{smcl}
{* 30aug2004}{...}
{hline}
help for {cmd:predxcat}
{hline}
{title:Predicted means, medians, or proportions for nominal X's}
{p 6 21 2}
{cmdab:predxcat} {it:yvar} [{cmd:if} {it:exp}] [{cmd:in} {it:range}]{cmd:,}
{cmd:xvar(}{it:xvar1} [{it:xvar2}]{cmd:)}
[ {cmdab:adj:ust(}{it:covlist}{cmd:)}
{cmdab:mod:el}
{cmdab:l:evel(}#{cmd:)}
{cmdab:lin:ear}
{cmdab:med:ian}
{cmdab:g:raph}
{cmdab:b:ar}
{cmdab:cl:uster(}{it:cluster_var}{cmd:)}
{cmdab:sav:epred(}{it:filename}{cmd:)}
{it:graph_options}
]
{title:Description}
{p 4 8 4}
{cmd:predxcat} calculates and optionally graphs means from linear regression
models, medians from quantile regression models, or proportions from
logistic regression models for one or two nominal X variables, adjusted
for covariates. If a second X is specified, means, medians or proportions
are calculated for all possible combinations of X categories, and an
interaction effect is tested. Optionally, model estimates and/or a graph
may be displayed. Dummy variables are created for {it:xvar1}. The lowest
dummy variable defaults to the reference group. If {it:xvar2} is specified,
dummy variables are created for it, as well as interaction terms.
(Alternative to {help adjust} command.)
{title:Variables and options required}
{p 4}{it:yvar} is the dependent variable
{p 8 8 2}If {it:yvar} is continuous, defaults to linear regression
{p 8 8 2}If {it:yvar} is binary (0,1), defaults to logistic regression
{p 4 8 2}
{cmd:xvar(}{it:xvar1}{cmd:)} is the nominal variable for categories of estimated
means, medians, or proportions
{p 4 8 2}
{cmd:xvar(}{it:xvar1 xvar2}{cmd:)} gives categories of all combinations of
{it:xvar1} and {it:xvar2}; interaction between {it:xvar1} and {it:xvar2} is
tested (Partial F for linear or quantile regression and likelihood ratio test
for logistic regression)
{title:Options}
{p 4 8 2}
{cmd:adjust(}{it:covlist}{cmd:)} lists any covariates. If none are specified,
unadjusted means, medians, or proportions are reported. Covariates are set
to their mean, based on observations used in the analysis, or can be set to
user specified values (e.g., age=50 gender=1). (Note: if an {cmd:adjust}
variable is nominal with more than 2 categories, it must be defined with
dummy variables in the {cmd:adjust} list, whereas dummy variables are created
automatically in the {cmd:xvar} option)
{p 4 8 2}
{cmd:model} -- for display purposes only, this option prints the regression table
{p 4 8 2}
{cmd:level(}#{cmd:)} -- specifies the confidence level, in percent, for
calculation of confidence intervals (default=95%)
{p 4 8 2}
{cmd:graph} -- if one X ({it:xvar1}), graphs means, medians, or proportions and
confidence intervals; if both {it:xvar1} and {it:xvar2} are specified, points
are graphed for each mean, median, or proportion, but confidence intervals are
not graphed; {it:xvar1} is used for the x-axis with separate points for
categories of {it:xvar2}
{p 4 8 2}
{cmd:bar} -- can be used with the {cmd:graph} option to display a bar graph
instead of points
{p 4 8 2}
{cmd:linear} -- requests linear regression when {it:yvar} is binary (0,1); if not
specified, logistic regression is assumed
{p 4 8 2}
{cmd:median} -- requests quantile regression when {it:yvar} is continuous
{p 4 8 2}
{cmdab:cluster(}{it:cluster_var}{cmd:)} -- Name of cluster variable; adjusts standard
errors for intraclass correlation
{p 4 8 2}
{cmd:savepred(}{it:filename}{cmd:)} -- saves adjusted values and CI's to a Stata file
{title:Examples}
{p 4 8 2}{cmd:. predxcat chol, xvar(race) adjust(sbp age=50) model}
{p 8 8 2}
Uses linear regression to calculate mean cholesterol level by race category,
adjusted for mean sbp and age=50; displays model
{p 4 8 2}{cmd:. predxcat chol, xvar(ses) adjust(sbp age) graph}
{p 8 8 2}
Uses linear regression to calculate mean cholesterol by levels of
socio-economic status, adjusted for sbp and age; displays graph
{p 4 8 2}{cmd:. predxcat htn, xvar(gender race) adjust(age smoke etoh)}
{p 8 8 2}
Uses logistic regression to calculate proportion of hypertensives for all
combinations of gender (2 categories) and race (4 categories) for a total
of 8 proportions, adjusted for age, smoking status, and alcohol consumption;
tests for interaction between gender and race
{p 4 8 2}{cmd:. predxcat htn, xvar(race gender) adjust(age smoke etoh) graph bar}
{p 8 8 2}
Uses logistic regression to calculate the adjusted proportion of hypertensives
for all combinations of gender and race; bar graph of proportions, race on
the x-axis
{title:Also see}
{p 4 13 2}
Manual: {hi:[U] 23 Estimation and post-estimation commands},{break}
{hi:[R] adjust}
{title:Author}
{p 4 8 2}
{hi:J.M.Garrett}, Professor, School of Medicine, University of North Carolina,
Chapel Hill, NC.
Email: {browse "mailto:joanne_garrett@med.unc.edu":joanne_garrett@med.unc.edu}