1 / 24

Variable Selection for Tailoring Treatment

Variable Selection for Tailoring Treatment. S.A. Murphy, L. Gunter & J. Zhu May 29, 2008. Outline. Motivation Need for Variable Selection Characteristics of a Tailoring Variable A New Technique for Finding Tailoring Variables Comparisons Discussion. Motivating Example. Simple Example.

kelly-meyer
Download Presentation

Variable Selection for Tailoring Treatment

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Variable Selection for Tailoring Treatment S.A. Murphy, L. Gunter & J. Zhu May 29, 2008

  2. Outline • Motivation • Need for Variable Selection • Characteristics of a Tailoring Variable • A New Technique for Finding Tailoring Variables • Comparisons • Discussion

  3. Motivating Example

  4. Simple Example Nefazodone - CBASP Trial Nefazodone Randomization Nefazodone + Cognitive Behavioral Analysis System of Psychotherapy (CBASP) 50+ baseline covariates, both categorical and continuous

  5. Simple Example Nefazodone - CBASP Trial Which variables in X are important for choosing the optimal treatment?

  6. Need for Variable Selection • In clinical trials many pretreatment variables are collected to improve understanding and inform future treatment • Yet in clinical practice, only the most informative variables for tailoring treatment can be collected. • A combination of theory, clinical experience and statistical variable selection methods can be used to determine which variables are important in tailoring.

  7. Current Statistical Variable Selection Methods • Current statistical variable selection methods focus only on finding good predictors of the response • Also need variables to help determine which treatment is best for individual patients, e.g. tailoring variables • Experts typically have knowledge on which variables are good predictors, but intuition about tailoring variables is often lacking

  8. What is a Tailoring Variable? • Tailoring variables help us determine which treatment is best • Tailoring variables qualitatively interact with the treatment; different values of the tailoring variable result in different best treatments. No Interaction Non-qualitative Interaction Qualitative interaction

  9. Qualitative Interactions • We focus on two important factors • The magnitude of the interaction between the tailoring variable and the treatment indicator • The proportionof patients for whom the best choice of treatment changes given knowledge of the variable big interaction small interaction big interaction big proportion big proportion small proportion

  10. Magnitude of the Interaction • We estimatemagnitudefactor by: Dj = change in the effect of the best treatment a*=1 over the range of variable Xj maximum effect of treatment a* on R minimum effect of treatment a* on R Dj= max effect – min effect

  11. Proportion • We estimate the proportionfactor by: Pj= percentage of patients in the sample whose best treatment changes when variable Xj is considered Treatment A=0 is best for 2 out of 7 subjects even though treatment A=1 is best overall

  12. Ranking Score U • We combine D and P to make a score U for each X pretreatment variable. • Variables are ranked by their score, U; higher U’s correspond to higher evidence of a qualitative interaction by the X variable. • We use this ranking in a variable selection algorithm to select important tailoring variables.

  13. Variable Selection Algorithm • Select important predictors of R from X using a predictive variable selection method (reducing noise in R) • Rank interactions between X and A using score U, select all with nonzero U. • Construct a combined ranking of variables selected in steps 1 and 2 • Choose between variable subsets using a criterion that trades off number of variables and estimated maximal response due to tailoring.

  14. Simulations • Data simulated under wide variety of realistic decision making scenarios (with and without qualitative interactions) • Compared: • Ranking method, U, using variable selection algorithm • Standard technique: Lasso on (X, A, XA) • 1000 simulated data sets: recorded percentage of time each variable’s interaction with treatment was selected for each method

  15. Simulation Results ×Binary Qualitative Interaction Non-qualitative Interaction Spurious Interaction ×Continuous Qualitative Interaction Non-qualitative Interaction Spurious Interaction

  16. Simulation Results

  17. Nefazodone - CBASP Trial Aim of the Nefazodone CBASP trial – to compare efficacy of three alternate treatments for major depressive disorder (MDD): • Nefazodone, • Cognitive behavioral-analysis system of psychotherapy (CBASP) • Nefazodone + CBASP Which variables might help tailor the depression treatment to each patient?

  18. Nefazodone - CBASP Trial • For our analysis we used data from 440 patients with

  19. Nefazodone - CBASP Trial • Used bootstrap samples to produce a selection percentage for each variable. • Permutated the rows of the X*A matrix to produce thresholds. The highest ranked spurious interaction is less than the 80% threshold in 80% of repeated permutations.

  20. Nefazodone - CBASP Trial

  21. Discussion • This method provides a list of potential tailoring variables while reducing the number of false leads. • Replication is required to confirm the usefulness of a tailoring variable. • Our long term goal is to generalize this method so that it can be used with data from Sequential, Multiple Assignment, Randomized Trials as illustrated by STAR*D.

  22. Email Susan Murphy at samurphy@umich.edu for more information! • This seminar can be found at http://www.stat.lsa.umich.edu/~samurphy/seminars/ SPR0508.ppt • Support: NIDA P50 DA10075, NIMH R01 MH080015 and NSF DMS 0505432 • Thanks for technical and data support go to • A. John Rush, MD, Betty Jo Hay Chair in Mental Health at the University of Texas Southwestern Medical Center, Dallas • Martin Keller and the investigators who conducted the trial `A Comparison of Nefazodone, the Cognitive Behavioral-analysis System of Psychotherapy, and Their Combination for Treatment of Chronic Depression’

  23. Interaction Plot

  24. Interaction Plot

More Related