Download - Anova n metaanalysis
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By
Dr Utpal Sharma
PG Student, Department of Community Medicine
Gauhati Medical College
ANOVA AND META-ANALYSIS AN OVERVIEW
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Introduction
Any data set has variability
Variability exists within groups…
and between groups
Question that ANOVA allows us to answer : Is this variability significant, or merely by chance?
Sir R A Fisher
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Definitions ANOVA: analysis of variation in an experimental outcome
and especially of a statistical variance in order to determine
the contributions of given factors or variables to the variance.
Compares the means of groups of independent observations
ANOVA does not compare variances. We use variance-like
quantities to study the equality or non-equality of population
means.
Can compare more than two groups
Variance: the square of the standard deviation
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Rationale of ANOVA The ANOVA technique extends what an independent-samples
t test can do to multiple means.
If more than two means are compared, repeated t test will lead to a higher Type I error rate.
A better approach is to consider all means in one null hypothesis—that is, examining the plausibility of the null hypothesis with a single statistical test.
Apart from saving time and energy, researchers can exercise a better control of the probability of falsely declaring significant differences among means.
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Cont…
ANOVA or F test is associated with three assumptions
Normal distribution
Variances of dependent variable are equal in all populations
Random samples; observations independently selected from their respective populations.
σ21 =σ2
2 =σ23 =σ2
4 ……
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One-Way ANOVA The one-way analysis of variance is used to test the claim that
three or more population means are equal
The response/dependent variable is the variable we’re comparing
The factor/independent variable is the variable being used to
define the groups
The one-way is because each value is classified in exactly one
way Examples include comparisons by gender, race, political party, color, etc.
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Cont…
For a sample containing K independent groups
ANOVA tests the null hypothesis which says that the means are all equal
H0: μ1 = μ2 = … = μK
The alternative hypothesis is that at least one of the means is different
H1: μi ≠ μj for some i, j
That is, “the group means are all equal”
The group means are not all equal
The ANOVA doesn’t test that one mean is less than another, only whether they’re all equal or at least one is different.
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Cont…. Variation
Variation is the sum of the squares (SS) of the deviations between a value and the mean of the value
SST: The total variability of the dependent variable.
SSB: The variability between each group relative to the grand mean
SSW: The variability within each group relative to the group mean.
SST = (X - X)2 ; SST = SSB + SSW
SSB = NG (XG - X)2
SSW = (X1 - X1)2 + (X2 - X2)2 + …….. (Xk - Xk)2
Sum of Squares is abbreviated by SS and often followed by a variable in parentheses such as SS(B) or SS(W) so we know
which sum of squares we’re talking about
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Cont….
Degrees of Freedom, df A degree of freedom occurs for each value that can vary before
the rest of the values are predetermined The df is often one less than the number of values (N-1)
Variances (Mean of the Squares) The variances abbreviated by MS, often with an accompanying
variable MS(B) or MS(W)
They are an average squared deviation from the mean and are found by dividing the variation by the degrees of freedom
variation (SS) Variance (MS)=
df
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Cont..
F test statistic An F test statistic is the ratio of two sample variances
The MS(B) and MS(W) are two sample variances and that’s what we divide to find F.
The F test statistic has an F distribution with df(B) numerator df and df(W) denominator df
The p-value is the area to the right of the test statistic
F = MS(B) / MS(W)
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ANOVA -Example
The statistics classroom is divided into three rows: front, middle, and back
We want to see if the students further away did worse on the exams
A random sample of the students in each row was taken
The score for those students on the second exam was recorded Front: 82, 83, 97, 93, 55, 67, 53 Middle: 83, 78, 68, 61, 77, 54, 69, 51, 63 Back: 38, 59, 55, 66, 45, 52, 52, 61
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Cont….
The summary statistics for the grades of each row are shown in the table below
Now, here is the basic one-way ANOVA table
Row Front Middle Back
Sample size 7 9 8
Mean 75.71 67.11 53.50
Variance 310.90 119.86 80.29
St. Dev 17.63 10.95 8.96
Source SS df MS F p
Between
Within
Total
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Cont… Grand Mean
In our example
The Between Group Variation for our example is SS(B)=1902
1 1 2 2
1 2
k k
k
n x n x n xx
n n n
SS(B)=7(75.71-65.08)2 + 9(67.11-65.08)2 + 8(53.5-65.08)2 =1902
7(75.71) + 9(67.11) +8(53.5)x̅1 = = 65.08
7 + 9 + 8
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Cont…
The within group variation for our ex̅ample is 3386
Degree of freedom The between group df is one less than the number of groups We have three groups, so df(B) = 2
The within group df is the sum of the individual df’s of each group The sample sizes are 7, 9, and 8 df(W) = 6 + 8 + 7 = 21
The total df is one less than the sample size df(Total) = 24 – 1 = 23
SS(W) = 6(310.9)+8(119.86)+7(80.29) = 3386
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Cont….
Variance (mean of squares) MS(B)= 1902 / 2 = 951.0 MS(W)= 3386 / 21 = 161.2 MS(T)= 5288 / 23 = 229.9
Now computing ANOVA
Source SS df MS F p
Between 1902 2 951.0 5.9
Within 3386 21 161.2
Total 5288 23 229.9
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Cont…
P(F2,21 > 5.9) = 0.009
There is enough evidence to support the claim that there is a difference in the mean scores of the front, middle, and back rows in class.
