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Estimating dynamic treatment regimes for ordinal outcomes with household interference: Application in household smoking cessation
The focus of precision medicine is on decision support, often in the form of dynamic treatment regimes, which are sequences of decision rules. At each decision point, the decision rules determine the next treatment according to the patient’s baseline characteristics, the information on treatments an...
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| Published in: | Statistical methods in medical research 2024-06, Vol.33 (6), p.981-995 |
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| Main Authors: | , , |
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| Language: | English |
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| container_end_page | 995 |
| container_issue | 6 |
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| container_title | Statistical methods in medical research |
| container_volume | 33 |
| creator | Jiang, Cong Thompson, Mary Wallace, Michael |
| description | The focus of precision medicine is on decision support, often in the form of dynamic treatment regimes, which are sequences of decision rules. At each decision point, the decision rules determine the next treatment according to the patient’s baseline characteristics, the information on treatments and responses accrued by that point, and the patient’s current health status, including symptom severity and other measures. However, dynamic treatment regime estimation with ordinal outcomes is rarely studied, and rarer still in the context of interference – where one patient’s treatment may affect another’s outcome. In this paper, we introduce the weighted proportional odds model: a regression based, approximate doubly-robust approach to single-stage dynamic treatment regime estimation for ordinal outcomes. This method also accounts for the possibility of interference between individuals sharing a household through the use of covariate balancing weights derived from joint propensity scores. Examining different types of balancing weights, we verify the approximate double robustness of weighted proportional odds model with our adjusted weights via simulation studies. We further extend weighted proportional odds model to multi-stage dynamic treatment regime estimation with household interference, namely dynamic weighted proportional odds model. Lastly, we demonstrate our proposed methodology in the analysis of longitudinal survey data from the Population Assessment of Tobacco and Health study, which motivates this work. Furthermore, considering interference, we provide optimal treatment strategies for households to achieve smoking cessation of the pair in the household. |
| doi_str_mv | 10.1177/09622802241242313 |
| format | article |
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At each decision point, the decision rules determine the next treatment according to the patient’s baseline characteristics, the information on treatments and responses accrued by that point, and the patient’s current health status, including symptom severity and other measures. However, dynamic treatment regime estimation with ordinal outcomes is rarely studied, and rarer still in the context of interference – where one patient’s treatment may affect another’s outcome. In this paper, we introduce the weighted proportional odds model: a regression based, approximate doubly-robust approach to single-stage dynamic treatment regime estimation for ordinal outcomes. This method also accounts for the possibility of interference between individuals sharing a household through the use of covariate balancing weights derived from joint propensity scores. Examining different types of balancing weights, we verify the approximate double robustness of weighted proportional odds model with our adjusted weights via simulation studies. We further extend weighted proportional odds model to multi-stage dynamic treatment regime estimation with household interference, namely dynamic weighted proportional odds model. Lastly, we demonstrate our proposed methodology in the analysis of longitudinal survey data from the Population Assessment of Tobacco and Health study, which motivates this work. 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Examining different types of balancing weights, we verify the approximate double robustness of weighted proportional odds model with our adjusted weights via simulation studies. We further extend weighted proportional odds model to multi-stage dynamic treatment regime estimation with household interference, namely dynamic weighted proportional odds model. Lastly, we demonstrate our proposed methodology in the analysis of longitudinal survey data from the Population Assessment of Tobacco and Health study, which motivates this work. 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| ispartof | Statistical methods in medical research, 2024-06, Vol.33 (6), p.981-995 |
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| language | eng |
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| source | Applied Social Sciences Index & Abstracts (ASSIA); SAGE |
| subjects | Balancing Clinical outcomes Estimation Health status Households Housework Interference Original s Precision medicine Propensity Regression models Robustness Sequences Simulation Smoking Smoking cessation Tobacco |
| title | Estimating dynamic treatment regimes for ordinal outcomes with household interference: Application in household smoking cessation |
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