Metaanalysis
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===Second, choose which effect size index to calculate===  ===Second, choose which effect size index to calculate===  
  :The commonly used effect size indexes are the "r" family and the "d" family of effect sizes. Since "r" and "d" can be transformed into each other statistically you may wonder why it matters which metric you choose. Empirical research can take many forms (e.g., dichotomous and/or continuous IV, dichotomous and/or continuous DV  +  :The commonly used effect size indexes are the "r" family and the "d" family of effect sizes. Since "r" and "d" can be transformed into each other statistically you may wonder why it matters which metric you choose. Empirical research can take many forms (e.g., dichotomous and/or continuous IV, dichotomous and/or continuous DV, two variables relationships, etc) and the form of research you are analyzing helps determine which metric may be best to use (see below). For complete information and statistical formulas for all effect size indexes for each form of research, see '''[[Lipsey & Wilson, 2001]]''' (Practical MetaAnlaysis). 
#<u>The '''''r''''' family</u> – Correlation Coefficient  The "r" family includes all types of correlation coefficients (e.g., ''r'', ''phi'', ''rho'', etc) and [[Johnson & Eagly, 2000]] suggest using ''r'' when the studies composing the metaanalysis primarily report the correlation between variables, but also see [[Rosenthal & DiMatteo, 2001]] for a discussion of the advantages of using ''r'' over ''d''.  #<u>The '''''r''''' family</u> – Correlation Coefficient  The "r" family includes all types of correlation coefficients (e.g., ''r'', ''phi'', ''rho'', etc) and [[Johnson & Eagly, 2000]] suggest using ''r'' when the studies composing the metaanalysis primarily report the correlation between variables, but also see [[Rosenthal & DiMatteo, 2001]] for a discussion of the advantages of using ''r'' over ''d''.  
#<u>The '''''d''''' family</u> – Standardized Difference  The "d" family includes Cohen's ''d'' (unweighted) and Hedges ''g'' (weighted), and [[Johnson & Eagly, 2000]] suggest using ''d'' when the studies composing the metaanalysis primarily report ANOVAs and ttests comparisons between groups.  #<u>The '''''d''''' family</u> – Standardized Difference  The "d" family includes Cohen's ''d'' (unweighted) and Hedges ''g'' (weighted), and [[Johnson & Eagly, 2000]] suggest using ''d'' when the studies composing the metaanalysis primarily report ANOVAs and ttests comparisons between groups. 
Revision as of 01:05, 27 July 2006
► Have you ever wanted to learn about metaanalyses or conduct a metaanalysis but didn't know where to start? This webpage is devoted to providing you expert opinion on what you need to know to start your own metaanalysis.
► With the thousands of metaanalyses conducted in all areas of psychology over the past few decades, there has been an everincreasing number of articles, books, and software programs devoted to how to conduct metaanalyses. Below, you can find out which of the many sources of information are the most useful and why  so that the user has an easytouse starting place for learning everything about metaanalyses.
Contents 
Where should I start?
If you want to learn what is a metaanalysis...

If you want to learn how to start conducting a meta...

What is a metaanalysis?
Definition
A metaanalysis statistically combines the results of several studies that address a shared research hypotheses.
Just as individual studies summarize data collected from many participants in order to answer a specific research question (e.g., each participant is a separate datapoint in the analysis), a metaanalysis summarizes data from individual studies that concern a specific research question (e.g., each study is a separate datapoint in the analysis).
Three Basic Questions
 A metaanalysis answers three general questions:
 Central tendency – The central purpose of a metaanalysis is to test the relationship between two variables such that X causes Y. Central tendency refers to identifying whether X affects Y via statistically summarizing signficance levels, effect sizes, and/or confidence intervals. You are trying to answer whether X affects Y, is the effect significant, and how strong is that effect?
 Variability – There is always going to be some degree of variation between the outcomes of the individual studies that compose the metaanalysis. The question is whether the degree of variablity is signficantly different than what we would expect by chance alone. If so, then its called heterogeneity.
 Prediction – If there is heterogeneity (variability), then we look for moderating variables that explain the variability. In other words, does the effect of X on Y differ with moderator variables?
Five Basic Steps
 There are generally five separate steps in conducting a metaanalysis:
 Define your Hypothesis – First you must have a welldefined statement of the relationship between the variables under investigation so that you can carefully define the inclusion and exclusion criteria when locating potential studies. For more information see Chapter 2 of (Lipsey & Wilson, 2001) (Practical MetaAnlaysis) for a thorough examination of this step.
