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Volume (55) Number 2 pp. 179-195
1Department of Statistics, Computer Science, Applications, University of Florence, Italy
Linear Markovian models for lag exposure assessment
Summary
Linear regression with temporally delayed covariates (distributed-lag linear regression) is a standard approach to lag exposure assessment, but it is limited to a single biomarker of interest and cannot provide insights on the relationships holding among the pathogen exposures, thus precluding the assessment of causal effects in a general context. In this paper, to overcome these limitations, distributed-lag linear regression is applied to Markovian structural causal models. Dynamic causal effects are defined as a function of regression coefficients at different time lags. The proposed methodology is illustrated using a simple lag exposure assessment problem.
Keywords: directed acyclic graph, distributed-lag linear regression, dynamic causal inference, structural causal models, polynomial lag shape
DOI: 10.2478/bile-2018-0012
For citation:
| MLA | , . "Linear Markovian models for lag exposure assessment." Biometrical Letters 55.2 (2018): 179-195. DOI: 10.2478/bile-2018-0012 |
| APA | , (2018). Linear Markovian models for lag exposure assessment. Biometrical Letters 55(2), 179-195 DOI: 10.2478/bile-2018-0012 |
| ISO 690 | , . Linear Markovian models for lag exposure assessment. Biometrical Letters, 2018, 55.2: 179-195. DOI: 10.2478/bile-2018-0012 |