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370 lines
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370 lines
16 KiB
Plaintext
8 months ago
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.-
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help for ^metan7^, ^labbe^, ^funnel^
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.-
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Fixed and random effects meta-analysis
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--------------------------------------
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^metan7^ varlist [^if^ exp] [^in^ range]
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[, ^rr or rd cohen hedges glass nosta^ndard
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^fixed random fixedi randomi peto wgt(^weightvar^) nooverall^
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^cornfield chi2 breslow log eform noint^eger^ cc(^#^)^
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^by(^byvar^) nosubgroup sgweight ilevel(^#^) olevel(^#^)^
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^label(namevar=^name^, yearvar=^year^) legend(^text^)^
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^sortby(^sort_vars^) nokeep notable nograph^
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^xt^ick^(^#,..,#^) xla^bel^(^#,..,#^) force^
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^t1title(^#,..,#^) t2title(^#,..,#^) b1title(^#,..,#^) b2title(^#,..,#^)^
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^boxsha(^#^) boxsca(^#^) nobox texts(^#^) nowt nostats counts^
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^group1(^text^) group2(^text^) effect(^text^) saving(^filename^)^ ]
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^labbe^ varlist [^if^ exp] [^in^ range] [^weight^]
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[ , ^nowt per^cent ^or(^#^) rr(^#^) rd(^#^) rrn(^#^) null logit^
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graph_options ]
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^funnel^ [varlist] [^if^ exp] [^in^ range] [^weight^]
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[, ^ysq^rt ^sa^mple ^ov^erall(#) graph_options ]
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Description
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-----------
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These routines provide methods for the meta-analysis of aggregate level
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data. Either binary (event) or continuous data from two groups may be
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combined using the ^metan7^ command. Additionally, pre-calculated effect
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sizes may be pooled. Several meta-analytic methods are available, and
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the results may be displayed graphically in a Forest plot. A test for
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the statistical significance of the overall effect size is also provided,
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along with a test for excess between-trial variation (heterogeneity)
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and the I-squared measure which is an alternative summary of this
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(Higgins & Thompson 2002). Note that this command has been updated-
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see ^metan^
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^labbe^ draws a L'Abbe plot for event data (proportion of successes in the
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two groups). This is an alternative to the graph produced by ^metan7^
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^funnel^ may be used for producing a "funnel plot", a graph of either the
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study sample size, standard error or precision (inverse of s.e.) against
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the effect size.
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Options for ^metan7^
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-----------------
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The main meta-analysis routine ^metan7^ requires either two, three, four
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or six variables to be declared.
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When four variables are specified, analysis of binary data is performed
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on the 2x2 table with cell counts denoted by the variable list.
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With six variables, the data are assumed continuous and to be the sample
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size, mean and standard deviation of the experimental group followed by
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those of the control group.
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For two or three variables, a variance-weighted analysis is performed in
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a similar fashion to the @meta@ command;
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the two variable syntax is <theta> and <SE(theta)>.
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the 3 variable syntax is <theta>, <lower ci (theta)>, <upper ci (theta)>
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Note that in this situation "theta" is taken to be the logarithm of the
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effect size if the odds ratio or risk ratio is used. ^This differs from^
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^the equivalent in the meta command^. This program does not assume the
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three variables need log transformation: if odds ratios or risk ratios
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are combines, it is up to the user to log-transform them first. The
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^eform^ option can be used to change back to the original scale if needed.
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By default the confidence intervals are assumed symmetric, and the studies
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are pooled by taking the variance to be equal to (CI width)/2z.
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Specifying the measure and model with which to pool the data
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------------------------------------------------------------
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Options for binary data (4 variables)
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^rr^ pools risk ratios [default]
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^or^ pools odds ratios
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^rd^ pools risk differences
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^fixed^ specifies a fixed effect model using the method of
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Mantel and Haenszel [default]
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^fixedi^ specifies a fixed effect model using the inverse variance method
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^peto^ specifies that Peto's method is used to pool odds ratios
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^random^ specifies a random effects model using the method of
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DerSimonian & Laird, with the estimate of heterogeneity being taken
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from the Mantel-Haenszel model
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^randomi^ specifies a random effects model using the method of
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DerSimonian & Laird, with the estimate of heterogeneity being taken
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from the inverse variance fixed effect model
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^cornfield^ computes confidence intervals for odds ratios by method of
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Cornfield, rather than the (default) Woolf method
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^chi2^ displays chi-squared statistic (instead of z) for the test
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of significance of the pooled effect size. This is available only for
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odds ratios pooled using Peto or Mantel-Haenszel methods
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^breslow^ produces Breslow-Day test for homogeneity of ORs
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^cc(^#^)^ defines a fixed continuity correction to add in the case where
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a study contains a zero cell. By default, metan7 adds 0.5 to each cell of
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a trial where a zero is encountered when using Inverse-Variance,
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Der-Simonian & Laird or Mantel-Haenszel weighting to enable finite
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variance estimators to be derived. However, the cc option allows the use
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of other constants (including none). See also the ^nointeger^ option below.