 Locate the Studies – A metaanalysis is only informative if it adequately summarizes the existing literature, so a thorough literature search is critical to retrieve every relevant study, such as database searches, ancestry approach, descendancy approach, hand searching, and the invisible college (e.g., network of researchers who know about unpublished studies, conference proceedings, etc). For more information see (Johnson & Eagly, 2000) (Handbook of Research Methods in Social and Personality Psychology) which details five general ways to retrieve relevant articles.
 Input data – Gather empiricial findings from primary studies (e.g., pvalue, effect size, etc) and input into statistical database. Not every study provides sufficient statistical information to calculate the effect size statistic. For more information see below about choosing your statistical software.
 Cacluate Effect Sizes – Calculate the overall effect by converting all statistics to a common metric, making adjustments as necessary to correct for issues like samplesize or bias, and then calculating central tendency (e.g., mean effect size and confidence intervals around that effect size) and variablity (e.g., heterogeneity analysis). For more information see below about choosing which effect size index to calculate and see (Lipsey & Wilson, 2001) (Practical MetaAnlaysis) for all the different statistical formulas.
 Analyze Variables – If heterogeneity exists, you may want to analyze moderating variables by coding each variable in the database and analyzing either mean differences (for categorical variables) or weighted regression (for continuous variables) to see if the variable accounts for the variability in the effect size. Note  even if heterogeneity does not exist, some argue analyzing moderating variables is appropriate ((Rosenthal, 1995)). FYI  (Rosenthal, 1995) is also an excellent Psychological Bulletin article on how to write a metaanalysis.
How do I conduct a metaanalysis?
First, choose which statistical approach suits your needs
 There are generally three different statistical approaches to conduct a metaanalysis so first you need to choose which approach best fits your needs. For an excellent detailed comparison of these three approaches, see (Johnson, Mullen, & Salas, 1995) (Comparison of Three Major MetaAnalytic Approaches. Journal of Applied Psychology, 80, 94106). Some basic information from that article is posted below to get you started:
 Hedges & Olkin Approach – see (Hedges, 1981); (Hedges, 1982); (Hedges & Olkin, 1985)
 Rosenthal & Rubin Approach – see (Rosenthal, 1991); (Rosenthal & Rubin, 1978); (Rosenthal & Rubin, 1988)
 Hunter, Schmidt, & Jackson  see (Hunter, Schmidt, & Jackson, 1982); (Hunter & Schmidt, 1990)
Second, choose which effect size index to calculate
 The commonly used effect size indexes are the "r" family and the "d" family of effect sizes. Since "r" and "d" can be transformed into each other statistically you may wonder why it matters which metric you choose. Empirical research can take many forms (e.g., dichotomous and/or continuous IV, dichotomous and/or continuous DV, two variables relationships, etc) and the form of research you are analyzing helps determine which metric may be best to use (see below). For complete information and statistical formulas for all effect size indexes for each form of research, see (Lipsey & Wilson, 2001) (Practical MetaAnlaysis).
 The r family – Correlation Coefficient  The "r" family includes all types of correlation coefficients (e.g., r, phi, rho, etc) and (Johnson & Eagly, 2000) suggest using r when the studies composing the metaanalysis primarily report the correlation between variables, but also see (Rosenthal & DiMatteo, 2001) for a discussion of the advantages of using r over d.
 The d family – Standardized Difference  The "d" family includes Cohen's d (unweighted) and Hedges g (weighted), and (Johnson & Eagly, 2000) suggest using d when the studies composing the metaanalysis primarily report ANOVAs and ttests comparisons between groups.
Third, choose your statistical software
 You have two basic options  use specialized software designed to conduct metaanalyses, or use standard statistical software such as SPSS and SAS. There are pros/cons to whichever option you use, so how do you choose? What you need are opinions/suggestions from those who have already used each type of software, which is where PsychWiki comes in. Directly below we have a quick summary of each approach, and then posted below are user opinions to help you identify which software is best for you!
 SPSS and SAS  the David Wilson website provides an excel spreadsheet for calcuating effect sizes, and SPSS and SAS macros for perfoming metaanalyses after you have imported your effect sizes from the spreadsheet. These tools accompany the (Lipsey and Wilson, 2001) book Practical MetaAnalysis.
 DSTAT (by (Johnson, 1989)) 
 Advanced Basic Metaanalysis (by (Mullen, 1989)) 
 MetaAnalysis by ((Schwarzer, 1996)) 
 MetaDOS (by (Stauffer, 1996)) 
 Metawin (by (Rosenberg, Adams, & Gurevitch, 1997)) 
SPSS and SAS
DSTAT
Advanced Basic Metaanalysis
MetaAnalysis
MetaDOS
Metawin
websites you may find interesting or helpful...
 For an online slideshow of how to conduct a metaanalysis, see...
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