Estimating Individualized Treatment Rules Using Outcome Weighted Learning

doi:10.1080/01621459.2012.695674

. 2012 Sep 1;107(449):1106-1118.

doi: 10.1080/01621459.2012.695674.

Estimating Individualized Treatment Rules Using Outcome Weighted Learning

Yingqi Zhao¹, Donglin Zeng, A John Rush, Michael R Kosorok

Affiliations

PMID: 23630406
PMCID: PMC3636816
DOI: 10.1080/01621459.2012.695674

Estimating Individualized Treatment Rules Using Outcome Weighted Learning

Yingqi Zhao et al. J Am Stat Assoc. 2012.

. 2012 Sep 1;107(449):1106-1118.

doi: 10.1080/01621459.2012.695674.

Authors

Yingqi Zhao¹, Donglin Zeng, A John Rush, Michael R Kosorok

Affiliation

¹ Department of Biostatistics, University of North Carolina at Chapel Hill, NC 27599.

PMID: 23630406
PMCID: PMC3636816
DOI: 10.1080/01621459.2012.695674

Abstract

There is increasing interest in discovering individualized treatment rules for patients who have heterogeneous responses to treatment. In particular, one aims to find an optimal individualized treatment rule which is a deterministic function of patient specific characteristics maximizing expected clinical outcome. In this paper, we first show that estimating such an optimal treatment rule is equivalent to a classification problem where each subject is weighted proportional to his or her clinical outcome. We then propose an outcome weighted learning approach based on the support vector machine framework. We show that the resulting estimator of the treatment rule is consistent. We further obtain a finite sample bound for the difference between the expected outcome using the estimated individualized treatment rule and that of the optimal treatment rule. The performance of the proposed approach is demonstrated via simulation studies and an analysis of chronic depression data.

Keywords: Bayes Classifier; Cross Validation; Dynamic Treatment Regime; Individualized Treatment Rule; RKHS; Risk Bound; Weighted Support Vector Machine.

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Figures

**Figure 1**
Contour Plots of Value Function for Example 1 with *λ_n* ∈ (0, 10) and *σ_n* ∈ (0, 10)

**Figure 2**
MSE for Value Functions of Individualized Treatment Rules

**Figure 3**
MSE for Misclassification Rates of Individualized Treatment Rules

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References

1. Bartlett PL, Bousquet O, Mendelson S. Local Rademacher Complexities. The Annals of Statistics. 2005;33(4):1497–1537.
1. Bartlett PL, Jordan MI, McAuliffe JD. Convexity, Classification, and Risk Bounds. J of American Statistical Association. 2006;101(473):138–156.
1. Blanchard G, Bousquet O, Massart P. Statistical Performance of Support Vector Machines. Annals of Statistics. 2008;36:489–531.
1. Bradley PS, Mangasarian OL. Feature Selection via Concave Minimization and Support Vector Machines. Proc. 15th International Conf. on Machine Learning; San Francisco, CA, USA: Morgan Kaufmann Publishers Inc; 1998.
1. Buzdar AU. Role of Biologic Therapy and Chemotherapy in Hormone Receptor and HER2-Positive Breast Cancer. Annals of Oncology. 2009;20:993–999. - PubMed

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[1] Bartlett PL, Bousquet O, Mendelson S. Local Rademacher Complexities. The Annals of Statistics. 2005;33(4):1497–1537.

[2] Bartlett PL, Bousquet O, Mendelson S. Local Rademacher Complexities. The Annals of Statistics. 2005;33(4):1497–1537.

[3] Bartlett PL, Jordan MI, McAuliffe JD. Convexity, Classification, and Risk Bounds. J of American Statistical Association. 2006;101(473):138–156.

[4] Bartlett PL, Jordan MI, McAuliffe JD. Convexity, Classification, and Risk Bounds. J of American Statistical Association. 2006;101(473):138–156.

[5] Blanchard G, Bousquet O, Massart P. Statistical Performance of Support Vector Machines. Annals of Statistics. 2008;36:489–531.

[6] Blanchard G, Bousquet O, Massart P. Statistical Performance of Support Vector Machines. Annals of Statistics. 2008;36:489–531.

[7] Bradley PS, Mangasarian OL. Feature Selection via Concave Minimization and Support Vector Machines. Proc. 15th International Conf. on Machine Learning; San Francisco, CA, USA: Morgan Kaufmann Publishers Inc; 1998.

[8] Bradley PS, Mangasarian OL. Feature Selection via Concave Minimization and Support Vector Machines. Proc. 15th International Conf. on Machine Learning; San Francisco, CA, USA: Morgan Kaufmann Publishers Inc; 1998.

[9] Buzdar AU. Role of Biologic Therapy and Chemotherapy in Hormone Receptor and HER2-Positive Breast Cancer. Annals of Oncology. 2009;20:993–999. - PubMed

[10] Buzdar AU. Role of Biologic Therapy and Chemotherapy in Hormone Receptor and HER2-Positive Breast Cancer. Annals of Oncology. 2009;20:993–999. - PubMed

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Estimating Individualized Treatment Rules Using Outcome Weighted Learning

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