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Statistical Analysis of Single Case Design

Statistical Analysis of Single Case Design. Serial Dependence Is More than Needing Cheerios for Breakfast. Goal of Presentation. Review concept of effect size Describe issues in using effect size concept for single case design

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Statistical Analysis of Single Case Design

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  1. Statistical Analysis of Single Case Design Serial Dependence Is More than Needing Cheerios for Breakfast

  2. Goal of Presentation • Review concept of effect size • Describe issues in using effect size concept for single case design • Describe different traditional approaches to calculating effect size for single case design • Illustrate one recent approach

  3. Behavioral Intervention Research

  4. Putting A Coat on Your Dog Before Going For a Walk

  5. How We Have Gotten To This Meeting • Long history of statistical analysis of SCD • Criticism of quality of educational research (Shalvelson & Towne, 2002) • Establishment of IES • Initial resistance to SCD • Influence of professional groups • IES willingness to fund research on statistical analysis

  6. Concept of Effect Size of Study • Effect size is a statistic quantifying the extent to which sample statistics diverge from the null hypotheses (Thompson, 2006)

  7. Types of ESs for Group Design • Glass Δ = (Me – Mc) / SDc • Cohen’s d = (Me – Mc)/ Sdpooled • Interpretation • Small = .20 • Medium = .50 • Large = .80 • R2 • Eta2 = SSeffect/SStotal

  8. Statistical Analysis Antithetical To Single Case Design (SCD)? • Original developers believed that socially important treatment effects have to be large enough to be reliably detected by visual inspection of the data.

  9. Kazdin (2011) proposes • Visual inspection less trustworthy when effects at not crystal clear • Serial dependence may obscure visual analysis • Detection of small effects may lead to understanding that could in turn lead to large effects • Statistical analysis may generate ESs that allow one to answer more precise questions • Effects for different types of individuals • Experimenter effects

  10. Example: PRT and Meta-Analysis(Shadish, 2012) • Pivotal Response Training (PRT) for Childhood Autism • 18 studies containing 91 SCD’s. • For this example, to meet the assumptions of the method, the preliminary analysis: • Used only the 14 studies with at least 3 cases (66 SCDs). • Kept only the first baseline and PRT treatment phases, eliminating studies with no baseline • After computing 14 effect sizes (one for each study), he used standard random effects meta-analytic methods to summarize results:

  11. Results ------- Distribution Description --------------------------------- N Min ES Max ES Wghtd SD 14.000 .181 2.087 .374 ------- Fixed & Random Effects Model ----------------------------- Mean ES -95%CI +95%CI SE Z P Fixed .4878 .3719 .6037 .0591 8.2485 .0000 Random .6630 .4257 .9002 .1210 5.4774 .0000 ------- Random Effects Variance Component ------------------------ v = .112554 ------- Homogeneity Analysis ------------------------------------- Q df p 39.9398 13.0000 .0001 Random effects v estimated via noniterative method of moments. I2 = 67.5% The results are of the order of magnitude that we commonly see in meta-analyses of between groups studies

  12. Studies done at UCSB (=0) or elsewhere (=1) ------- Analog ANOVA table (Homogeneity Q) ------- Q df p Between 3.8550 1.0000 .0496 Within 16.8138 12.0000 .1567 Total 20.6688 13.0000 .0797 ------- Q by Group ------- Group Qwdf p .0000 1.9192 3.0000 .5894 1.0000 14.8947 9.0000 .0939 ------- Effect Size Results Total ------- Mean ES SE -95%CI +95%CI Z P k Total .6197 .0980 .4277 .8118 6.3253 .0000 14.0000 ------- Effect Size Results by Group ------- Group Mean ES SE -95%CI +95%CI Z P k .0000 1.0228 .2275 .5769 1.4686 4.4965 .0000 4.0000 1.0000 .5279 .1086 .3151 .7407 4.8627 .0000 10.0000 ------- Maximum Likelihood Random Effects Variance Component ------- v = .05453 se(v) = .04455 • Of course, we have no idea why studies done at UCSB produce larger effects: • different kinds of patients? • different kinds of outcomes? • But the analysis does illustrate one way to explore heterogeneity

  13. Search for the Holy Grail of Effect Size Estimators • No single approach agreed upon: (40+ have been identified, Swaminathan et al., 2008) • Classes of approaches • Computational approaches • Randomization test • Regression approaches • Tau-U (Parker et al., 2011) as combined approach

  14. Computational Approaches • Percentage of NonoverlappingDatapoints (PND) (Scruggs, Mastropieri, & Casto, 1987) • Percentage of Zero Data (Campbell, 2004) • Improvement Rate Difference (Parker, Vannest, & Brown, 2009)

