Abstract Background Acute kidney injury (AKI) is a common and serious complication among hospitalized patients, and early risk stratification remains challenging due to heterogeneous clinical data and limited interpretability of existing prediction models. Foundation models designed for tabular data may enable accurate prediction while preserving interpretability, but their application in early AKI risk assessment has not been fully explored. Objective To develop and externally validate an interpretable early prediction model for AKI using the Tabular Prior-data Fitted Network (TabPFN) based on routinely available admission data. Methods In this retrospective cohort study, predictors were restricted to clinical variables recorded within the 24 h prior to hospital admission, and this temporal definition was applied consistently across both the internal cohort and the external MIMIC-IV validation dataset. Time zero was defined as the admission time. Baseline serum creatinine (SCr) was defined as the first creatinine measurement at admission. The primary outcome was in-hospital AKI, defined according to KDIGO SCr criteria as a subsequent rise in creatinine relative to this admission baseline at any time during the index hospitalization. A total of 44,324 patients were included in the development cohort. TabPFN was trained on a stratified subsample and evaluated on a held-out internal test set, and benchmarked against seven conventional machine-learning models. Missing data were handled using multivariate imputation, and model interpretation was performed using SHAP-based attribution analyses. External validation was conducted in the MIMIC-IV database following predefined inclusion criteria and feature harmonization. Results In the internal test set, TabPFN achieved an AUROC of 0.953, outperforming comparator models. External validation demonstrated robust discrimination with an AUROC of 0.859. Calibration analyses indicated good agreement between predicted and observed risks. Attribution analyses identified baseline renal function and acute illness markers as major contributors to model-attributed AKI risk, with heterogeneous association patterns across patient subgroups. Conclusions Using routinely available pre-admission data, TabPFN enabled accurate early prediction of in-hospital AKI and provided interpretable risk attribution patterns. These findings suggest potential utility for early risk stratification; however, results are observational and hypothesis-generating, and prospective validation is required before clinical deployment.
Xu et al. (Tue,) studied this question.