AIMC Topic: Ureteral Calculi

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Predicting ESWL success for ureteral stones: a radiomics-based machine learning approach.

BMC medical imaging Jul 4, 2025
OBJECTIVES: This study aimed to develop and validate a machine learning (ML) model that integrates radiomics and conventional radiological features to predict the success of single-session extracorporeal shock wave lithotripsy (ESWL) for ureteral sto...
Machine Learning Retrospective Studies Tomography, X-Ray Computed Female Humans Middle Aged Treatment Outcome Ureteral Calculi Lithotripsy Aged Adult Radiomics Male
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Does Deep Learning Reconstruction Improve Ureteral Stone Detection and Subjective Image Quality in the CT Images of Patients with Metal Hardware?

Journal of endourology Feb 11, 2025
Diagnosing ureteral stones with low-dose CT in patients with metal hardware can be challenging because of image noise. The purpose of this study was to compare ureteral stone detection and image quality of low-dose and conventional CT scans with and...
Hip Prosthesis Ureteral Calculi Humans Tomography, X-Ray Computed Deep Learning Metals Image Processing, Computer-Assisted Artifacts Radiation Dosage
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CT-based deep learning model for predicting the success of extracorporeal shock wave lithotripsy in treating ureteral stones larger than 1 cm.

Urolithiasis Nov 5, 2024
OBJECTIVES: To develop a deep learning (DL) model based on computed tomography (CT) images to predict the success of extracorporeal shock wave lithotripsy (SWL) treatment for patients with ureteral stones larger than 1 cm.
Retrospective Studies Tomography, X-Ray Computed Female Adult Humans Lithotripsy Treatment Outcome Male Predictive Value of Tests Middle Aged Ureter Deep Learning Ureteral Calculi
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Letter to the editor for the article "A machine learning approach using stone volume to predict stone-free status at ureteroscopy".

World journal of urology Aug 22, 2024
Machine Learning Kidney Calculi Ureteroscopy Ureteral Calculi Humans
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Development and validation of a nomogram to predict impacted ureteral stones via machine learning.

Minerva urology and nephrology Aug 2, 2024
BACKGROUND: To develop and evaluate a nomogram for predicting impacted ureteral stones using some simple and easily available clinical features.
Male Middle Aged Nomograms Predictive Value of Tests Female Aged Adult Ureteroscopy Ureteral Calculi Lithotripsy Humans Machine Learning Retrospective Studies
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Using ensemble learning and hierarchical strategy to predict the outcomes of ESWL for upper ureteral stone treatment.

Computers in biology and medicine Jul 23, 2024
Urinary tract stones are a common and frequently recurring medical issue. Accurately predicting the success rate after surgery can help avoid ineffective medical procedures and reduce unnecessary healthcare costs. This study collected data from patie...
Treatment Outcome Ureteral Calculi Lithotripsy Adult Male Middle Aged Humans Machine Learning Female Aged
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Predicting the Efficacy of Repeated Shockwave Lithotripsy for Treating Patients with Upper Urinary Tract Calculi Using an Artificial Neural Network Model.

Urology journal Jun 9, 2024
PURPOSE: To establish a prediction model for repeated shockwave lithotripsy (SWL) efficacy to help choose an appropriate treatment plan for patients with a single failed lithotripsy, reducing their treatment burden.
Kidney Calculi Humans Retreatment Neural Networks, Computer Ureteral Calculi Lithotripsy Adult Retrospective Studies Male Female Middle Aged Aged Treatment Outcome
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Advancements in Uric Acid Stone Detection: Integrating Deep Learning with CT Imaging and Clinical Assessments in the Upper Urinary Tract.

Urologia internationalis Mar 2, 2024
INTRODUCTION: Among upper urinary tract stones, a significant proportion comprises uric acid stones. The aim of this study was to use machine learning techniques to analyze CT scans and blood and urine test data, with the aim of establishing multiple...
Tomography, X-Ray Computed Female Aged Kidney Calculi Adult Male Ureteral Calculi Humans Middle Aged Retrospective Studies Deep Learning Uric Acid
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Prediction of spontaneous distal ureteral stone passage using artificial intelligence.

International urology and nephrology Feb 10, 2024
PURPOSE: Identifying factors predicting the spontaneous passage of distal ureteral stones and evaluating the effectiveness of artificial intelligence in prediction.
ROC Curve Logistic Models Predictive Value of Tests Remission, Spontaneous Ureteral Calculi Female Adult Male Middle Aged Algorithms Retrospective Studies Tomography, X-Ray Computed Humans Artificial Intelligence
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Image Enhancement Model Based on Deep Learning Applied to the Ureteroscopic Diagnosis of Ureteral Stones during Pregnancy.

Computational and mathematical methods in medicine Oct 29, 2021
OBJECTIVE: To explore the image enhancement model based on deep learning on the effect of ureteroscopy with double J tube placement and drainage on ureteral stones during pregnancy. We compare the clinical effect of ureteroscopy with double J tube pl...
Lithotripsy Computational Biology Female Models, Statistical Humans Diagnosis, Computer-Assisted Pregnancy Complications Artifacts Image Enhancement Deep Learning Neural Networks, Computer Ureteroscopy Ultrasonography Pregnancy Ureteral Calculi
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