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Bayesian Inferences for Beta Semiparametric-Mixed Models to Analyze Longitudinal Neuroimaging Data

id: 2308 Date: 20160221 Times:
Magazines   56 (2014) 4, 662–677
AuthorXiao-Feng Wang, Yingxing Li
ContentDiffusion tensor imaging (DTI) is a quantitative magnetic resonance imaging technique that measures the three-dimensional diffusion of water molecules within tissue through the application of multiple diffusion gradients. This technique is rapidly increasing in popularity for studying white matter properties and structural connectivity in the living human brain. One of the major outcomes derived from the DTI process is known as fractional anisotropy, a continuous measure restricted on the interval (0,1). Motivated from a longitudinal DTI study of multiple sclerosis, we use a beta semiparametric-mixed regression model for the neuroimaging data. This work extends the generalized additive modelmethodology with beta distribution family and random effects. We describe two estimation methods with penalized splines, which are formalized under a Bayesian inferential perspective. The first one is carried out by Markov chain Monte Carlo (MCMC) simulations while the second one uses a relatively new technique called integrated nested Laplace approximation (INLA). Simulations and the neuroimaging data analysis show that the estimates obtained from both approaches are stable and similar, while the INLA method provides an efficient alternative to the computationally expensive MCMC method.
JEL-Codes
KeywordsBeta distribution; Diffusion tensor imaging; Generalized semiparametric-mixed model; Integrated nested Laplace approximation; Markov chain Monte Carlo; Penalized splines.
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