Transcript Slide 1
Some terms
• Parametric data assumptions(more rigorous, so can
make a better judgment)
– Randomly drawn samples from normally distributed
population
– Homogenous (at least roughly) variances in the samples
• Variance will be roughly the same
– Data are interval or ratio in scale (continuous data)
• Non-parametric data
– Data that don’t meet parametric assumptions
Some terms
• Power
– The ability to find a difference, if one exists
• There is always a difference, just is it statistically sig.
– Used a priori (how big of a sample size is needed) and post hoc
(if the lack of difference due to a too small sample size)
– Function of four factors (all go up as power goes up, direct
relationship, except variance)
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Significance criterion
Variance (within group variance changes opposite of power)
Sample size
Effect size
• Significance
– The probability of committing a Type I error-acceptable risk of
making a mistake
Saying there is a difference when none exists
– Also known as the alpha level
Some terms
• p value
– Finding after your statistical analysis
– Probability of finding that big a difference by chance
– % that event occurred by chance
• Randomization
– Selection
• Every member of group has equal chance of selection
– Assignment
• Each member has an equal chance of being assigned to any
of the groups
Experimental Design
• Sometimes called a Clinical Trial
– Therapeutic – effect of treatment on disease
– Preventive – effective at reducing development of disease
• Provides structure to evaluate causality
• Independent Variables
– May be multiple
– May each have multiple levels
• Dependent Variables
– May be multiple
• Element of control
– Improves argument for causality
Clinical Trial
• New therapies, drugs, procedures, devices
Box 10.1
• Distinct sequence
– Preclinical
• Often animal model
– Phase I
• Establish safety
• Small sample size
– Phase II
• Still small sample
• Effectiveness
Clinical Trial
– Phase III
• Usually randomized controlled, double blind
• Large sample
• Comparison to standard or placebo
– Phase IV
• Other populations
• Risk factors/benefits
• Optimal use
Design Classifications
• True Experimental
– RCT the “Gold Standard” of this design
– This design is differentiated by assignment
• Between subjects (“completely randomized”)
– Selected randomly, and divided randomly
• Randomized block (age, gender exclusion)
• Within subjects (subjects serve as their own control)
– Sometimes described by the number of “Factors”
• Factors = Independent Variables (IV) in this context
• Single factor means one IV
• Multi-factor means more than one IV
– Quasi- Experimental
• Lack random assignment &/or
• Lack comparison group
Selecting a Design
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What is your PICO?
Can the IV be manipulated?
Can you control extraneous factors?
If experimental design is right then ask
– How many IVs?
– How many levels in each IV?
– How many groups will be tested?
– How will assignment be made?
– How often will measurements be taken?
– What is the time sequence?
Selecting a Design
• Pretest-posttest Control Group
– Figures 10.1 -10.3
– Analysis
• Interval-scale data
– Two groups – t-test (unpaired, also called independent)
– Three or more groups – ANOVA (usually one-way)
– Could be ANCOVA (pre-test score is the covariate)
– Could be two way
» Treatment as one factor
» Other factor is the repeated factor of time (pre-test/post-test)
• Ordinal Data
– Two groups – Mann-Whitney U-test
– Three or more groups – Kruskal-Wallis analysis of variance by ranks
Selecting a Design
• Posttest-Only Control Group
– Figures 10.1 -10.3
– Analyzed with
• Interval-scale data
– Two groups – t-test (independent)
– Three or more groups - One way ANOVA
• Ordinal Data
– Two groups – Mann-Whitney U-test
– Three or more groups – Kruskal-Wallis analysis of variance by ranks
May also analyze with ANCOVA if extraneous relevant data are available
Regression or discriminate analysis can be applied
Selecting a Design
• Multi-factorial
– What are factors?
