Causal inference for testing clinical hypotheses from observational data presents many difficulties because the underlying data-generating model and the associated causal graph are not usually available. Furthermore, observational data may contain missing values, which impact the recovery of the causal graph by causal discovery algorithms: a crucial issue often ignored in clinical studies. In this work, we use data from a multi-centric study on endometrial cancer to analyze the impact of different missingness mechanisms on the recovered causal graph. This is achieved by extending state-of-the-art causal discovery algorithms to exploit expert knowledge without sacrificing theoretical soundness. We validate the recovered graph with expert physicians, showing that our approach finds clinically-relevant solutions. Finally, we discuss the goodness of fit of our graph and its consistency from a clinical decision-making perspective using graphical separation to validate causal pathways.

Zanga, A., Bernasconi, A., Lucas, P., Pijnenborg, H., Reijnen, C., Scutari, M., et al. (2023). The Impact of Missing Data on Causal Discovery: A Multicentric Clinical Study. Intervento presentato a: HC@AIxIA 2023: 2nd AIxIA Workshop on Artificial Intelligence For Healthcare, Roma, Italia.

The Impact of Missing Data on Causal Discovery: A Multicentric Clinical Study

Alessio Zanga
Primo
;
Alice Bernasconi
Secondo
;
Fabio Stella
Ultimo
2023

Abstract

Causal inference for testing clinical hypotheses from observational data presents many difficulties because the underlying data-generating model and the associated causal graph are not usually available. Furthermore, observational data may contain missing values, which impact the recovery of the causal graph by causal discovery algorithms: a crucial issue often ignored in clinical studies. In this work, we use data from a multi-centric study on endometrial cancer to analyze the impact of different missingness mechanisms on the recovered causal graph. This is achieved by extending state-of-the-art causal discovery algorithms to exploit expert knowledge without sacrificing theoretical soundness. We validate the recovered graph with expert physicians, showing that our approach finds clinically-relevant solutions. Finally, we discuss the goodness of fit of our graph and its consistency from a clinical decision-making perspective using graphical separation to validate causal pathways.
abstract + slide
Causal discovery, Causal graphs, Missing values
English
HC@AIxIA 2023: 2nd AIxIA Workshop on Artificial Intelligence For Healthcare
2023
2023
https://sites.google.com/unical.it/hcaixia2023/program-and-accepted-papers
none
Zanga, A., Bernasconi, A., Lucas, P., Pijnenborg, H., Reijnen, C., Scutari, M., et al. (2023). The Impact of Missing Data on Causal Discovery: A Multicentric Clinical Study. Intervento presentato a: HC@AIxIA 2023: 2nd AIxIA Workshop on Artificial Intelligence For Healthcare, Roma, Italia.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/450260
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