Machine Learning Evaluation of Biliary Atresia Patients to Predict Long-Term Outcome after the Kasai Procedure.
Andrea Delli PizziCarlo RicciardiGregorio Delli PaoliFabiola Di DatoLeandro DonisiValeria RomeoMario PetrettaRaffaele IorioGiuseppe CesarelliArturo BrunettiSimone MaureaPublished in: Bioengineering (Basel, Switzerland) (2021)
Kasai portoenterostomy (KP) represents the first-line treatment for biliary atresia (BA). The purpose was to compare the accuracy of quantitative parameters extracted from laboratory tests, US imaging, and MR imaging studies using machine learning (ML) algorithms to predict the long-term medical outcome in native liver survivor BA patients after KP. Twenty-four patients were evaluated according to clinical and laboratory data at initial evaluation (median follow-up = 9.7 years) after KP as having ideal (n = 15) or non-ideal (n = 9) medical outcomes. Patients were re-evaluated after an additional 4 years and classified in group 1 (n = 12) as stable and group 2 (n = 12) as non-stable in the disease course. Laboratory and quantitative imaging parameters were merged to test ML algorithms. Total and direct bilirubin (TB and DB), as laboratory parameters, and US stiffness, as an imaging parameter, were the only statistically significant parameters between the groups. The best algorithm in terms of accuracy, sensitivity, specificity, and AUCROC was naive Bayes algorithm, selecting only laboratory parameters (TB and DB). This preliminary ML analysis confirms the fundamental role of TB and DB values in predicting the long-term medical outcome for BA patients after KP, even though their values may be within the normal range. Physicians should be alert when TB and DB values change slightly.
Keyphrases
- end stage renal disease
- machine learning
- newly diagnosed
- ejection fraction
- chronic kidney disease
- healthcare
- peritoneal dialysis
- high resolution
- prognostic factors
- magnetic resonance imaging
- metabolic syndrome
- deep learning
- adipose tissue
- computed tomography
- minimally invasive
- artificial intelligence
- skeletal muscle
- hiv infected