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Treatment heterogeneity and individual qualitative interaction

Doctor of Philosophy / Department of Statistics / Gary L. Gadbury / The potential for high variability in treatment effects across individuals has been
recognized as an important consideration in clinical studies. Surprisingly, little attention has been
given to evaluating this variability in design of clinical trials or analyses of resulting data. High
variation in a treatment’s efficacy or safety across individuals (referred to herein as treatment
heterogeneity) may have important consequences because the optimal treatment choice for an
individual may be different from that suggested by a study of average effects. We call this an
individual qualitative interaction (IQI), borrowing terminology from earlier work - referring to a
qualitative interaction (QI) being present when the optimal treatment varies across ‘groups’ of
individuals. At least three techniques have been proposed to investigate treatment heterogeneity:
techniques to detect a QI, use of measures such as the density overlap of two outcome variables
under different treatments, and use of cross-over designs to observe ‘individual effects.’
Connections, limitations, and the required assumptions are compared among these techniques
through a quantity frequently referred to as subject-treatment (S-T) interaction, but shown here to
be the probability of an IQI (PIQI). Their association is studied utilizing a potential outcomes
framework that can add insights to results from usual data analyses and to study design features
to more directly assess treatment heterogeneity.
Particular attention is given to the density overlap of two outcome variables, each
representing an individual’s ‘potential’ response under a different treatment. Connections are
made between the overlap quantified as the proportion of similar responses (PSR) and the PIQI.
Given a bivariate normal model, the maximum PIQI is shown to be an upper bound for ½ the
PSR. Additionally, the characterization of a conditional PSR allows for the PIQI boundaries to
be developed within subgroups defined over observable covariates so that the subset contribution
to treatment heterogeneity may be identified. The possibility of similar boundaries is explored
outside the normal model using the skew normal distribution. Furthermore, a bivariate PIQI is
developed along with its PSR counterpart to help characterize treatment heterogeneity resulting
from a bivariate response such as the efficacy and safety of a treatment.

Identiferoai:union.ndltd.org:KSU/oai:krex.k-state.edu:2097/8568
Date January 1900
CreatorsPoulson, Robert S.
PublisherKansas State University
Source SetsK-State Research Exchange
Languageen_US
Detected LanguageEnglish
TypeDissertation

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