Combining growth curves when a longitudinal study switches measurement tools

When longitudinal studies are performed to investigate the growth of traits in children, the measurement tool being used to quantify the trait may need to change as the subjects’ age throughout the study. Changing the measurement tool at some point in the longitudinal study makes the analysis of that growth challenging which, in turn, makes it difficult to determine what other factors influence the growth rate. We developed a Bayesian hierarchical modeling framework that relates the growth curves per individual for each of the different measurement tools and allows for covariates to influence the shapes of the curves by borrowing strength across curves. The method is motivated by and demonstrated by speech perception outcome measurements of children who were implanted with cochlear implants. Researchers are interested in assessing the impact of age at implantation and comparing the growth rates of children who are implanted under the age of two versus those implanted between the ages of two and four.

[1]  R. Miyamoto,et al.  Effects of Early Auditory Experience on Word Learning and Speech Perception in Deaf Children With Cochlear Implants: Implications for Sensitive Periods of Language Development , 2010, Otology & neurotology : official publication of the American Otological Society, American Neurotology Society [and] European Academy of Otology and Neurotology.

[2]  M. Dorman,et al.  A Sensitive Period for the Development of the Central Auditory System in Children with Cochlear Implants: Implications for Age of Implantation , 2002, Ear and hearing.

[3]  R. Stone Cochlear Implant Technology: The Future is Now , 1995 .

[4]  A. Huarte,et al.  Advantages of Cochlear Implantation in Prelingual Deaf Children before 2 Years of Age when Compared with Later Implantation , 2004, The Laryngoscope.

[5]  B. McMurray,et al.  Longitudinal Speech Perception and Language Performance in Pediatric Cochlear Implant Users: The Effect of Age at Implantation , 2014, Ear and hearing.

[6]  Jacob Oleson,et al.  A Bayesian approach to functional mixed‐effects modeling for longitudinal data with binomial outcomes , 2014, Statistics in medicine.

[7]  J. Tomblin,et al.  The effect of age at cochlear implant initial stimulation on expressive language growth in infants and toddlers. , 2005, Journal of speech, language, and hearing research : JSLHR.

[8]  Wensheng Guo Functional Mixed Effects Models , 2002 .

[9]  Linda L. Cook,et al.  IRT Equating Methods , 1991 .

[10]  J. Templin,et al.  Linking outcomes from peabody picture vocabulary test forms using item response models. , 2012, Journal of speech, language, and hearing research : JSLHR.

[11]  J. Ware Linear Models for the Analysis of Longitudinal Studies , 1985 .

[12]  J. Bruce Tomblin,et al.  Developmental constraints on language development in children with cochlear implants , 2007, International journal of audiology.

[13]  Andrew Thomas,et al.  WinBUGS - A Bayesian modelling framework: Concepts, structure, and extensibility , 2000, Stat. Comput..

[14]  Jerome P. Reiter,et al.  Nonparametric Bayesian Multiple Imputation for Missing Data Due to Mid-Study Switching of Measurement Methods , 2012 .

[15]  Seock-Ho Kim,et al.  A Comparison of Linking and Concurrent Calibration Under Item Response Theory , 1996 .

[16]  J. Ware,et al.  Random-effects models for longitudinal data. , 1982, Biometrics.

[17]  L. Lin,et al.  A concordance correlation coefficient to evaluate reproducibility. , 1989, Biometrics.

[18]  John Geweke,et al.  Evaluating the accuracy of sampling-based approaches to the calculation of posterior moments , 1991 .

[19]  R. Potthoff,et al.  A generalized multivariate analysis of variance model useful especially for growth curve problems , 1964 .

[20]  Russell V. Lenth,et al.  Statistical Analysis With Missing Data (2nd ed.) (Book) , 2004 .

[21]  J. Ware,et al.  Applied Longitudinal Analysis , 2004 .

[22]  G. E. Peterson,et al.  Revised CNC lists for auditory tests. , 1962, The Journal of speech and hearing disorders.