Single-subject design


In design of experiments, single-subject design or single-case research design is a research design most often used in applied fields of psychology, education, and human behavior in which the subject serves as his/her own control, rather than using another individual/group. Researchers use single-subject design because these designs are sensitive to individual organism differences vs group designs which are sensitive to averages of groups. The logic behind single subject designs is 1) Prediction, 2) Verification, and 3) Replication. The baseline data predicts behavior by affirming the consequent. Verification refers to demonstrating that the baseline responding would have continued had no intervention been implemented. Replication occurs when a previously observed behavior changed is reproduced. Often there will be large numbers of subjects in a research study using single-subject design, however—because the subject serves as their own control, this is still a single-subject design. These designs are used primarily to evaluate the effect of a variety of interventions in applied research.

Design Standards

Effect size

Although there are no standards on the specific statistics required for effect size calculation, it is best practice to include an effect size estimate.

Reporting Standards

When reporting on findings obtained through single-subject designs, specific guidelines are used for standardization and to ensure completeness and transparency:

Types of Single-Subject Designs

'''Reversal Design'''

Reversal design involves repeated measurement of behavior in a given setting during three consecutive phases - baseline, intervention, and return to baseline. Variations include extending the ABA design with repeated reversals and including multiple treatments. AB designs, or reversal designs with no return to baseline, are not considered experimental. Functional control cannot be determined in AB designs because there is no replication.

'''Alternating Treatments Design'''

Alternating treatments design compares the effects of two or more independent variables on the dependent variable. Variations include a no-treatment control condition and a final best-treatment verification phase.

'''Multiple Baseline Design'''

Multiple baseline design involves simultaneous baseline measurement begins on two or more behaviors, settings, or participants. The IV is implemented on one behavior, setting, or participant, while baseline continues for all others. Variations include the multiple probe design and delayed multiple baseline design.

'''Changing Criterion Design'''

Changing criterion designs are used to evaluate the effects of an IV on the gradual improvement of a behavior already in the participant's repertoire.

Interpretation of data

In order to determine the effect of the independent variable on the dependent variable, the researcher will graph the data collected and visually inspect the differences between phases. If there is a clear distinction between baseline and intervention, and then the data returns to the same trends/level during reversal, a functional relation between the variables is inferred. Sometimes, visual inspection of the data demonstrates results that statistical tests fail to find. Features assessed during visual analysis include:
Research designs are traditionally preplanned so that most of the details about to whom and when the intervention will be introduced are decided prior to the beginning of the study. However, in single-subject designs, these decisions are often made as the data are collected. In addition, there are no widely agreed-upon rules for altering phases, so—this could lead to conflicting ideas as to how a research experiment should be conducted in single-subject design.
The major criticism of single-subject designs are:
Historically, single-subject designs have been closely tied to the experimental analysis of behavior and applied behavior analysis.