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^nointeger^ allows the cell counts to be non-integers. This may be useful
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when a variable continuity correction is sought for studies containing
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zero cells, but also may be used in other circumstances, such as where a
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cluster-randomised trial is to be incorporated and the "effective sample
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size" is less than the total number of observations.
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Options for continuous data
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^cohen^ pools standardised mean differences by the method of Cohen
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[default]
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^hedges^ pools standardised mean differences by the method of Hedges
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^glass^ pools standardised mean differences by the method of Glass
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^nostandard^ pools unstandardised mean differences
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^fixed^ specifies a fixed effect model using the inverse variance method
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[default]
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^random^ specifies a random effects model using the DerSimonian & Laird
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method
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^nointeger^ denotes that the number of observations in each arm does not
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need to be an integer. By default, the first and fourth variables specified
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(containing N_intervention and N_control respectively) may occasionally be
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non-integer (see above entry under binary data)
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Alternative weighting (for all data types)
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^wgt(^wgtvar^)^ denotes that the effect size is to be computed by assigning
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a weight of wgtvar to the studies. When RRs or ORs are declared, their
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logarithms are weighted. You should only use this option if you are
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satisfied that the weights are meaningful.
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Output
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------
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General
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^by^ specifies that the meta-analysis is to be stratified
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according to the variable declared.
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^sgweight^ specifies that the display is to present the percentage
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weights within each subgroup separately. By default metan7 presents
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weights as a percentage of the overall total.
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^nosubgroup^ indicates that no within-group results are to be
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presented. By default metan7 pools trials both within and across
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all studies
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^log^ reports the results on the log scale
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(valid for OR and RR analyses only)
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^eform^ exponentiates all effect sizes and confidence intervals
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(valid only for analyses of odds ratios or risk ratios)
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^ilevel()^ specifies the significance level (eg 90,95,99) for the
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individual trial confidence intervals
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^olevel()^ specifies the significance level (eg 90,95,99) for the
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overall (pooled) confidence intervals
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^ilevel^ and ^olevel^ need not be the same, and by default are equal
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to the significance level specified using the ^set level^ command
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^sortby(^varlist^)^ sorts by one or more variables ^varlist^
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^label(^ [^namevar^=namevar] [^,yearvar^=yearvar] ^)^
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labels the data by its name, year or both. Either or both option/s
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may be left blank. For the table display the overall length of the
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label is restricted to 20 characters
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^nokeep^ prevents the retention of study parameters in permanent
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variables (see saved results below)
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^notable^ prevents display of table of results
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^nograph^ prevents display of graph
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Graph display options for forest plot
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^legend()^ specifies a label to be used for the study identifiers at
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the top of the graph. This is a rename of the ^stext()^ option that
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appeared in some previous versions of metan7.
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^effect()^ may be used when the effect size and its standard error
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are declared. This allows the graph to name the summary statistic used
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^nooverall^ prevents display of overall effect size on graph
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(automatically enforces the ^nowt^ option)
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^nowt^ prevents display of study weight on graph
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^nostats^ prevents display of study statistics on graph
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^counts^ displays data counts (n/N) for each group when using
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binary data
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^group1()^, ^group2()^ can be used with the counts option: the text should
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contain the names of the two groups.
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^xlabel()^ defines x-axis labels
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^xtick()^ adds tick marks to the x-axis
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^force()^ forces the x-axis scale to be in the range specified
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by ^xlabel()^
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^t1title(..)^, ^t2title(..)^, ^b1title(..)^, ^b2title(..)^
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adds titles to graph in the usual manner, but ^b1title(..)^ has an added
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feature. If the text starts with "*I:" and contains an asterisk, metan7
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interprets this as meaning the label declares something about the effect
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sizes. For example,
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. ^metan7^ [varlist] ^, b1title(*I:^Favours treatment ^*^ Favours control^)^
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displays a legend under the graph denoting that studies with effect sizes
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to the left of the graph (eg below odds ratios of less than 1) denote a
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beneficial treatment, whilst those finding effects to the right indicate
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a negative treatment effect.
