Low-dose CT scan in stone detection for stone treatment follow-up: is there a relation between stone composition and radiation delivery? Study on a porcine-kidney model
Low-dose CT scan in stone detection for stone treatment follow-up: is there a relation between stone composition and radiation delivery? Study on a porcine-kidney model
BACKGROUND: Non-contrast CT scan (NCCT) is becoming the standard imaging modality in urinary stone disease. Radiation dose remains an issue, especially for those patients who may need to undergo several CT scans for this indication during their lifetime. Low-dose and ultra-low-dose protocols exist, but there is limited data on the relationship between the minimum radiation dose capable of detecting stone fragments and stone composition.
METHODS: Seven different kinds of human kidney stone were selected. Fragments of 1, 2, 4 and 7 mm were obtained for each stone. Four fragments of the same material were placed in a porcine kidney. A CT scan was then used to scan the kidney at decreasing dosages of 140, 70, 30, 15 and 7mAs. The scans were repeated for each type of stone. Images were reviewed by two radiologists independently with the intent of identifying the stone composition and providing information on its position, dimensions and Hounsfield units (HU).
RESULTS: All types of stone were visible at all settings. Only the 1-mm uric-acid fragment was not detected by both radiologists at 7 and 15 mAs. Dose Length product (DLP) decreased with the reduction in mAs. In terms of HU a statistically significant difference was observed between calcium-based and non-calcium-based stones. Stone dimensions and HU were not affected by the reductions in mAs.
CONCLUSIONS: Ultra-low-dose CT has a good detection rate for all kinds of stone, even when the fragment size is small. Only small uric acid fragments need higher energy settings in order to be detected. When the stone composition is known after surgery for urolithiasis, the most appropriate CT scan setting could be suggested by the urologist during their follow-up.
Animals, Calcium/chemistry, Humans, Kidney Calculi/chemistry, Models, Animal, Radiation Dosage, Swine, Tomography, X-Ray Computed/adverse effects, Uric Acid/chemistry
63-71
Talso, Michele
ca6d9514-cc0d-483e-88e3-e5c0dce66427
Emiliani, Estenan
d112bf24-c7c0-4aed-a4b5-e5e620ddaf46
Froio, Sara
df9b7e78-97c5-4ccc-b556-236b94e85ae1
Gallioli, Andrea
08c9a135-13a3-41b5-b92b-3244fce49167
Forzenigo, Laura
7d74e899-419e-4a24-b99c-4d50b4d590ac
Pradere, Benjamin
589e74d3-29bd-4d19-a7ab-3981644f1a86
Traxer, Olivier
2fa78817-b6f8-4f00-b389-c9c9ddbd01f3
Somani, Bhaskar K.
ab5fd1ce-02df-4b88-b25e-8ece396335d9
Montanari, Emanuele
533c3f79-5c7e-4d74-ada7-293bf736003f
February 2019
Talso, Michele
ca6d9514-cc0d-483e-88e3-e5c0dce66427
Emiliani, Estenan
d112bf24-c7c0-4aed-a4b5-e5e620ddaf46
Froio, Sara
df9b7e78-97c5-4ccc-b556-236b94e85ae1
Gallioli, Andrea
08c9a135-13a3-41b5-b92b-3244fce49167
Forzenigo, Laura
7d74e899-419e-4a24-b99c-4d50b4d590ac
Pradere, Benjamin
589e74d3-29bd-4d19-a7ab-3981644f1a86
Traxer, Olivier
2fa78817-b6f8-4f00-b389-c9c9ddbd01f3
Somani, Bhaskar K.
ab5fd1ce-02df-4b88-b25e-8ece396335d9
Montanari, Emanuele
533c3f79-5c7e-4d74-ada7-293bf736003f
Talso, Michele, Emiliani, Estenan, Froio, Sara, Gallioli, Andrea, Forzenigo, Laura, Pradere, Benjamin, Traxer, Olivier, Somani, Bhaskar K. and Montanari, Emanuele
(2019)
Low-dose CT scan in stone detection for stone treatment follow-up: is there a relation between stone composition and radiation delivery? Study on a porcine-kidney model.
Minerva urologica e nefrologica = The Italian journal of urology and nephrology, 71 (1), .
(doi:10.23736/S0393-2249.18.03265-4).
Abstract
BACKGROUND: Non-contrast CT scan (NCCT) is becoming the standard imaging modality in urinary stone disease. Radiation dose remains an issue, especially for those patients who may need to undergo several CT scans for this indication during their lifetime. Low-dose and ultra-low-dose protocols exist, but there is limited data on the relationship between the minimum radiation dose capable of detecting stone fragments and stone composition.
METHODS: Seven different kinds of human kidney stone were selected. Fragments of 1, 2, 4 and 7 mm were obtained for each stone. Four fragments of the same material were placed in a porcine kidney. A CT scan was then used to scan the kidney at decreasing dosages of 140, 70, 30, 15 and 7mAs. The scans were repeated for each type of stone. Images were reviewed by two radiologists independently with the intent of identifying the stone composition and providing information on its position, dimensions and Hounsfield units (HU).
RESULTS: All types of stone were visible at all settings. Only the 1-mm uric-acid fragment was not detected by both radiologists at 7 and 15 mAs. Dose Length product (DLP) decreased with the reduction in mAs. In terms of HU a statistically significant difference was observed between calcium-based and non-calcium-based stones. Stone dimensions and HU were not affected by the reductions in mAs.
CONCLUSIONS: Ultra-low-dose CT has a good detection rate for all kinds of stone, even when the fragment size is small. Only small uric acid fragments need higher energy settings in order to be detected. When the stone composition is known after surgery for urolithiasis, the most appropriate CT scan setting could be suggested by the urologist during their follow-up.
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More information
Published date: February 2019
Keywords:
Animals, Calcium/chemistry, Humans, Kidney Calculi/chemistry, Models, Animal, Radiation Dosage, Swine, Tomography, X-Ray Computed/adverse effects, Uric Acid/chemistry
Identifiers
Local EPrints ID: 433335
URI: http://eprints.soton.ac.uk/id/eprint/433335
ISSN: 0393-2249
PURE UUID: 8c1036ab-1e9e-4fa6-a27e-37647aa2e14b
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Date deposited: 14 Aug 2019 16:30
Last modified: 16 Mar 2024 03:24
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Author:
Michele Talso
Author:
Estenan Emiliani
Author:
Sara Froio
Author:
Andrea Gallioli
Author:
Laura Forzenigo
Author:
Benjamin Pradere
Author:
Olivier Traxer
Author:
Emanuele Montanari
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