-
BETABOUNDARY=BINDING | NONBINDING
-
specifies whether the boundary is used in the computation of the Type I error level .
The BETABOUNDARY=BINDING option computes the Type I error probability with the (acceptance) boundary, and the BETABOUNDARY=NONBINDING suboption computes the Type I error probability without the boundary (Zhu, Ni, and Yao, 2011, pp. 132–133).
For a detailed description of nonbinding acceptance boundary, see the section “Acceptance () Boundary” in Chapter 87: The SEQDESIGN Procedure. The default is BETABOUNDARY=BINDING.
-
BETAOVERLAP=ADJUST | NOADJUST
OVERLAP=ADJUST | NOADJUST
-
specifies whether to check for overlapping of the lower and upper
boundaries for the two corresponding one-sided tests at the current and subsequent interim stages. This option applies to
two-sided designs with early stopping to accept , or to either accept or reject . This type of overlapping might result from a small spending at an interim stage. When you specify BETAOVERLAP=ADJUST, the procedure checks for this type of overlapping at the
current and subsequent interim stages. If such overlapping is found, the boundaries for the two-sided design at that stage are set to missing, and the spending values at subsequent stages are adjusted, as described in the section Boundary Adjustments for Overlapping Lower and Upper Boundaries.
You can specify BETAOVERLAP=NOADJUST to request that no adjustment be made. The default is BETAOVERLAP=ADJUST.
-
BOUNDARY=SAS-data-set
-
names the required SAS data set that contains the design boundary information.
At stage 1, the data set is usually created from the “Boundary Information” table created by the SEQDESIGN procedure. At each subsequent stage, the data set is usually created from the “Test Information” table created by the SEQTEST procedure at the previous stage. The data set includes the variables _Scale_
for the boundary scale, _Stop_
for the stopping criterion, and _ALT_
for the type of alternative hypothesis. It also includes _Stage_
for the stage number, Info_Prop
for the information proportion, and a set of the boundary variables from Bound_LA
, Bound_LB
, Bound_UB
, and Bound_UA
for boundary values at each stage.
The data set might also include _Info_
for the actual information level, NObs
for the number of observation, and Events
for the number of events required at each stage.
-
BOUNDARYKEY=ALPHA | BETA | BOTH
-
specifies the boundary key
to be maintained in the boundary adjustments. The BOUNDARYKEY=ALPHA option maintains the Type I level and derives the Type II error probability, and the BOUNDARYKEY=BETA option maintains the Type II level and derives the Type I error probability. The BOUNDARYKEY=BOTH option maintains both and levels simultaneously by deriving a new maximum information. The default is BOUNDARYKEY=ALPHA.
-
BOUNDARYSCALE=MLE | SCORE | STDZ | PVALUE
BSCALE=MLE | SCORE | STDZ | PVALUE
-
specifies the boundary scale
to be displayed in the output boundary table and plot. The BOUNDARYSCALE=MLE, BOUNDARYSCALE=SCORE, BOUNDARYSCALE=STDZ, and
BOUNDARYSCALE=PVALUE options correspond to the boundary with the maximum likelihood estimator scale, score statistic scale,
standardized normal Z scale, and p-value scale, respectively. The default is BOUNDARYSCALE=STDZ.
With the BOUNDARYSCALE=MLE or BOUNDARYSCALE=SCORE option, either the MAXINFO= option must be specified or the _Info_
variable must be in the BOUNDARY= data set to provide the necessary information level at each stage to derive the boundary
values. Usually, these values are obtained from analysis output in SAS procedures.
Note that for a two-sided design, the p-value scale displays the one-sided fixed-sample p-value under the null hypothesis with a lower alternative hypothesis.
-
CIALPHA= <( <LOWER=
> <UPPER=
> )>
-
specifies the significance levels
for the confidence interval,
where , , and . The default is CIALPHA= 0.05.
For a lower confidence interval (CITYPE=LOWER), the CIALPHA= option produces a lower confidence interval. For an upper confidence interval (CITYPE=UPPER), the CIALPHA= option produces a upper confidence interval. The LOWER= and UPPER= suboptions are applicable only for a two-sided confidence interval (CITYPE=TWOSIDED).
The LOWER= suboption specifies the lower significance level and the upper significance level . The UPPER= suboption specifies the upper significance level and the lower significance level . If both LOWER= and UPPER= suboptions are not specified, . The significance levels and are then used for the lower confidence limit and upper confidence limit, respectively.
