Oral chemolysis is an effective, non-invasive therapy for urinary stones suspected of uric acid content

Tsaturyan, Arman; Bokova, Elizaveta; Bosshard, Piet; Bonny, Olivier; Fuster, Daniel; Roth, Beat

doi:10.1007/s00240-020-01204-8

Cited by 36 publications

(18 citation statements)

References 26 publications

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“…Oral dissolution therapy was associated with a stone-free rate of 16% in 1 month and 50% in 3 months [128 & ]. Likewise, three nonrandomized recent studies have reported 3 months stone free rates of 61-64% [129,130] as well as a 6 months stone free rate of 83% [131]. Patient selection factors associated with response included smaller stones, lower density, and lower HUD [129][130][131].…”

Section: Compositionmentioning

confidence: 99%

Imaging in stone diagnosis and surgical planning

Serrell

Best

2022

Current Opinion in Urology

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Purpose of reviewRadiological imaging techniques and applications are constantly advancing. This review will examine modern imaging techniques in the diagnosis of urolithiasis and applications for surgical planning. Recent findingsThe diagnosis of urolithiasis may be done via plain film X-ray, ultrasound (US), or contrast tomography (CT) scan. US should be applied in the workup of flank pain in emergency rooms and may reduce unnecessary radiation exposure. Low dose and ultra-low-dose CT remain the diagnostic standard for most populations but remain underutilized. Single and dual-energy CT provide three-dimensional imaging that can predict stone-specific parameters that help clinicians predict stone passage likelihood, identify ideal management techniques, and possibly reduce complications. Machine learning has been increasingly applied to 3-D imaging to support clinicians in these prognostications and treatment selection.

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Section: Compositionmentioning

confidence: 99%

Imaging in stone diagnosis and surgical planning

Serrell

Best

2022

Current Opinion in Urology

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“…For example, calcium oxalate monohydrate (COM [or Ia]), or calcium oxalate dihydrate (COD [or IIb]), criteria would support the prescription of an immediate diet containing potassium citrate, as reported in Soyg€ ur et al [10]. Recognition of uric acid (UA [or IIIb]) morphological criteria would steer the medical decision towards postoperative urinary alkalinization with potassium citrate or sodium bicarbonate to dissolve residual fragments [11].…”

Section: Introductionmentioning

confidence: 99%

“…[ 10 ]. Recognition of uric acid (UA [or IIIb]) morphological criteria would steer the medical decision towards postoperative urinary alkalinization with potassium citrate or sodium bicarbonate to dissolve residual fragments [ 11 ].…”

Section: Introductionmentioning

confidence: 99%

Towards automatic recognition of pure and mixed stones using intra‐operative endoscopic digital images

et al. 2021

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To assess automatic computer-aided in situ recognition of the morphological features of pure and mixed urinary stones using intra-operative digital endoscopic images acquired in a clinical setting. Materials and MethodsIn this single-centre study, a urologist with 20 years' experience intra-operatively and prospectively examined the surface and section of all kidney stones encountered. Calcium oxalate monohydrate (COM) or Ia, calcium oxalate dihydrate (COD) or IIb, and uric acid (UA) or IIIb morphological criteria were collected and classified to generate annotated datasets. A deep convolutional neural network (CNN) was trained to predict the composition of both pure and mixed stones. To explain the predictions of the deep neural network model, coarse localization heat-maps were plotted to pinpoint key areas identified by the network. ResultsThis study included 347 and 236 observations of stone surface and stone section, respectively; approximately 80% of all stones exhibited only one morphological type and approximately 20% displayed two. A highest sensitivity of 98% was obtained for the type 'pure IIIb/UA' using surface images. The most frequently encountered morphology was that of the type 'pure Ia/COM'; it was correctly predicted in 91% and 94% of cases using surface and section images, respectively. Of the mixed type 'Ia/COM + IIb/COD', Ia/COM was predicted in 84% of cases using surface images, IIb/COD in 70% of cases, and both in 65% of cases. With regard to mixed Ia/COM + IIIb/UA stones, Ia/COM was predicted in 91% of cases using section images, IIIb/UA in 69% of cases, and both in 74% of cases. ConclusionsThis preliminary study demonstrates that deep CNNs are a promising method by which to identify kidney stone composition from endoscopic images acquired intra-operatively. Both pure and mixed stone composition could be discriminated. Collected in a clinical setting, surface and section images analysed by a deep CNN provide valuable information about stone morphology for computer-aided diagnosis.