  15. Evaluate for LEVEL Evaluate for TREND ABAB 7 Level of Experimental Control No Exp Control Publishable Strong Exp Control 1 2 3 4 5 6 7

  16. Problem with phases

  17. Randomization Test • Edgington (1975, 1980) advocated strongly for use of nonparametric randomization tests. • Involves selection of comparison points in the baseline and treatment conditions • Requires random start day for participants (could be random assignment of participants in MB design, Wampold & Worsham, 1986) • Criticized for SDC • Large Type I Error rate (Haardofer & Gagne, 2010) • Not robust to independence assumption and sensitivity low for data series < 30 to 40 datapoints (Manolov & Solanas, 2009)

  18. Evaluate for LEVEL Evaluate for TREND ABAB 7 Level of Experimental Control No Exp Control Publishable Strong Exp Control 1 2 3 4 5 6 7

  19. Regression (Least Squares Approaches) • ITSACORR (Crosbie, 1993) • Interrupted time series analysis • Criticized for not being correlated with other methods • White, Rusch, Kazdin, & Hartmann (1989) Last day of Treatment Comparison (LDT) • Compares two LDT for baseline and treatment • Power weak because of lengthy predictions

  20. Regression Analyses • Mean shift and mean-plus-trend model (Center, Skiba, & Casey; 1985-86) • Ordinary least squares regression analysis (Allison & Gorman, 1993) • Both approaches attempt to control for trends in baseline when examining the performances in treatment • d-Estimator (Shadish, Hedges, Rinscoff, 2012) • GLS with removal of autocorrelaiton (Swaminathan, Horner, Rogers, & Sugai, 2012)

  21. Tau-U(Parker, Vannest, Javis, & Sauber, 2011) • Mann-Whitney U a nonparametric that compares individual data point in groups (AB comparisons) • Kendal’s Tau does these same thing for trend within groups • Tau-U • Tests and control for trend in A phase • Test for differences in A and B phases • Test and adjust for tend in B phase

  22. Evaluate for LEVEL Evaluate for TREND ABAB 7 Level of Experimental Control No Exp Control Publishable Strong Exp Control 1 2 3 4 5 6 7

  23. Tau-U Calculatorhttp://www.singlecaseresearch.org/Vannest, K.J., Parker, R.I., & Gonen, O. (2011). Single Case Research: web based calculators for SCR analysis. (Version 1.0) [Web-based application]. College Station, TX: Texas A&M University. Retrieved Sunday 15th July 2012. • Combines nonoverlap between phases with trend from within intervention phases • Will detect and allow researcher to control for undesirable trend in baseline phase • Data are easily entered on free website • Generates a d for effects with trend withdrawn when necessary

  24. Themes: An accessible and feasible effect size estimator • As end users, SCD researchers need a tool that we can use without having to consult our statisticians • Utility of the hand calculated trend line analysis • Example of feasible tool, but criticized (ITSACORR< Crosbie, 1993). • Parker, Vannest, Davis, & Sauber (2011) • Tau-U calculator

  25. Theme: What is an effect—a d that detect treatment or/and level effect • If a single effect size is going to be generated for an AB comparison: should the d be reported separately for level (intercept) or trend (slope)? • If so, problematic for meta-analysis • ES estimators here appear to provide a combined effect for slope and intercept • Parker et al. (2011) incorporate both

  26. Theme: What comparisons get included in the meta-analysis • Should we only use the initial AB comparison in ABAB Designs?

  27. Theme: What comparisons get included in the meta-analysis • Should we only include points at which functional relationship is established?

  28. Theme: How many effects sizes per study? Study Study 1Study 2 … Study K Subject Subj1 Subj2 Subj1Subj1 Subj2 Subj3 Subj4 Moments m mm m mmmmm mm mm m

  29. Challenge: How do you handle zero baselines or treatment phases?

  30. Heterogeneity In SCD: A reality • SCD Researchers used a range of different designs and design combinations • A look at current designs • Fall, 2011 Issue of Journal of Applied Behavior Analysis

  31. Comparison of SDC and Group Design ESs:The Apples and Oranges Issues • Logic of casual inferences different • Groups: Means differences between groups • SCD: Replication of effects either within or across all “participants” • Generally d represents different comparison • Data collected to document an effect different • Group designs collect data before treatment and after treatment • SCDs collect data throughout treatment phase, so for treatments that build performance across time, they may appear less efficacious because they are including “acquisition” phase effects in analysis

  32. Conclusions • I learned a lot • Sophistication of analyses is increasing • Feasibility of using statistical analysis is improving • Can use statistical analysis as supplement to visual inspection (Kazdin, 2011) • Statistical analysis may not be for everybody, but it is going to foster acceptability in the larger education research community, and for that reason SCD researchers should consider it.

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