The ANOVA doesn’t tell which row is different, we need to look at confidence intervals or run post hoc tests to determine that
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Meta analysis
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What is meta analysis ?
“Meta-analysis is a statistical technique for combining the results of independent, but similar, studies to obtain an overall estimate of treatment effect.”
Margaliot, Zvi, Kevin C. Chung. “Systematic Reviews: A Primer for Plastic Surgery Research.” PRS Journal. 120/7 (2007) p.1840
Quantitative approach for systematically combining results of previous research to arrive at conclusions about the body of research.
Each study produces a different estimate of the magnitude.
Meta-analysis combines the effects from all studies to give an overall mean effect and other important statistics
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The crack......
Quantitative : numbers
Systematic : methodical
Combining: putting together
Previous research: what's already done
Conclusions: new knowledge
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Systematic reviews
“A review that is conducted according to clearly stated, scientific research methods, and is designed to minimize biases and errors inherent to traditional, narrative reviews.”
Systematic Reviews minimize bias.
A systematic review is a more scientific method of because specific protocols are used to determine
which studies will be included in the review.”
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Systemic review vs. meta analysis
Systematic Reviews Meta-analyses
Identify and critique relevant research studies
Discuss factors that may ex̅plain heterogeneity
Synthesize the knowledge
Identify relevant research studies using a defined protocol
Statistically test study heterogeneity and investigate ex̅planatory variables.
Statistically summarize results to obtain an overall estimate of treatment effect.
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Four Steps of Meta Analysis
Identifying studies
Determining eligibility of studieso Inclusion: which ones to keepo Exclusion: which ones to throw out
Abstract Data from the studies
Analyzing data in the studies statistically
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Identifying studies Being methodical: Defining the Research Question
Performing the literature search
List of popular databases to search Pubmed/Medline Embase Cochrane Review/Trials Register
Other strategies .... Hand search (in the library...) Personal references, and emails web, eg. Google search (http://scholar.google.com)
Selection of the studies
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Eligibility of studies Should be determined in advance, to reduce investigator bias
Cannot include all studies
Keep the ones with high levels of evidence good quality check with QUOROM (Quality of reporting of systematic reviews)
guidelines
Usually, MA done with RCTs
Case series, and case reports definitely out
The QUOROM guidelines for reporting a meta-analysis requests that investigators provide a flow diagram of the selection process.
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Quality Control in MA:QUOROM Table
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Cont…
Selection problems are major problems
Criteria include but are not limited to:
Types of studies included (case control, cohort, etc)
Years of publication covered
Languages
Restrictions on sample size
Definition of disease, exposures
Confounders that must be measured
Dose response categories similar
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The issue….
Unpublished studies that failed to yield significant results.
If substantial number of such studies , evaluation of the overall significance level may be unduly optimistic.
A biased sample – a sample of only those publications reporting statistically significant results
This bias inflates the probability of making a Type II error
FILE DRAWER PHENOMENA
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Checking for publication bias
Funnel plots display the studies included in the meta analysis in a plot of effect size against sample size
Smaller studies -more chance variability , the expected picture is one of a symmetrical inverted funnel
Asymmetric plot suggests that the meta analysis may have missed some trials – usually smaller studies showing no effect
Asymmetry could also occur if small studies tend to have larger effect size
Interpretation…
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Funnel plot
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Abstract the data
Data to be extracted from each study should be
determined in the design phase and……
A standardized form is to be constructed to record the data.
Examples of data commonly extracted
Study design, descriptions of study groups, diagnostic
information, treatments, length of follow-up evaluation,
and outcome measures.
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What should be abstracted from articles?
Should at least include:
Type of study
Source of cases/controls or cohort
Measures of association
Confidence intervals
Number of observations
Confounders adjusted for, if any
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Plan of Action
ARE THE STUDIES ELIGIBLE FOR MA (STEP I)?
DISCARD
YES
NO
ENTER INTO A SPECIFIED FORMAT
ABSTRACT THE DATA
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Analyzing data in the studies statistically
Clinical trials present results as the frequency of some outcome in the intervention groups and the control group.
Meta-analysis usually summarize as a ratio of the frequency of the events in the intervention to that in the control group.
Most common summary measure of effect size are odds ratio (OR),standard deviation (d) but RR and NNT are also seldom used
Separate methods used for combining effect size and other outcome measures such as risk difference or hazard ratio
Categories: 0.2-small, 0.5-medium, 0.8-Large (Cohen, 1977).
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Examples
Smith and Glass, 1977 synthesized the results from 400 controlled evaluations of psychotherapy and counselling to determine whether psychotherapy ‘works’.
They coded and systematically analyzed each study for the
kind of experimental and control treatments used and the results obtained.
They were able to show that, on the average, the typical psychotherapy client was better off than 75% of the untreated ‘control’ individuals.
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Examples….
Iaffaldano and Muchinsky (1985) found from their meta-analysis that overall there is only a slight relationship between workers’ job satisfaction and the quality of their performance.
Jenkins (1986) tracked down 28 published studies measuring the impact of financial incentives on workplace performance.
Only 57% of these found a positive effect on performance and the overall effect was minimal.
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Thank you