<p>Comparison of linear mixed-effects models predicting weight from other measurable body parameters.</p
<p>Comparison between standard fully adjusted models and non-linear models, according to goodness of...
<p>P-values of median weight as additional main factor for all tested mixed models (log-transformed)...
<p>The comparisons of different obesity indices in predicting hypertension risk.</p
<p>The weight parameters derived from the comparison of the model simulations and the experimental r...
Model comparison between logistic regression and mixed effect logistic regression.</p
Results from general linear mixed models on body weight, food consumed (grams), and kcal consumed.</...
Model comparison between logistic regression and mixed effect Logistic regression.</p
<p><b>CI = confidence interval, STD = standard deviation.</b></p><p>Linear mixed effects model summa...
<p>Comparison of fit for univariate and multivariate models (with contrast effect).</p
Comparison of linear mixed effects model with and without an interaction term.</p
<p>Final models of multivariable analysis adjusted by a propensity score showing differences between...
<p>Comparison of the measurements between the three models, for each measurement.</p
<p>The comparison of the real weights and the weights estimated from different methods.</p
<p>Linear modeling results using body weight and Δbody weight as predictors from all animals.</p
Results of comparison of correctly predicted proportions of cases by the two models.</p
<p>Comparison between standard fully adjusted models and non-linear models, according to goodness of...
<p>P-values of median weight as additional main factor for all tested mixed models (log-transformed)...
<p>The comparisons of different obesity indices in predicting hypertension risk.</p
<p>The weight parameters derived from the comparison of the model simulations and the experimental r...
Model comparison between logistic regression and mixed effect logistic regression.</p
Results from general linear mixed models on body weight, food consumed (grams), and kcal consumed.</...
Model comparison between logistic regression and mixed effect Logistic regression.</p
<p><b>CI = confidence interval, STD = standard deviation.</b></p><p>Linear mixed effects model summa...
<p>Comparison of fit for univariate and multivariate models (with contrast effect).</p
Comparison of linear mixed effects model with and without an interaction term.</p
<p>Final models of multivariable analysis adjusted by a propensity score showing differences between...
<p>Comparison of the measurements between the three models, for each measurement.</p
<p>The comparison of the real weights and the weights estimated from different methods.</p
<p>Linear modeling results using body weight and Δbody weight as predictors from all animals.</p
Results of comparison of correctly predicted proportions of cases by the two models.</p
<p>Comparison between standard fully adjusted models and non-linear models, according to goodness of...
<p>P-values of median weight as additional main factor for all tested mixed models (log-transformed)...
<p>The comparisons of different obesity indices in predicting hypertension risk.</p
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