Package ‘regtomean’ - Regression Toward The Mean

Type: Package
Title: Regression Toward the Mean
Version: 1.2
License: MIT + file LICENSE
Encoding: UTF-8
LazyData: true
RoxygenNote: 7.1.1
Depends: R (>= 3.4.0)
NeedsCompilation: no
Repository: CRAN
Date/Publication: 2022-10-26 13:52:37 UTC

Description

In repeated measures studies with extreme large or small values, it is common for the subjects’ measurements on average to be closer to the mean of the basic population. Interpreting possible changes in the mean in such situations can lead to biased results since the values were not randomly selected, they come from truncated sampling. This method allows estimating the range of means where treatment effects are likely to occur when regression toward the mean is present.

Ostermann, T., Willich, Stefan N. & Luedtke, Rainer. (2008). Regression toward the mean - a detection method for unknown population mean based on Mee and Chua’s algorithm. BMC Medical Research Methodology.

Authors

Maintainer

Daniela Recchia daniela.rodriguesrecchia@uni-wh.de

Acknowledgments

We would like to acknowledge Lena Roth and Nico Steckhan for the package’s initial updates (Q3 2024) and continued supervision and guidance. Both have contributed to discussing and integrating these methods into the package, ensuring they are up-to-date and contextually relevant.

Installation

To install this package, use:

install.packages("regtomean")

Dependencies

Table of Contents

  1. language_test
  2. cordata
  3. replicate_data
  4. meechua_reg
  5. meechua_eff.CI
  6. plot_mu
  7. plot_t
  8. meechua_plot

language_test

Description:

A dataset with scores from 8 students who failed a high school test and could not get their diploma. They repeated the exam and got new scores.

Usage:

data("language_test")

Format:

A data frame with 8 observations on the following 9 variables:

Source:

McClave, J.T; Dietrich, F.H.: “Statistics”; New York, Dellen Publishing; 1988.

cordata

Description:

This function calculates the correlation for the data and Cohen’s d effect sizes, both based on pooled and on treatment standard deviations.

Usage:

cordata(Before, After, data)

Arguments:

Details:

This function computes the correlation between both measures as also both effect sizes based on Cohen’s d statistic.

The inputs must be numeric.

Value:

Returns a table containing the correlation, effect size pooled, and effect size based on treatment.

Author(s):

Daniela Recchia, Thomas Ostermann.

References:

Cohen, J. (1988). Statistical power analysis for the behavioral sciences (2nd ed.). New York: Academic Press.

See Also:

cohen.d, cor

Examples:

cordata("Before", "After", data=language_test)

replicate_data

Description

This function replicates 100 times the before and after values giving a start and end reference.

Usage

replicate_data(start, end, Before, After, data)

Arguments

Details

In order to overcome the limitation of Mee and Chua’s test regarding the population mean µ, a replication of the data is performed.

After replicating the data, the unknown population mean µ is systematically estimated over a range of values. Further estimations will be based on this new dataset.

Value

Returns a data frame we could call mee_chua containing the values for µ, before, and after.

Author(s)

Daniela Recchia, Thomas Ostermann.

References

Ostermann, T., Willich, Stefan N. & Luedtke, Rainer. (2008). Regression toward the mean - a detection method for unknown population mean based on Mee and Chua’s algorithm. BMC Medical Research Methodology.

Galton, F. (1886). Regression towards mediocrity in hereditary stature. Journal of the Anthropological Institute (15: 246-263).

See Also

rep

Examples

replicate_data(0, 100, "Before", "After", data=language_test)

meechua_reg

Description

This function fits linear models for a subset of data frames.

Usage

meechua_reg(x)

Arguments

Details

The data used for the regression must be sorted by mu.

A set of linear models will be estimated and model coefficients are saved and stored in mod_coef.

The estimated standard error for the after measure is also stored in se_after to be used further in other functions.

Value

A table containing the estimations for each mu. Global variables models, mod_coef, se_after are stored for further analysis. The models are saved in an object called mee_chua, which is not automatically printed but is saved in the environment.

Author(s)

Daniela Recchia, Thomas Ostermann.

References

Ostermann, T., Willich, Stefan N. & Luedtke, Rainer. (2008). Regression toward the mean - a detection method for unknown population mean based on Mee and Chua’s algorithm. BMC Medical Research Methodology.

See Also

lm, dlply

Examples

## get the values ##
mee_chua <- replicate_data(0, 100, "Before", "After", data=language_test)
meechua_reg(mee_chua)

meechua_eff.CI

Description

This function calculates and plots treatment and regression effects of both before and after measures as also its p-values.

Usage

meechua_eff.CI(x, n, se_after)

Arguments

Details

After performing the meechua_reg, the model coefficients mod_coef and the global variable se_after are used as input in this function to estimate treatment and regression effects.

Value

Two plots are performed: the first “Treatment Effect and p-value” and the second “Confidence Intervals” for µ.

Author(s)

Daniela Recchia, Thomas Ostermann

References

Ostermann, T., Willich, Stefan N. & Luedtke, Rainer. (2008). Regression toward the mean - a detection method for unknown population mean based on Mee and Chua’s algorithm. BMC Medical Research Methodology.

See Also

meechua_reg

Examples

# First perform replicate_data and meechua_reg
replicate_data(0, 100, "Before", "After", data=language_test)
meechua_reg(mee_chua)

# Model coefficients (mod_coef) and se_after are stored in the environment
# as a result from the function meechua_reg
meechua_eff.CI(mod_coef, 8, se_after)

plot_mu

Description

Based on the data before and after the intervention and the regression models of the function meechua_reg, this function plots for a given range of µ the t-statistics and p-values of one sided tests, wether the intervention is having an significant impact on the measurements accounting for regression to the mean.

