Literature DB >> 19205704

Dual-energy CT for the characterization of urinary calculi: In vitro and in vivo evaluation of a low-dose scanning protocol.

C Thomas1, O Patschan, D Ketelsen, I Tsiflikas, A Reimann, H Brodoefel, M Buchgeister, U Nagele, A Stenzl, C Claussen, A Kopp, M Heuschmid, H-P Schlemmer.   

Abstract

The efficiency and radiation dose of a low-dose dual-energy (DE) CT protocol for the evaluation of urinary calculus disease were evaluated. A low-dose dual-source DE-CT renal calculi protocol (140 kV, 46 mAs; 80 kV, 210 mAs) was derived from the single-energy (SE) CT protocol used in our institution for the detection of renal calculi (120 kV, 75 mAs). An Alderson-Rando phantom was equipped with thermoluminescence dosimeters and examined by CT with both protocols. The effective doses were calculated. Fifty-one patients with suspected or known urinary calculus disease underwent DE-CT. DE analysis was performed if calculi were detected using a dedicated software tool. Results were compared to chemical analysis after invasive calculus extraction. An effective dose of 3.43 mSv (male) and 5.30 mSv (female) was measured in the phantom for the DE protocol (vs. 3.17/4.57 mSv for the SE protocol). Urinary calculi were found in 34 patients; in 28 patients, calculi were removed and analyzed (23 patients with calcified calculi, three with uric acid calculi, one with 2,8-dihyxdroxyadenine-calculi, one patient with a mixed struvite calculus). DE analysis was able to distinguish between calcified and non-calcified calculi in all cases. In conclusion, dual-energy urinary calculus analysis is effective also with a low-dose protocol. The protocol tested in this study reliably identified calcified urinary calculi in vivo.

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Year:  2009        PMID: 19205704     DOI: 10.1007/s00330-009-1300-2

Source DB:  PubMed          Journal:  Eur Radiol        ISSN: 0938-7994            Impact factor:   5.315


  20 in total

1.  Relationship of spontaneous passage of ureteral calculi to stone size and location as revealed by unenhanced helical CT.

Authors:  Deirdre M Coll; Michael J Varanelli; Robert C Smith
Journal:  AJR Am J Roentgenol       Date:  2002-01       Impact factor: 3.959

2.  Low-dose and standard-dose unenhanced helical computed tomography for the assessment of acute renal colic: prospective comparative study.

Authors:  Bong Soo Kim; Im Kyung Hwang; Yo Won Choi; Sook Namkung; Heung Cheol Kim; Woo Cheol Hwang; Kuk Myung Choi; Ji Kang Park; Tae Il Han; Weechang Kang
Journal:  Acta Radiol       Date:  2005-11       Impact factor: 1.990

Review 3.  Stone composition: where do we stand?

Authors:  A Saita; A Bonaccorsi; M Motta
Journal:  Urol Int       Date:  2007       Impact factor: 2.089

4.  Determination of the chemical composition of urinary calculi by noncontrast spiral computerized tomography.

Authors:  Khaled Z Sheir; Osama Mansour; Khaled Madbouly; Emad Elsobky; Mohamed Abdel-Khalek
Journal:  Urol Res       Date:  2005-01-06

Review 5.  CT urography.

Authors:  Akira Kawashima; Terri J Vrtiska; Andrew J LeRoy; Robert P Hartman; Cynthia H McCollough; Bernard F King
Journal:  Radiographics       Date:  2004-10       Impact factor: 5.333

6.  Characterization of human renal stones with MDCT: advantage of dual energy and limitations due to respiratory motion.

Authors:  Romain Grosjean; Benoît Sauer; Rui Matias Guerra; Michel Daudon; Alain Blum; Jacques Felblinger; Jacques Hubert
Journal:  AJR Am J Roentgenol       Date:  2008-03       Impact factor: 3.959

7.  Renal stone epidemiology: a 25-year study in Rochester, Minnesota.

Authors:  C M Johnson; D M Wilson; W M O'Fallon; R S Malek; L T Kurland
Journal:  Kidney Int       Date:  1979-11       Impact factor: 10.612

8.  Dual-energy computed tomography for the differentiation of uric acid stones: ex vivo performance evaluation.

Authors:  Paul Stolzmann; Hans Scheffel; Katharina Rentsch; Thomas Schertler; Thomas Frauenfelder; Sebastian Leschka; Tullio Sulser; Borut Marincek; Hatem Alkadhi
Journal:  Urol Res       Date:  2008-06-11

9.  Dual energy CT characterization of urinary calculi: initial in vitro and clinical experience.

Authors:  Anno Graser; Thorsten R C Johnson; Markus Bader; Michael Staehler; Nicolas Haseke; Konstantin Nikolaou; Maximilian F Reiser; Christian G Stief; Christoph R Becker
Journal:  Invest Radiol       Date:  2008-02       Impact factor: 6.016

10.  Helical CT for nephrolithiasis and ureterolithiasis: comparison of conventional and reduced radiation-dose techniques.

