ordinalCont-package: ordinalCont-package
In ordinalCont: Ordinal Regression Analysis for Continuous Scales
Description
Details
Author(s)
References
Description
Regression analysis of continous ordinal data via cumulative link models and cumulative link mixed models. The package can be used to fit a variety of transformation models.
Details
Ordinal regression analysis is a convenient tool for analyzing ordinal response variables
in the presence of covariates. We extend this methodology to the case of continuous self-rating
scales such as the Visual Analog Scale (VAS) used in pain assessment, or the Linear Analog
Self-Assessment (LASA) scales in quality of life studies. Subjects are
typically given a linear scale of 100 mm and asked to put a mark where they perceive
themselves. These scales measure subjects'
perception of an intangible quantity, and cannot be handled as ratio variables because of their
inherent nonlinearity. Instead we treat them as ordinal variables, measured on a continuous scale. We
express the likelihood in terms of a function (the “g function”) connecting the
scale with an underlying continuous latent variable. In the current version the g function
is expressed with monotone increasing I-splines (Ramsey 1988).
The link function is the inverse of the CDF of the assumed underlying distribution of the
latent variable. Currently
the logit link, which corresponds to a standard logistic distribution, is implemented.
(This implies a proportional odds model.) The likelihood is
maximized using the MI algorithm (Ma, 2010). Fixed- and mixed-effects models are implemented
in the function ocm.
Author(s)
Maurizio Manuguerra, Gillian Heller
References
Manuguerra M, Heller GZ, Ma J (2017). Semi-parametric Ordinal Regression Models for Continuous
Scales, Proceedings of the 32nd International Workshop on Statistical Modelling. July 3-7, 2017, Groningen, Netherlands.
Manuguerra M, Heller GZ (2010). Ordinal Regression Models for Continuous
Scales, The International Journal of Biostatistics: 6(1), Article 14.
Heller, GZ, Manuguerra M, Chow R (2016). How to analyze the Visual Analogue Scale:
Myths, truths and clinical relevance, Scandinavian Journal of Pain, Volume 13, 67 - 75
Ma, J. (2010). Positively Constrained Multiplicative Iterative Algorithm for Maximum
Penalized Likelihood Tomographic Reconstruction, Nuclear Science 57 (1): 181-92.
Ramsay, J. O. (1988). Monotone regression splines in action. Statistical science, 425-441.
Manuguerra M, Heller GZ, Ma J (2020). Continuous Ordinal Regression for Analysis of Visual Analogue Scales: The R Package ordinalCont, Journal of Statistical Software. 96(8). doi:10.18637/jss.v096.i08
ordinalCont documentation built on Dec. 3, 2020, 1:06 a.m.
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Description Details Author(s) References
Description
Regression analysis of continous ordinal data via cumulative link models and cumulative link mixed models. The package can be used to fit a variety of transformation models.
Details
Ordinal regression analysis is a convenient tool for analyzing ordinal response variables
in the presence of covariates. We extend this methodology to the case of continuous self-rating
scales such as the Visual Analog Scale (VAS) used in pain assessment, or the Linear Analog
Self-Assessment (LASA) scales in quality of life studies. Subjects are
typically given a linear scale of 100 mm and asked to put a mark where they perceive
themselves. These scales measure subjects'
perception of an intangible quantity, and cannot be handled as ratio variables because of their
inherent nonlinearity. Instead we treat them as ordinal variables, measured on a continuous scale. We
express the likelihood in terms of a function (the “g function”) connecting the
scale with an underlying continuous latent variable. In the current version the g function
is expressed with monotone increasing I-splines (Ramsey 1988).
The link function is the inverse of the CDF of the assumed underlying distribution of the
latent variable. Currently
the logit link, which corresponds to a standard logistic distribution, is implemented.
(This implies a proportional odds model.) The likelihood is
maximized using the MI algorithm (Ma, 2010). Fixed- and mixed-effects models are implemented
in the function ocm.
Author(s)
Maurizio Manuguerra, Gillian Heller
References
Manuguerra M, Heller GZ, Ma J (2017). Semi-parametric Ordinal Regression Models for Continuous Scales, Proceedings of the 32nd International Workshop on Statistical Modelling. July 3-7, 2017, Groningen, Netherlands.
Manuguerra M, Heller GZ (2010). Ordinal Regression Models for Continuous Scales, The International Journal of Biostatistics: 6(1), Article 14.
Heller, GZ, Manuguerra M, Chow R (2016). How to analyze the Visual Analogue Scale: Myths, truths and clinical relevance, Scandinavian Journal of Pain, Volume 13, 67 - 75
Ma, J. (2010). Positively Constrained Multiplicative Iterative Algorithm for Maximum Penalized Likelihood Tomographic Reconstruction, Nuclear Science 57 (1): 181-92.
Ramsay, J. O. (1988). Monotone regression splines in action. Statistical science, 425-441.
Manuguerra M, Heller GZ, Ma J (2020). Continuous Ordinal Regression for Analysis of Visual Analogue Scales: The R Package ordinalCont, Journal of Statistical Software. 96(8). doi:10.18637/jss.v096.i08
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