Interpretation

For each µ the t-statistic and p-value correspond to the one sided test, if the intercept of the regression model from meechua_reg is significantly different from µ in the specified direction. Respecting the assumptions of the method, this is equivalent to the intervention having an significant impact accounting for regression to the mean. If for a concrete µ the p-value is below the specified threshold -visible as a blue dashed line- the impact of the intervention is significant under the assumption that µ is the real population mean.

Usage

plot_mu(x, n, se_after, lower = F, alpha = 0.05)

Arguments

Argument Description
x A data frame containing the results from meechua_reg. It is stored as mod_coef.
n The original sample size (number of observations) of the data.
se_after The estimated standard error from meechua_reg. It is stored as se_after.
lower Boolean value specifying the direction of the one sided tests. For lower = F (the default) it is testing, wether the intervention is increasing the measurements, for lower = T, wether the second measurements are lower than expected.
alpha Specifies the significance threshold for the p-values of corresponding one sided tests. The default is alpha = 0.05.

Output

Plot for a range of µ the p-values and t-values of the corresponding tests against µ and prints some relevant values:

The value of µ, for which the treatment effect is the most statistically significant, and the corresponding t-statistic and p-value. The highest and lowest µ, for which the treatment impact is significant.

Those variables will be returned as a list as well.

Author(s)

Julian Stein

References

Ostermann, T., Willich, Stefan N. & Luedtke, Rainer. (2008). Regression toward the mean - a detection method for unknown population mean based on Mee and Chua’s algorithm. BMC Medical Research Methodology.

See Also

meechua_reg

Example

# First perform replicate_data and meechua_reg
replicate_data(0, 100, "Before", "After", data=language_test)
meechua_reg(mee_chua)

#mod_coef and se_after are stored in the environment. The parameters lower = F and alpha = 0.05 can be omitted
plot_mu(mod_coef, 8, se_after)

#Alternative usage: Testing for decreased values due to the intervention with significance threshold alpha = 0.1
plot_mu(mod_coef, 8, se_after, lower=T, alpha = 0.1)

plot_t

Description

Similar to plot_mu, this function plots for a given range of µ the t-statistics and p-values of one sided tests, wether the intervention is having an significant impact on the measurements accounting for regression to the mean. The difference is, that this function is only based on some statistics of the samples before and after the treatment, like the mean, standard deviation and covariance/correlation.

Interpretation

For each µ the t-statistic and p-value correspond to the one sided test, if the intervention has an significant impact on the second measurements accounting for regression to the mean. If for a concrete µ the p-value is below the specified threshold -visible as a blue dashed line- the impact of the intervention is significant under the assumption that µ is the real population mean.

Usage

plot_t(mu_start, mu_end, n, y1_mean, y2_mean, y1_std, y2_std, cov, lower = F, alpha = 0.05, r_insteadof_cov = F)

Arguments

Argument Description
mu_start Lower end for the range of µ to be considered.
mu_end Upper end for the range of µ to be considered.
n The number of observations.
y1_mean Mean of the first measurement.
y2_mean Mean of the second measurement.
y1_std Standard deviation of the first measurement.
y2_std Standard deviation of the second measurement.
cov Covariance between the first and second measurements. If r_insteadof_cov = T this argument represents the correlation instead.
lower Boolean value specifying the direction of the one sided tests. For lower = F (the default) it is testing, wether the intervention is increasing the measurements, for lower = T, wether the second measurements are lower than expected.
alpha Specifies the significance threshold for the p-values of corresponding one sided tests. The default is alpha = 0.05.
r_insteadof_cov Boolean value for the alternative usage of correlation instead of covariance. If r_insteadof_cov = T, the input cov is interpreted as the correlation.

Output

Plot for a range of µ the p-values and t-values of the corresponding tests against µ and prints some relevant values:

The value of µ, for which the treatment effect is the most statistically significant, and the corresponding t-statistic and p-value. The highest and lowest µ, for which the treatment impact is significant.

Those variables will be returned as a list as well.

Author(s)

Julian Stein

References

Ostermann, T., Willich, Stefan N. & Luedtke, Rainer. (2008). Regression toward the mean - a detection method for unknown population mean based on Mee and Chua’s algorithm. BMC Medical Research Methodology.

See Also

plot_mu

Example

#Using the parameters corresponding to the example of the function plot_mu

plot_t(mu_start = 0, mu_end = 100, n = 8 , y1_mean = 57.375, y2_mean = 60.375, y1_std = 7.0, y2_std = 8.8, cov = 54.268)

meechua_plot

Description

This function plots all 4 diagnostics plots for each linear regression model: “Residuals vs Fitted”, “Normal Q-Q”, “Scale-Location” and “Residuals vs Leverage”.

Usage

meechua_plot(x)

Arguments

Details

For each model from models, 4 diagnostic plots are performed. For the first model, the numbers 1 to 4 should be given, for the second model numbers from 5 to 8, and so on.

Value

Diagnostics plots for the set of models from meechua_reg.

Author(s)

Daniela Recchia, Thomas Ostermann.

References

Ostermann, T., Willich, Stefan N. & Luedtke, Rainer. (2008). Regression toward the mean - a detection method for unknown population mean based on Mee and Chua’s algorithm. BMC Medical Research Methodology.

See Also

plot.lm, meechua_reg

Examples

# models are an output from meechua_reg
replicate_data(0, 100, "Before", "After", data=language_test)
meechua_reg(mee_chua)

# models are the output from meechua_reg saved in the environment after running the function
meechua_plot(models)