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RESEARCH DESIGN PHC 6700/RCS 6740 March 7, 2006

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Title: RESEARCH DESIGN PHC 6700/RCS 6740 March 7, 2006


1
RESEARCH DESIGNPHC 6700/RCS 6740March 7, 2006
  •  

2
RESEARCH DESIGN
  • Experimental Designs
  •  
  • The specific research designs available to
    investigators can be divided into two basic
    types
  • group designs, and
  • single-subject designs.
  •  

3
RESEARCH DESIGN
  • A Typical Experimental Design
  •  
  • Pretest-Posttest Control Group Design
  •  
  • R O1 X O2
  • R O3 O4
  •  

4
RESEARCH DESIGN
  • Group Designs
  •  
  • The group (multi-subject) designs all include
    one or more groups of subjects and are classified
    as either
  • between-groups,
  • within-subjects,
  • or mixed.

5
RESEARCH DESIGN
  • Between-Groups Design
  • Between-groups design is used to assess the
    effects of different levels of an independent
    variable by administering each level to a
    different group of subjects and then comparing
    the status or performance of the group on the
    dependent variable.
  • The simplest between-groups designs include a
    single independent variable with two levels. When
    using the design, the study includes two groups
    that each receives a different level of the IV.

6
RESEARCH DESIGN
  • Example
  • A psychologist assesses the effects of a
    self-control procedure by comparing the
    achievement of children who have been trained in
    the procedure (experimental group) with that of
    children who have not been trained in the
    procedure (control group).

7
RESEARCH DESIGN
  • The simple two-group design can be expanded in
    two ways. One way is to include more than two
    levels of a single independent variable.
  • The psychologist in this study could compare
    three levels of the control procedure
  • a procedure that includes self-instruction only,
  • a procedure that includes self-instruction,
    self-monitoring, and self-reinforcement, and
  • no procedure.
  • In this situation, the study would involve
    comparing the average academic achievement test
    scores of subjects in the three groups.

8
RESEARCH DESIGN
  • Another way to expand a two-group design is to
    include two or more independent variables.
  • Whenever a study includes two or more independent
    variables, it is called a factorial design.
  • The major advantage of a factorial design is that
    it provides more thorough information about the
    relationships among variables by allowing an
    investigator to analyze the main effects of each
    independent variable as well as the interaction
    between independent variables.

9
RESEARCH DESIGN
  • If the psychologist in the self-control study
    included initial symptom severity (mild,
    moderate, and severe) as a second independent
    variable, s/he would be able to determine if
    there are
  • MAIN effects of the self-control procedure,
  • MAIN effects of initial symptom severity, and/or
  • an INTERACTION between self-control procedure and
    initial symptom severity.

10
RESEARCH DESIGN
  • Main Effect
  • A main effect is the effect of one independent
    variable on the dependent variable, disregarding
    the effects of all other independent variables.
  • An interaction refers to the effects of two or
    more independent variables considered together.
  • An interaction occurs when the effects of an
    independent variable differ at different levels
    of another independent variable.

11
RESEARCH DESIGN
  • Illustration
  • Assume the psychologist in the self-control
    study obtains a sample of 60 children and divides
    them into three groups on the basis of their
    initial symptom severity (mild, moderate, or
    severe). S/he then randomly assigns subjects in
    each group to either the experimental
    (self-control procedure) or control (no
    procedure) group so that there are 10 children in
    each of the study's now six groups (see table in
    next slide)
  • Although the data collected by the psychologist
    would have to be analyzed with an inferential
    statistical test to determine if there are
    significant main and/or interaction effects,
    tentative conclusions can be drawn by examining
    the data.

12
RESEARCH DESIGN
  • As an example, assume that the psychologist
    obtains the following mean achievement test
    scores for the six groups of children
  •  
  •  
  •  

13
RESEARCH DESIGN
  • To determine if there are main effects of each
    IV, it is necessary to calculate the marginal
    means. For self-control procedure, the marginal
    means are 42 and 34. These means were obtained by
    adding the means in each column and dividing by 3
    (the number of means) (52 40 34)/3 42 and
    (36 30 36)/3 34.
  • Because the marginal means are different, it is
    possible to tentatively conclude that there are
    main effects for the self-control procedure.
  • Overall, the self-control procedure seems to have
    beneficial effects on academic achievement test
    scores.

14
RESEARCH DESIGN
  • For initial symptom severity the marginal means
    are 44, 35, and 35. These means were obtained by
    adding the means in each row and dividing by 2
    (the number of means) (52 36)/2 44 (40
    30)/2 35 and (34 36)/2 35.
  • The marginal means indicate that there are also
    main effects for initial symptom severity.
  • Although children with moderate and severe
    symptoms obtained the same mean achievement test
    score (35), children with mild symptoms obtained
    a higher mean score (44). (If all three means
    were identical, there would be no main effects of
    symptom severity.)
  • This indicates that, overall, mild symptoms are
    associated with the highest achievement test
    scores.

