Parameterising the effect of a continuous exposure using average derivative effects

09/27/2021
by   Oliver Hines, et al.
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The (weighted) average treatment effect is commonly used to quantify the main effect of a binary exposure on an outcome. Extensions to continuous exposures, however, either quantify the effects of interventions that are rarely relevant (e.g., applying the same exposure level uniformly in the population), or consider shift interventions that are rarely intended, raising the question how large a shift to consider. Average derivative effects (ADEs) instead express the effect of an infinitesimal shift in each subject's exposure level, making inference less prone to extrapolation. ADEs, however, are rarely considered in practice because their estimation usually requires estimation of (a) the conditional density of exposure given covariates, and (b) the derivative of (a) w.r.t. exposure. Here, we introduce a class of estimands which can be inferred without requiring estimates of (a) and (b), but which reduce to ADEs when the exposure obeys a specific distribution determined by the choice of estimand in the class. We moreover show that when the exposure does not obey this distribution, our estimand represents an ADE w.r.t. an `intervention' exposure distribution. We identify the `optimal' estimand in our class and propose debiased machine learning estimators, by deriving influence functions under the nonparametric model.

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