-
CITYPE=LOWER | UPPER | TWOSIDED
-
specifies the type of confidence interval.
The CITYPE=LOWER, CITYPE=UPPER, and CITYPE=TWOSIDED options correspond to the lower confidence interval, upper confidence
interval, and two-sided confidence interval, respectively. The default is CITYPE=LOWER for the design with an upper alternative,
CITYPE=UPPER for the design with a lower alternative, and CITYPE=TWOSIDED for the design with a two-sided alternative.
-
DATA <(TESTVAR=variable)>=SAS-data-set
-
names the SAS data set that contains the test statistic and its associated information level
for the stage. The data set includes the stage variable _Stage_
and a variable to identify or derive the information level: _Info_
for the information level, NObs
for the number of observation, or Events
for the number of events. If the information level that corresponds to the test statistic is not available, the information
level derived in the BOUNDARY= data set is used.
If the TESTVAR= option is specified, the data set also includes the test variable specified in the TESTVAR= option and the
scale variable _Scale_
for the test statistic. Usually, these test variable values are obtained from analysis output in SAS procedures.
-
ERRSPENDADJ=method
ERRSPENDADJ(boundary)=method
BOUNDARYADJ=method
BOUNDARYADJ(boundary)=method
-
specifies methods to compute the error spending values at the current
and future interim stages for the boundaries. This option is applicable only if the observed information level at the current
stage does not match the value provided in the BOUNDARY= data set. These error spending values are then used to derive the
updated boundary values. The default is ERRSPENDADJ=ERRLINE. Note that the information levels at future interim stages are
determined by the INFOADJ= option.
The following options specify available error spending methods for boundary adjustment:
-
NONE
-
specifies that the cumulative error spending at each interim stage not be changed, even if the corresponding information level
has been changed.
-
ERRLINE
-
specifies the linear interpolation method for the adjustment.
-
ERRFUNCGAMMA < ( GAMMA=
) >
-
specifies the gamma function method for the adjustment. The GAMMA= suboption specifies the parameter in the function, where . The default is GAMMA=–2.
-
ERRFUNCOBF
-
specifies the approximate O’Brien-Fleming cumulative error spending function for the adjustment.
-
ERRFUNCPOC
-
specifies the approximate Pocock cumulative error spending function for the adjustment.
-
ERRFUNCPOW < ( RHO=
) >
-
specifies the power function method for the adjustment. The RHO= suboption specifies the power parameter in the function, where . The default is RHO=2.
See the section Boundary Adjustments for Information Levels for a detailed description of the available error spending methods for boundary adjustment in the SEQTEST procedure.
If an error spending method for boundary adjustments is used for all boundaries in a group sequential test, you can use the
ERRSPENDADJ=method option to specify the method. Otherwise, you can use the following ERRSPENDADJ(boundary)=method options to specify different methods for the boundaries.
-
ERRSPENDADJ(ALPHA)=method
ERRSPENDADJ(REJECT)=method
BOUNDARYADJ(ALPHA)=method
BOUNDARYADJ(REJECT)=method
-
specifies the adjustment method for the (rejection) boundary of a one-sided design or the lower and upper boundaries of a two-sided design.
-
ERRSPENDADJ(LOWERALPHA)=method
ERRSPENDADJ(LOWERREJECT)=method
BOUNDARYADJ(LOWERALPHA)=method
BOUNDARYADJ(LOWERREJECT)=method
-
specifies the adjustment method for the lower boundary of a two-sided design.
-
ERRSPENDADJ(UPPERALPHA)=method
ERRSPENDADJ(UPPERREJECT)=method
BOUNDARYADJ(UPPERALPHA)=method
BOUNDARYADJ(UPPERREJECT)=method
-
specifies the adjustment method for the upper boundary of a two-sided design.
-
ERRSPENDADJ(BETA)=method
ERRSPENDADJ(ACCEPT)=method
BOUNDARYADJ(BETA)=method
BOUNDARYADJ(ACCEPT)=method
-
specifies the adjustment method for the (acceptance) boundary of a one-sided design or the lower and upper boundaries of a two-sided design.
-
ERRSPENDADJ(LOWERBETA)=method
ERRSPENDADJ(LOWERACCEPT)=method
BOUNDARYADJ(LOWERBETA)=method
BOUNDARYADJ(LOWERACCEPT)=method
-
specifies the adjustment method for the lower boundary of a two-sided design.