15
RESEARCH DESIGN
44
35
35
42 34
16
RESEARCH DESIGN
  • To determine if there is an interaction, the
    cell means are inspected. If there is an
    interaction, the effects of the self-control
    procedure will differ at different levels of
    symptom severity.
  • As can be seen in the previous table, for
    children with mild symptoms, the self-control
    procedure had a very positive effect
  • Children who were trained in the procedure
    obtained a mean of 52,
  • while children who received no training obtained
    a mean of 36.
  • For children with moderate symptoms, the
    self-control procedure also had positive effects,
    but the gap between the two groups is somewhat
    smaller
  • Children who received training obtained a mean of
    40,
  • while children who received no training obtained
    a mean of 30.
  • Finally, for children with severe symptoms, the
    self-control procedure did not have a beneficial
    effect.
  • Children with severe symptoms obtained a higher
    achievement test score if they received no
    training (34 with training versus 36 with no
    training).

17
RESEARCH DESIGN
  • These results suggest that there is an
    interaction between the two IVs. The effects of
    the self-control procedure differ for different
    levels of initial symptom severity. (If the
    effects of the self-control procedure were the
    identical for all levels of symptom severity,
    there would be no interaction.)

18
RESEARCH DESIGN
  • An inspection of the data suggests that there
    are main effects for both variables as well as an
    interaction effect.
  • Note that the presence of the interaction
    invalidates the conclusion that was drawn on the
    basis of the main effects alone
  • Overall, the self-control procedure seems to be
    beneficial (main effect), but a closer inspection
    of the data shows that this is true only for
    children with mild and moderate symptoms
    (interaction).
  • This illustrates the importance of interpreting
    the main effects (or lack of main effects) with
    caution whenever there is an interaction
  • An interaction is likely to modify or invalidate
    the conclusions made on the basis of the main
    effects alone.
  • Finally, note that a study can have any
    combination of main and interaction effects. It
    is possible to have an interaction, for example,
    without any main effects (or vice versa).

19
RESEARCH DESIGN
  • Study Tip Be sure you understand what main and
    interaction effects are on a conceptual level and
    be able to determine, from a table of data like
    the one given, whether it looks like there are
    main and/or interaction effects. Keep in mind
    that there can't be an interaction unless the
    study has at least two IVs and that, when there
    is an interaction, the main effects must be
    interpreted in light of the interaction.

20
RESEARCH DESIGN
  • Within-Subjects Designs
  • When using a within-subjects (AKA repeated
    measures) design, all levels of the independent
    variable are administered sequentially to all
    subjects.
  • Consequently, comparisons of different levels of
    the independent variable are made within subjects
    rather than between groups of subjects.
  • Like between-groups designs, within-subjects
    designs can include only two levels of a single
    independent variable or can be expanded to
    include three or more levels of a single IV
    and/or two or more IVs.

21
RESEARCH DESIGN
  • The single-group time-series design (AKA the
    simple interrupted time-series design) is one
    type of within-subjects design.
  • When using this design, the effects of a
    treatment are evaluated by measuring the
    dependent variable several times at regular
    intervals both before and after the treatment is
    applied.
  • This procedure allows subjects to act as their
    own no-treatment controls.

22
RESEARCH DESIGN
  • Example A psychologist in a study assesses the
    effects of a low dose of phenothiazines on Brief
    Psychiatric Rating Scale (BPRS) scores by
    administering the BPRS to a single group of
    patients at one week intervals for two months
    before and two months after patients begin
    receiving a low dose of the drug.

23
RESEARCH DESIGN
  • A shortcoming of the single-group time-series
    design is that its internal validity can be
    threatened by history
  • It's possible that an external event could occur
    at about the same time the independent variable
    is applied and account for any observed
    difference in pre- and posttest scores.
  • Note, however, that this design does help control
    maturation since maturational effects tend to
    occur gradually over time and can usually be
    detected in the overall pattern of pre- and
    posttest scores.

24
RESEARCH DESIGN
  • In another type of within-subjects design, two
    or more levels of an independent variable are
    applied sequentially to each subject, and the
    dependent variable is measured after each level
    has been applied.

