This application addresses broad Challenge Area (05): Comparative Effectiveness Research and specific Challenge Topic: 05-AA-102 Adaptive Designs and Person-Centered Data Analysis for Alcohol Treatment Research. As the challenge topic implies, statistical analyses using variable-centered approaches (e.g., comparison of means) are insufficient in many clinical studies of alcohol dependence. For example, statistical assumptions (e.g., normality) are routinely violated. Also, such methods can not adequately account for variability in drinking outcome. Similarly, simple trials comparing a treatment and a placebo often do not answer questions of particular import to clinicians, who have to make a series of decisions in the same patient based upon response to initial and subsequent treatment. Recently, there has been substantially increased interest in - and research on - the use of various pharmacological agents as promising adjuncts to psychosocial treatment to reduce alcohol consumption. Many of these studies collected person-centered drinking data using retrospective method, e.g., the timeline follow-back method to recall and record the daily drinking outcome for the past week. These daily drinking records were then summarized and analyzed. For example, Johnson et al. (2003) condensed the daily drinking records in the treatment assessment periods, while Johnson et al. (2007) condensed them in the weekly format. However, such condensed outcomes are not as informative as the original daily drinking record. Also, normality is often assumed for these outcomes, which could be violated. Third, the trajectory of the drinking outcome can not be fully captured in these analyses. In this grant proposal we will develop new statistical methods to analyze person-centered data for alcohol treatment research. First, we will use the original daily drinking level as the response variable, thus our method is more efficient than those using the condensed outcomes. Second, we tackle the non-normality of the daily drinking outcome by two- part models (2PM) to separately describe the odds of daily drinking being zero and the actual number of drinks in a drinking day. We also propose new methods to tackle the skewness and possible heteroscedasticity in the positive daily drinking level. Third, we are interested in the trajectory of the drinking outcome over time to better capture differences in outcomes. We will use both parametric and semiparametric methods (e.g., splines) to describe such temporal patterns. In many simple trials, we compare two arms, often a treatment arm and a control arm, to determine the efficacy of the intervention. However, such studies are insufficient when we are interested in determining the optimal dose from a range of doses. For example, Johnson et al. (2003, 2007) used a dose escalation scheme (from 25 mg to 300 mg) in the topiramate trials. In these proof of concept trials, they established the overall topiramate treatment effect at improving drinking outcomes. However, the topiramate effect at different dose levels remains to be ascertained so that we can identify the best dose which has the satisfactory efficacy while minimizing the rate of adverse events. Adaptive designs can offer a potential solution. The motivation behind adaptive designs is to bring together the statistical advantages of a sequential design with the ethical imperative of treating as many patients as possible at a dose judged to be the best, in the light of prior knowledge and the current accumulated data. In this context, the continual reassessment method (CRM) opened up the field to the use of working statistical models which have some optimal characteristics (O'Quigley, Pepe and Fisher, 1990). New methods to find the most successful dose (MSD) will be proposed to identify the optimal dose in a cost-effective way.

Public Health Relevance

(provided by applicant): In this grant proposal we will propose and apply several innovative models to analyze the person-centered data for alcohol treatment research. We will also introduce new adaptive designs to identify optimal dose in a cost-effective way. We expect that the completion of this study will speed the process of comparing effectiveness of different treatments in alcohol dependence studies.

Agency
National Institute of Health (NIH)
Institute
National Institute on Alcohol Abuse and Alcoholism (NIAAA)
Type
NIH Challenge Grants and Partnerships Program (RC1)
Project #
1RC1AA019274-01
Application #
7828734
Study Section
Special Emphasis Panel (ZRG1-PSE-C (58))
Program Officer
Falk, Daniel
Project Start
2009-09-30
Project End
2011-08-31
Budget Start
2009-09-30
Budget End
2010-08-31
Support Year
1
Fiscal Year
2009
Total Cost
$336,967
Indirect Cost
Name
University of Virginia
Department
Public Health & Prev Medicine
Type
Schools of Medicine
DUNS #
065391526
City
Charlottesville
State
VA
Country
United States
Zip Code
22904
Liu, Lei; Strawderman, Robert L; Johnson, Bankole A et al. (2016) Analyzing repeated measures semi-continuous data, with application to an alcohol dependence study. Stat Methods Med Res 25:133-52
Yu, Zhangsheng; Liu, Lei; Bravata, Dawn M et al. (2014) Joint model of recurrent events and a terminal event with time-varying coefficients. Biom J 56:183-97
Johnson, Bankole A; Ait-Daoud, Nassima; Wang, Xin-Qun et al. (2013) Topiramate for the treatment of cocaine addiction: a randomized clinical trial. JAMA Psychiatry 70:1338-46
Chen, Jinsong; Liu, Lei; Zhang, Daowen et al. (2013) A flexible model for the mean and variance functions, with application to medical cost data. Stat Med 32:4306-18
Yu, Zhangsheng; Liu, Lei; Bravata, Dawn M et al. (2013) A semiparametric recurrent events model with time-varying coefficients. Stat Med 32:1016-26
Chen, Jinsong; Liu, Lei; Johnson, Bankole A et al. (2013) Penalized likelihood estimation for semiparametric mixed models, with?application to alcohol treatment research. Stat Med 32:335-46
Wages, Nolan A; Liu, Lei; O'Quigley, John et al. (2012) Obtaining the optimal dose in alcohol dependence studies. Front Psychiatry 3:100
Chen, Jinsong; Johnson, Bankole A; Wang, Xin-Qun et al. (2012) Trajectory analyses in alcohol treatment research. Alcohol Clin Exp Res 36:1442-8
O'Quigley, John; Conaway, Mark (2011) Extended model-based designs for more complex dose-finding studies. Stat Med 30:2062-9
Zhangsheng, Yu; Liu, Lei (2011) A joint model of recurrent events and a terminal event with a nonparametric covariate function. Stat Med 30:2683-95

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