Authors:  Joan P Heneghan; Keith A McGuire; Richard A Leder; David M DeLong; Terry Yoshizumi; Rendon C Nelson
Journal:  Radiology       Date:  2003-10-02       Impact factor: 11.105
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  27 in total

1.  Precision of the measurement of CT numbers: comparison of dual-energy CT spectral imaging with fast kVp switching and conventional CT with phantoms.

Authors:  Izuru Matsuda; Masaaki Akahane; Jiro Sato; Masaki Katsura; Shigeru Kiryu; Naoki Yoshioka; Akira Kunimatsu; Kenji Ino; Kuni Ohtomo
Journal:  Jpn J Radiol       Date:  2011-12-02       Impact factor: 2.374

2.  Renal stones composition in vivo determination: comparison between 100/Sn140 kV dual-energy CT and 120 kV single-energy CT.

Authors:  Matteo Bonatti; Fabio Lombardo; Giulia A Zamboni; Patrizia Pernter; Armin Pycha; Roberto Pozzi Mucelli; Giampietro Bonatti
Journal:  Urolithiasis       Date:  2016-07-08       Impact factor: 3.436

3.  Evaluation of low-dose dual energy computed tomography for in vivo assessment of renal/ureteric calculus composition.

Authors:  Harshavardhan Mahalingam; Anupam Lal; Arup K Mandal; Shrawan Kumar Singh; Shalmoli Bhattacharyya; Niranjan Khandelwal
Journal:  Korean J Urol       Date:  2015-08-10

4.  Prediction of calcium level in melamine-related urinary calculi with helical CT: diagnostic performance evaluation and clinical significance.

Authors:  Li Yuan; Ru Xiaorui; Huang Gang; Xi Xinsheng; Huang Xiaogang; Dong Li; Chen Yirong
Journal:  Urol Res       Date:  2011-08-19

5.  Evaluation of virtual unenhanced CT obtained from dual-energy CT urography for detecting urinary stones.

Authors:  J W Moon; B K Park; C K Kim; S Y Park
Journal:  Br J Radiol       Date:  2011-09-06       Impact factor: 3.039

6.  Dual-energy CT behavior of heroin, cocaine, and typical adulterants.

Authors:  Patrick J Laberke; Juergen Fornaro; Suk-kyum Kim; Simon Blum; Marc Augsburger; Hatem Alkadhi; Simon Wildermuth; Roland Hausmann; Sebastian Leschka
Journal:  Forensic Sci Med Pathol       Date:  2015-01-08       Impact factor: 2.007

7.  Dual energy CT (DECT) of the liver: conventional versus virtual unenhanced images.

Authors:  Carlo Nicola De Cecco; Vitaliano Buffa; Stefano Fedeli; Monica Luzietti; Andrea Vallone; Roberto Ruopoli; Vittorio Miele; Marco Rengo; Pasquale Paolantonio; Michelangelo Maurizi Enrici; Andrea Laghi; Vincenzo David
Journal:  Eur Radiol       Date:  2010-07-11       Impact factor: 5.315

8.  [Imaging for diagnostics of urolithiasis including dual-energy CT].

Authors:  F Strittmatter; C Gratzke; A Graser; C G Stief; T R C Johnson
Journal:  Urologe A       Date:  2013-04       Impact factor: 0.639

Review 9.  Genitourinary applications of dual-energy CT.

Authors:  Terri J Vrtiska; Naoki Takahashi; Joel G Fletcher; Robert P Hartman; Lifeng Yu; Akira Kawashima
Journal:  AJR Am J Roentgenol       Date:  2010-06       Impact factor: 3.959

10.  Single-energy metal artifact reduction technique for reducing metallic coil artifacts on post-interventional cerebral CT and CT angiography.

Authors:  Masaki Katsura; Jiro Sato; Masaaki Akahane; Taku Tajima; Toshihiro Furuta; Harushi Mori; Osamu Abe
Journal:  Neuroradiology       Date:  2018-08-24       Impact factor: 2.804
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