Example A psychologist compares the effects of a
low and high dose of phenothiazines on BPRS
scores by giving the low dose of the drug to a
group of patients for two months and
administering the BPRS and then giving the same
patients the high dose of phenothiazines for two
months and administering the BPRS again. The
effects of the phenothiazines will be analyzed by
comparing the BPRS scores obtained by the
patients after each dose was administered.
25
RESEARCH DESIGN
  • A problem with this design is that it is
    susceptible to carryover effects (multiple
    treatment interference)
  • If the psychologist this study finds that the
    high dose of phenothiazines is more effective
    than the low dose for improving symptoms, this
    could be because the high dose followed a period
    of time during which patients received the low
    dose.
  • Counterbalancing can be used to control carryover
    effects.
  • Carryover effects could be controlled in the
    above study by dividing the patients into two
    groups and administering the two levels of
    phenothiazines in a different order to each group
    (i.e., low dose, high dose to patients in Group
    l and high dose, low dose to patients in Group
    2). If the high dose is more effective for both
    groups of patients, its effects would not be
    attributable to carryover effects.

26
RESEARCH DESIGN
  • Within-subjects designs have at least two
    advantages over between groups-designs.
  • First, they require a fewer number of subjects
    and, consequently, are more "economical."
  • Second, these designs help control individual
    differences that can threaten a study's internal
    validity since subjects are compared with
    themselves rather than with other subjects.
  • As a result, within-subjects designs can actually
    be more powerful than between groups-designs
    (i.e., better able to detect the actual effects
    of the IV).

27
RESEARCH DESIGN
  • A disadvantage of the time-series and other
    within-subjects designs is that the analysis of
    the data can be confounded by autocorrelation
    (also known as serial dependency).
  • In other words, subjects' performance on the
    post-tests is likely to correlate with their
    performance on the pretests.
  • Autocorrelation can inflate the value of the
    inferential statistic (e.g., the t or F), thereby
    resulting in an increased probability of a Type I
    error.
  • For this reason, a number of experts recommend
    that special statistical techniques be used to
    analyze data collected in a study using this type
    of design.

28
RESEARCH DESIGN
  • Study Tip Be sure you have this design linked
    with the concept of autocorrelation and know that
    autocorrelation can decrease power and inflate
    the chance of making a Type I error.

29
RESEARCH DESIGN
  • Mixed Designs
  •  
  • A mixed ("split-plot") design combines
    between-groups and within-subjects methodologies.
  • Counterbalanced designs can be considered a type
    of mixed design because they permit comparisons
    both between groups and within subjects.
  • A design is also a mixed design when it includes
    two or more independent variables and at least
    one variable is a between-groups variable and
    another is a within-subjects variable.

30
RESEARCH DESIGN
  • Example In the example study, the psychologist
    would be using a mixed design if therapy approach
    is treated as a between-groups variable (patients
    receive only one type of therapy), while
    phenothiazines is treated as a within-subjects
    variable (the placebo, low dose, and high dose
    are administered sequentially to each patient).

31
RESEARCH DESIGN
  • Mixed designs are common in research studies
    that involve measuring the dependent variable
    over time or across trials.
  • In this type of study, time or trials is an
    additional IV and is considered a within-subjects
    variable because comparisons on the dependent
    variable will be made within subjects across time
    or across trials.

32
RESEARCH DESIGN
  • Example In our example study, the psychologist
    decides to compare the effects of four levels of
    therapy (family therapy, individual therapy, a
    combination of the two, and no therapy) by
    assigning patients to one of the levels and
    measuring the short- and long-term effects of
    therapy by administering the BPRS at two-month
    intervals for 24 months after therapy begins.
    Because the study includes a between-groups
    variable (therapy) and a within-subjects variable
    (time), it is utilizing a mixed design.

33
RESEARCH DESIGN
  • Single-Subject Designs
  •  
  • The single-subject designs were derived
    primarily from the work of behavioral
    psychologists, especially those engaged in
    applied behavioral analysis, which combines
    behavioral principles with the techniques of
    experimental psychology to solve
    socially-relevant problems.
  • While the single-subject designs are often used
    to investigate the effects of an independent
    variable on the behavior of one subject or a
    small number of subjects, they can also be used
    with groups of subjects.

34
RESEARCH DESIGN
  • Several characteristics distinguish the
    single-subject designs from the group designs
  • Each single-subject design includes at least one
    baseline (no treatment) phase and one treatment
    phase. As a result, each subject acts as his/her
    own no-treatment control.
  • The dependent variable is measured repeatedly at
    regular intervals throughout the baseline and
    treatment phases. Repeated measurement of the DV
    helps control any maturational effects that might
    otherwise threaten the study's internal validity
    by enabling an investigator to detect those
    effects in the pattern of performance on the DV
    measure.

