Citation link: http://dx.doi.org/10.25819/ubsi/10240
DC FieldValueLanguage
crisitem.author.orcid0000-0001-9068-5696-
dc.contributor.authorKelter, Riko-
dc.date.accessioned2023-02-10T09:39:49Z-
dc.date.available2023-02-10T09:39:49Z-
dc.date.issued2022de
dc.descriptionFinanziert im Rahmen der DEAL-Verträge durch die Universitätsbibliothek Siegende
dc.description.abstractBackground: Causal inference has seen an increasing popularity in medical research. Estimation of causal effects from observational data allows to draw conclusions from data when randomized controlled trials cannot be conducted. Although the identification of structural causal models (SCM) and the calculation of structural coefficients has received much attention, a key requirement for valid causal inference is that conclusions are drawn based on the true data-generating model. Methods: It remains widely unknown how large the probability is to reject the true structural causal model when observational data from it is sampled. The latter probability – the causal false-positive risk – is crucial, as rejection of the true causal model can induce bias in the estimation of causal effects. In this paper, the widely used causal models of confounders and colliders are studied regarding their causal false-positive risk in linear Markovianmodels. A simulation study is carried out which investigates the causal false-positive risk in Gaussian linear Markovian models. Therefore, the testable implications of the DAG corresponding to confounders and colliders are analyzed from a Bayesian perspective. Furthermore, the induced bias in estimating the structural coefficients and causal effects is studied. Results: Results show that the false-positive risk of rejecting a true SCM of even simple building blocks like confounders and colliders is substantial. Importantly, estimation of average, direct and indirect causal effects can become strongly biased if a true model is rejected. The causal false-positive risk may thus serve as an indicator or proxy for the induced bias. Conclusion: While the identification of structural coefficients and testable implications of causal models have been studied rigorously in the literature, this paper shows that causal inference also must develop new concepts for controlling the causal false-positive risk. Although a high risk cannot be equated with a substantial bias, it is indicative of the induced bias. The latter fact calls for the development of more advanced risk measures for committing a causal type I error in causal inference.en
dc.identifier.doihttp://dx.doi.org/10.25819/ubsi/10240-
dc.identifier.urihttps://dspace.ub.uni-siegen.de/handle/ubsi/2434-
dc.identifier.urnurn:nbn:de:hbz:467-24348-
dc.language.isoende
dc.sourceBMC medical research methodology ; 22, article number 58. - https://doi.org/10.1186/s12874-021-01473-wde
dc.subject.ddc510 Mathematikde
dc.subject.otherCausal inferenceen
dc.subject.otherBayesian inferenceen
dc.subject.otherDirected acyclic graph (DAG)en
dc.subject.otherd-separationen
dc.subject.otherBayes factoren
dc.subject.otherStructural coefficientsen
dc.subject.swbBayes-Entscheidungstheoriede
dc.titleBayesian identification of structural coefficients in causal models and the causal false-positive risk of confounders and colliders in linear Markovian modelsen
dc.typeArticlede
item.fulltextWith Fulltext-
ubsi.publication.affiliationDepartment Mathematikde
ubsi.source.doi10.1186/s12874-021-01473-w-
ubsi.source.issn1471-2288-
ubsi.source.issued2022de
ubsi.source.issuenumber22de
ubsi.source.pages22de
ubsi.source.placeBerlin ; Heidelbergde
ubsi.source.publisherSpringerde
ubsi.source.titleBMC medical research methodologyde
ubsi.subject.ghbsTKMde
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