape Town, 7550, South Africa
publishing(AT)aosis.co.za replace (AT) with @

All articles published in this journal are licensed under the Creative Commons Attribution 4.0 International (CC BY 4.0) license, unless otherwise stated.
Website design & content: ©2024 AOSIS (Pty) Ltd. All rights reserved. No unauthorised duplication allowed.
By continuing to use this website, you agree to our Privacy Policy, Terms of Use and Security Policy.

________

Subscribe to our newsletter

Get specific, domain-collection newsletters detailing the latest CPD courses, scholarly research and call-for-papers in your field.

South African Journal of Radiology | ISSN: 1027-202X (PRINT) | ISSN: 2078-6778 (ONLINE)