Predicting obstruction risk using common ultrasonography parameters in paediatric hydronephrosis with machine learning

Abstract

ObjectiveTo sensitively predict the risk of renal obstruction on diuretic renography using routine reported ultrasonography (US) findings, coupled with machine learning approaches, and determine safe criteria for deferral of diuretic renography.Patients and MethodsPatients from two institutions with isolated hydronephrosis who underwent a diuretic renogram within 3 months following renal US were included. Age, sex, and routinely reported US findings (laterality, kidney length, anteroposterior diameter, Society for Fetal Urology [SFU] grade) were abstracted. The drainage half‐times were collected from renography and stratified as low risk (<20 min, primary outcome), intermediate risk (20–60 min), and high risk of obstruction (>60 min). A random Forest model was trained to classify obstruction risk, here named the ‘Artificial intelligence Evaluation of Renogram Obstruction’ (AERO). Model performance was determined by measuring area under the receiver‐operating‐characteristic curve (AUROC) and decision curve analysis.ResultsA total of 304 patients met the inclusion criteria, with a median (interquartile range) age of diuretic renogram at 4 (2–7) months. Of all patients, 48 (16%) were low risk, 102 (33%) were intermediate risk, 156 (51%) were high risk of obstruction based on diuretic renogram. The AERO achieved a binary AUROC of 0.84, multi‐class AUROC of 0.74 that was superior to the SFU grade, and external validation (n = 64) binary AUROC of 0.76. The most important features for prediction included age, anteroposterior diameter, and SFU grade. We deployed our application in an easy‐to‐use application (https://sickkidsurology.shinyapps.io/AERO/). At a threshold probability of 30%, the AERO would allow 66 more patients per 1000 to safely avoid a renogram without missing significant obstruction compared to a strategy in which a renogram is routinely performed for SFU Grade ≥3.ConclusionsCoupled with machine learning, routine US findings can improve the criteria to determine in which children with isolated hydronephrosis a diuretic renogram can be safely avoided. Further optimisation and validation are required prior to implementation into clinical practice.