– Nomenclature
• IV with number indicating the number of levels of that IV
• 3 X 4 multifactorial test
– Two IVs
– One with 3 levels, one with 4 levels
• 3x3x3
– Three Ivs
– One with 3 levels, second with 3 levels, third with 3 levels
– Analyzed with (most commonly)
• Two way ANOVA
• Three way ANOVA
Selecting a Design
• Multi-factorial
– In Two way factorial design, three questions can be
addressed (In this example , consider 2 x 2 design)
• Main effects (2)
– Of each IV
– The other IV “collapsed” across levels
• Interaction effect (1)
– Between the two Ivs -
– Every independent variable has a MAIN EFFECT:
so 5 IV means 5 main effects
Selecting a Design
• Multi-factorial
– In Three way factorial design, multiple questions can be
addressed (In this example , consider 2 x 2 x 2 design)
• Main effects (3)
– Of each IV
– The other IV “collapsed” across levels
• Double interaction effects (3)
– Between the three possibilities of IV pairings
• Triple interaction (8)
– The possible interactions of all 6 levels
– Figure 10.6 good to visualize this
Selecting a Design
• Randomized block
– Homogeneous blocks
– Then randomly assigned to one level of the IV (Fig 10.7)
Can be thought of as two single factor randomized
experiments
– Analyzed with
• Two way ANOVA
Multiple Regression or discriminate analysis can be applied
Selecting a Design
• Repeated Measures=type of analysis
– What are factors=are IV’s
– Can the control be any more equivalent? (Rhetorical ?)
• Serve as own control, so not really can’t get any more
equivalent.
– Disadvantages
• Carryover=irritation
• Practice effects=improved skill, comfort level with activity
• Outcome measure must return to baseline between
interventions
• Single Factor Repeated
– Analyzed with
• One way ANOVA
Selecting a Design
• Crossover Design
– Counterbalance the treatment conditions
– “Washout” period to return to baseline (like letting a drug
leave the body)
– May only have two levels of an independent variable
– Analyzed with
• Interval-scale data
– t-test for change scores by treatment condition
– Two way ANOVA with two repeated measures
» Pre-test post test
» Across both conditions
• Ordinal Data
– Wilcoxen signed ranks
*IF it is named after someone than not continuous (exception Person’s
Product.
Selecting a Design
• Two Way with Two Repeated Measures
–2X2
– Analyzed with
– Two way ANOVA with two repeated measures
• Mixed Design
– One factor is repeated (often time is the factor)
– One Factor is randomly assigned
– Analyzed with
– Two way ANOVA with one repeated measures
Selecting a Design
• Sequential Clinical Trial
– Special approach to the RCT
– Data continually analyzed
– Compares two treatments to find the preferred one
– A series of “little experiments”
– Preference subjective but clearly defined
• Those without a preference are excluded from analysis
– Analyzed by charting
– Three choices
• Stop and recommend one treatment
• Stop and state you found no difference
• Continue collecting data
Efficacy vs Effectiveness
• Efficacy is clinical
– Under a controlled situation
– The Lab result
• Effectiveness is “Real World”
– When control cannot be maintained
– The application in practice
Quasi Experimental
• One Group Pretest-posttest
– Time is the IV
– Treatment is not the IV (WHY? –Because they all get it)
– Analyzed with
• Interval-scale data
– Paired t-test
– Why not ANOVA?
• Ordinal Data
– Sign test
– Wilcoxen signed-ranks test
• One-Way repeated Measures over Time
– Analyzed with the ANOVA. WHY?
Quasi Experimental
– Time Series
• Considered extension of the one-group pretest-posttest
• Multiple measurements
– Before and after treatment
– Serve as pseudo-control
– Analyzed with
• Visual chart analysis
• Multivariate methodologies
Quasi Experimental
– Multi-group Design
• Non-equivalent pretest – posttest Control Group
• Analyzed with
– Multiple options here
– Consider non-parametric tests!!!
» Not ordinal/continuous data, not normally distributed,
• Non-equivalent posttest only Control Group
• Analyzed with
– Regression approach
» Looking for relationships, but not causality