STRATA
variable <(list)> <…variable <(list)>> </ options> ;
The STRATA statement identifies the variables that determine the strata levels. Strata are formed according to the nonmissing values of these variables. The MISSING option can be used to allow missing values as a valid stratum level. Other options enable you to specify various k-sample tests, stratified tests, or trend tests and to make multiple-comparison adjustments for paired differences.
In the preceding syntax, variable is a variable whose values determine the stratum levels, and list is a list of endpoints for a numeric variable. The values for variable can be formatted or unformatted. If variable is a character variable, or if variable is numeric and no list appears, then the strata are defined by the unique values of the STRATA variable. More than one variable can be specified in the STRATA statement, and each numeric variable can be followed by a list. Each interval contains its lower endpoint but not its upper endpoint. The corresponding strata are formed by the combination of levels. If a variable is numeric and is followed by a list, then the levels for that variable correspond to the intervals defined by the list. The initial interval is assumed to start at , and the final interval is assumed to end at .
The specification of a STRATA variable can have any of the following forms:
A list separated by blanks |
|
|
A list separated by commas |
|
|
x to y |
|
|
x to y by z |
|
|
A combination of the above |
|
For example, the specification
strata Age(5,20 to 50 by 10) Sex;
indicates the following levels for the Age
variable:
This statement also specifies that the Age
strata be further subdivided by values of the variable Sex
. In this example, there are six age groups by two sex groups, forming a total of 12 strata.
The specification of several STRATA variables, such as
strata A B C;
is equivalent to the A
*B
*C
syntax of the TABLES statement in the FREQ procedure. The number of strata levels usually grows very rapidly with the number
of STRATA variables, so you must be cautious when specifying the list of STRATA variables.
When comparing more than two survival curves, a k-sample test tells you whether the curves are significantly different from each other, but it does not identify which pairs of curves are different. A multiple-comparison adjustment of the p-values for the paired comparisons retains the same overall false positives as the k-sample test. Two types of paired comparisons can be made: comparisons between all pairs of curves and comparisons between a control curve and all other curves. You use the DIFF= option to specify the comparison type, and you use the ADJUST= option to select a method of multiple-comparison adjustments.
Table 56.2 summarizes the options available in the STRATA statement.
Table 56.2: Options Available in the STRATA Statement
Option |
Description |
---|---|
Homogeneity Tests |
|
Specifies the group variable for stratified tests |
|
Suppresses printing the test statistic and covariance matrix |
|
Suppresses any tests |
|
Specifies tests corresponding to various weight functions |
|
Requests a trend test |
|
Multiple Comparisons |
|
Requests a multiple-comparison adjustment |
|
Specifies the type of differences to consider |
|
Missing Strata Value |
|
Allows missing values as valid stratum values |
|
Display Option |
|
Uses the names of the STRATA variables in the display |
You can specify the following options in the STRATA statement after a slash (“/”).