-
ERRSPENDADJ(UPPERBETA)=method
ERRSPENDADJ(UPPERACCEPT)=method
BOUNDARYADJ(UPPERBETA)=method
BOUNDARYADJ(UPPERACCEPT)=method
-
specifies the adjustment method for the upper boundary of a two-sided design.
-
ERRSPENDMIN=numbers
ERRSPENDMIN(boundary)=numbers
-
specifies the minimum error spending
values at the current observed and future interim stages for the boundaries specified in the BOUNDARYKEY= option. The default
is ERRSPENDMIN=0.
If a set of numbers is used for each boundary in the design, you can use the ERRSPENDMIN=numbers option. Otherwise, you can use the following ERRSPENDMIN(boundary)=numbers options to specify different sets of minimum error spending values for the boundaries. For a boundary, the error spending
value at stage 1 is identical to its nominal p-value.
-
ERRSPENDMIN(ALPHA)=numbers
ERRSPENDMIN(REJECT)=numbers
-
specifies the minimum error spending values for the boundary of a one-sided design or the lower and upper boundaries of a two-sided design.
-
ERRSPENDMIN(LOWERALPHA)=numbers
ERRSPENDMIN(LOWERREJECT)=numbers
-
specifies the minimum error spending values for the lower boundary of a two-sided design.
-
ERRSPENDMIN(UPPERALPHA)=numbers
ERRSPENDMIN(UPPERREJECT)=numbers
-
specifies the minimum error spending values for the upper boundary of a two-sided design.
-
ERRSPENDMIN(BETA)=numbers
ERRSPENDMIN(ACCEPT)=numbers
-
specifies the minimum error spending values for the boundary of a one-sided design or the lower and upper boundaries of a two-sided design.
-
ERRSPENDMIN(LOWERBETA)=numbers
ERRSPENDMIN(LOWERACCEPT)=numbers
-
specifies the minimum error spending values for the lower boundary of a two-sided design.
-
ERRSPENDMIN(UPPERBETA)=numbers
ERRSPENDMIN(UPPERACCEPT)=numbers
-
specifies the minimum error spending values for the upper boundary of a two-sided design.
-
INFOADJ=NONE | PROP
-
specifies whether information levels at future interim stages are to be adjusted.
If you specify INFOADJ=NONE, no adjustment is made, and the information levels are preserved at the levels provided in the
BOUNDARY= data set. If you specify INFOADJ=PROP (which is the default), the information levels are adjusted proportionally
from the levels provided in the BOUNDARY= data set. The section Information Level Adjustments at Future Stages describes how the adjustments are computed.
Note that if you specify BOUNDARYKEY=BOTH, the INFOADJ=NONE option is not applicable, and the INFOADJ=PROP option is used
to adjusted the information levels at future stages proportionally from the levels provided in the BOUNDARY= data set to maintain
both and levels.
-
NSTAGES=number
-
specifies the number of stages
for the clinical trial. The default is the number derived from the BOUNDARY= data set.
The specified NSTAGES= number might or might not be the same as the number derived in the BOUNDARY= data set. You can use
the NSTAGES= option to set the next stage as the final stage to compute the conditional power, as described in the section
Conditional Power Approach.
-
ORDER=LR | MLE | STAGEWISE
-
specifies the ordering of the sample space ,
where k is the stage number and z is the observed standardized Z statistic. The ordering is used to derive the p-values for the observed statistic and to create unbiased median estimate and confidence limits from the statistic. The ORDER=LR option specifies
the LR ordering that compares the distances between observed standardized Z statistics and their corresponding hypothetical values, the ORDER=MLE option specifies the MLE ordering that compares values
in the MLE scale, and the ORDER=STAGEWISE specifies the stagewise ordering that uses counterclockwise ordering around the
continuation region. The default is ORDER=STAGEWISE. See the section Available Sample Space Orderings in a Sequential Test for a detailed description of these sample space orderings.
-
PARMS <(TESTVAR=variable)> =SAS-data-set
-
names the SAS data set that contains the parameter estimate and its associated
standard error for the stage. The data set includes the stage variable _Stage_
, the test statistic Estimate
, the standard error of the estimate StdErr
, and the test statistic scale variable _Scale_
. The standard error is are used to derive the information level. If the standard error is not available, the information
level derived in the BOUNDARY= data set is used.
The data set also includes the variable Parameter
, Effect
, Variable
, or Parm
that contains the test variable specified in the TESTVAR= option. Usually, these test variable values are obtained from analysis
output in SAS procedures.