35
RESEARCH DESIGN
  • There are a large number of single-subject
    designs, but the most commonly used are the AB
    design (and its extensions) and the multiple
    baseline design.
  • AB Design
  • Reversal (Withdrawal) Designs
  • Multiple Baseline Designs

36
RESEARCH DESIGN
  • AB Design
  •  
  • The simplest single-subject design is the AB
    design, which includes a single baseline (A)
    phase and a single treatment (B) phase. As in all
    single-subject designs, the dependent variable is
    measured at regular intervals during both phases.

37
RESEARCH DESIGN
  • Example A psychologist decides to assess the
    effects of a low dose of phenothiazines on the
    BPRS scores of one patient using the AB design.
    She administers the BPRS to the patient at
    two-week intervals for three months during the
    baseline (A) phase of the study and for three
    months during the treatment (B) phase. The design
    of this study and its possible results are
    illustrated below

38
RESEARCH DESIGN
  • Because the patient's symptoms decreased only
    after he began receiving the phenothiazines,
    these results suggest that a low dose of
    phenothiazines has a positive effect on symptoms.

39
RESEARCH DESIGN
  • Reversal Designs (ABA, ABAB, Etc.)
  •  
  • The AB design can be expanded to include more
    than one baseline phase or more than one baseline
    and more than one treatment phase. Because any
    expansion requires the withdrawal of the
    treatment during the second and subsequent
    baseline phases, the extensions of the AB design
    are called reversal (withdrawal) designs.

40
RESEARCH DESIGN
  • Advantage of the reversal designs over the
    simple AB design they provide additional control
    over potential threats to a study's internal
    validity.
  • When an ABAB design is used, if status on the DV
    returns to the initial baseline (no treatment)
    level during the second A phase and then to its
    previous treatment levels during the second B
    phase, an investigator can be more certain that
    any observed change in the dependent variable is
    actually due to the IV rather than to an
    historical event or other extraneous factor.
  • Repeating the study by adding another A and B
    phase is referred to as intrasubject replication.

41
RESEARCH DESIGN
  • Example To confirm that the observed
    improvement in symptoms was due to the
    phenothiazines, the psychologist extends her
    study to include an additional baseline and
    treatment phase. This ABAB design and its
    possible results are illustrated below

42
RESEARCH DESIGN
  • Reversal designs are considered inappropriate
    when withdrawal of a treatment during the course
    of a research study would be unethical (e.g.,
    when the treatment has successfully eliminated a
    self-injurious behavior).
  • Reversal design does not provide conclusive
    information if the effects of an independent
    variable persist rather than "reverse" (return to
    baseline levels) when it is withdrawn.
  • When this occurs, an investigator can't be
    certain whether an observed effect on the
    dependent variable is due to the independent
    variable or to other factors.
  • If a reversal design is inappropriate for
    ethical or practical reasons, an investigator
    might use a multiple baseline design.

43
RESEARCH DESIGN
  • Multiple Baseline Design
  •  
  • Multiple baseline design does not require
    withdrawal of a treatment during the course of
    the study but, instead, involves sequentially
    applying the treatment either to different
    behaviors of the same subject (multiple baseline
    across behaviors) to the same subject in
    different settings (multiple baseline across
    settings) or to the same behavior of different
    subjects (multiple baseline across subjects).
  • Once the treatment has been applied to a
    "baseline" (behavior, setting, or subject), it is
    not withdrawn from that baseline during the
    course of the study.

44
RESEARCH DESIGN
  • Example To test the effects of the
    self-instructional component of the self-control
    procedure on attention span, a psychologist uses
    a multiple baseline design. S/he trains a child
    in self-instruction and then tells the child to
    use the technique when working on arithmetic
    homework in three different settings first when
    working alone in a quiet room then when working
    in the library and then when working in the
    classroom. The psychologist measures the child's
    attention span in all three settings at regular
    intervals during the baseline and treatment
    phases.

45
RESEARCH DESIGN
  • This design and its possible results are
    illustrated below

46
RESEARCH DESIGN
  • Because the child's attention span in each
    setting did not increase until self-instruction
    was applied to it, these results confirm that
    self-instruction is useful for improving
    attention span.
  • As can be seen in the above figure, sequentially
    applying an intervention to different settings
    helps determine if an intervention is actually
    responsible for any observed changes in the
    target behavior

47
RESEARCH DESIGN
  • If the behavior changes in a particular setting
    only after the intervention has been applied in
    that setting, an investigator can be more certain
    that the change is due to the intervention rather
    than to history or other factors.
  • To be effective, the setting, behaviors, or
    subjects chosen for inclusion in the study must
    be relatively independent. If they are not, it
    may not be possible to evaluate the effects of
    the IV with the multiple baseline design.

48
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