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“…Distinguishing UA from non-UA stones is of particular interest for the urologist, as the former can be treated with alkalization of the urine, allowing for secondary prophylaxis after ex vivo composition analysis of a passed or surgically removed stone [4][5][6][7]. Ideally, a UA stone is identified and dissolved in vivo, to facilitate stone passage and obviate surgical removal [8,9]. At present, in vivo stone composition analysis is mostly accomplished with dual-energy CT (DE-CT), which has shown high accuracy in several studies [10][11][12][13][14][15].…”

Section: Introductionmentioning

confidence: 99%

“…It is highly reproducible for measuring stone size and useful for predicting spontaneous stone passage [ 6 , 14 , 16 ]. If, in addition, this method could also predict the composition of the stone, the patient would be able to leave the emergency room with a tailored treatment on the first day of radiologic diagnosis [ 9 ].…”

Section: Introductionmentioning

confidence: 99%

Single-energy CT predicts uric acid stones with accuracy comparable to dual-energy CT—prospective validation of a quantitative method

et al. 2021

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Objectives To prospectively validate three quantitative single-energy CT (SE-CT) methods for classifying uric acid (UA) and non-uric acid (non-UA) stones. Methods Between September 2018 and September 2019, 116 study participants were prospectively included in the study if they had at least one 3–20-mm urinary stone on an initial urinary tract SE-CT scan. An additional dual-energy CT (DE-CT) scan was performed, limited to the stone of interest. Additionally, to include a sufficient number of UA stones, eight participants with confirmed UA stone on DE-CT were retrospectively included. The SE-CT stone features used in the prediction models were (1) maximum attenuation (maxHU) and (2) the peak point Laplacian (ppLapl) calculated at the position in the stone with maxHU. Two prediction models were previously published methods (ppLapl-maxHU and maxHU) and the third was derived from the previous results based on the k-nearest neighbors (kNN) algorithm (kNN-ppLapl-maxHU). The three methods were evaluated on this new independent stone dataset. The reference standard was the CT vendor’s DE-CT application for kidney stones. Results Altogether 124 participants (59 ± 14 years, 91 men) with 106 non-UA and 37 UA stones were evaluated. For classification of UA and non-UA stones, the sensitivity, specificity, and accuracy were 100% (37/37), 97% (103/106), and 98% (140/143), respectively, for kNN-ppLapl-maxHU; 95% (35/37), 98% (104/106), and 97% (139/143) for ppLapl-maxHU; and 92% (34/37), 94% (100/106), and 94% (134/143) for maxHU. Conclusion A quantitative SE-CT method (kNN-ppLapl-maxHU) can classify UA stones with accuracy comparable to DE-CT. Key Points • Single-energy CT is the first-line diagnostic tool for suspected renal colic. • A single-energy CT method based on the internal urinary stone attenuation distribution can classify urinary stones into uric acid and non-uric acid stones with high accuracy. • This immensely increases the availability of in vivo stone analysis.

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Oral chemolysis is an effective, non-invasive therapy for urinary stones suspected of uric acid content

Cited by 36 publications

References 26 publications

Imaging in stone diagnosis and surgical planning

Imaging in stone diagnosis and surgical planning

Towards automatic recognition of pure and mixed stones using intra‐operative endoscopic digital images

Single-energy CT predicts uric acid stones with accuracy comparable to dual-energy CT—prospective validation of a quantitative method

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