2022-10-20 Stat Cafe - Dr. Laha
- Time: Monday 10/20 from 2:30 PM to 3:30 PM
- Location: BLOC 503
- Snacks and drinks will be provided
- Gallery
Topic
Optimal dynamic treatment regimes via smooth surrogate losses
Abstract
Large health care data repositories such as electronic health records (EHR) open new opportunities to derive individualized treatment strategies for complicated diseases such as sepsis. In this talk, I will discuss the problem of estimating sequential treatment policies tailored to a patient's individual characteristics, often referred to as dynamic treatment regimes (DTRs), which is a special class of offline reinforcement learning problems. Our main objective will be to find the optimal treatment policy that maximizes a discontinuous value function through direct maximization of Fisher consistent surrogate loss functions. In this regard, we demonstrate that a large class of concave surrogates fails to be Fisher consistent – a behavior that differs from the classical binary classification problems. We further characterize a non-concave family of Fisher consistent smooth surrogate functions, which can be optimized via gradient descent using off-the-shelf machine learning algorithms. Compared to the existing direct search approach under the support vector machine framework (Zhao et al., 2015), our proposed policy learning method via surrogate loss optimization (DTRESLO) method is more computationally scalable to large sample sizes and allows for broader functional classes for treatment policies. We establish theoretical properties for our proposed estimator of the optimal policy and obtain a sharp upper bound on the regret corresponding to our DTRESLO method. The finite sample performance of our proposed estimator is evaluated through extensive simulations. Finally, we illustrate the working principles and benefits of our method using EHR data from sepsis patients admitted to intensive care units.