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^boxsha()^ controls box shading intensity, between 0 and 4. The default
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is 4, which produces a filled box
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^boxsca()^ controls box scaling, which by default is 1
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^nobox^ prevents a "weighted box" being drawn for each study, instead
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displaying effect sizes as identically sized circles
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^texts()^ specifies font size for text display on graph. The default
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size is 1
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^saving(^filename^)^ saves the forest plot to the specified file
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Note that for graphs on the log scale (that is, ORs or RRs), values
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outside the range [10e-8,10e8] are not displayed. A confidence interval
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which extends beyond this will have an arrow added at the end of the range;
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should the effect size and confidence interval be completely off this
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scale, they will be represented as a single (triangle-shaped) arrow.
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By default, ^metan7^ adds the following new variables to the data set:
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^_ES^ Effect size (ES)
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^_seES^ Standard error of ES
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or, when OR or RR are specfied:
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^_selogES^ the standard error of its logarithm
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^_LCI^ Lower confidence limit for ES
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^_UCI^ Upper confidence limit for ES
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^_WT^ Study percentage weight
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^_SS^ Study sample size
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Options for ^funnel^
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------------------
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If the ^funnel^ command is invoked following ^metan7^ with no parameters
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specified it will produce a standard funnel plot of precision (1/SE)
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against treatment effect. Addition of the ^noinvert^ option will produce
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a plot of standard error against treatment effect. The alternative
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sample size version of the funnel plot can be obtained by using the
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^sample^ option (this automatically selects the ^noinvert^ option).
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Alternative plots can be created by specifying ^precision_var^ and
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^effect_size^. If the effect size is a relative risk or odds ratio,
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the ^xlog^ option should be used to create a symmetrical plot.
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All options for graph are valid. Additionally,
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^sample^ denotes that the y-axis is the sample size and not a
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standard error
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^noinvert^ prevents the values of the precision variable from being
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inverted
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^ysqrt^ represent y-axis on square root scale
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^overall(^x^)^ draws a dashed vertical line at overall effect size given by x
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Options for ^labbe^
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-----------------
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By default the size of the plotting symbol is proportional to the sample
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size of the study. If weight is specified the plotting size will be
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proportional to the weight variable.
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All options for graph are valid. Additionally, the following options may
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be used
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^nowt^ declares that the plotted data points are to be the same size
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^percent^ display the event rates as percentages rather than proportions
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^null^ draws a line corresponding to a null effect (ie p1=p2)
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^or(^x1^)^ draws a line corresponding to a fixed odds ratio of x1
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^rd(^x2^)^ draws a line corresponding to a fixed risk difference of x2
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^rr(^x3^)^ draws a line corresponding to a fixed risk ratio
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(for the event) of x3
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^rrn(^x4^)^ draws a line corresponding to a fixed risk ratio
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(for the non-event) of x4
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The latter two may require explanation: whereas the OR and RD are
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invariant to the definition of which of the binary outcomes is the "event"
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and which is the "non-event", the RR is not. That is, whilst the command
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^metan7 a b c d , or^ gives the same result as ^metan7 b a d c , or^
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(with direction changed), an RR analysis does not. The L'Abbe plot allows
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the display of either or both be superimposed
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^logit^ is for use when the ^or()^ option has been used; it displays the
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probabilities on the logit scale ie log(p/1-p). On the logit scale the
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odds ratio is a linear effect, and so this makes it easier to assess the
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"fit" of the line.
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One note of caution: depending on the size of the studies, you may need to
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rescale the graph (by means of the ^psize()^ option)
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Examples
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--------
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. ^metan7 tdeath tnodeath cdeath cnodeath, or chi2 label(namevar=trialid)^
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. ^metan7 tdeath tnodeath cdeath cnodeath, rd random^
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. ^metan7 tdeath tnodeath cdeath cnodeath, olevel(99) ilevel(95)^ /*
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/* ^sortby(year) label(namevar=trialid, yearid=year) nostats nowt^
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. ^metan7 n1 mean1 sd1 n2 mean2 sd2, by(trialtype)^ /*
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*/ ^b1(*I:Treatment reduces blood pressure * Treatment increases blood pressure)^
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. ^gen logor = (a*d)/(b*c)^
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. ^gen selogor = sqrt( (1/a) + (1/b) + (1/c) + (1/d) )^
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. ^metan7 logor selogor , eform effect(Odds ratio) ^
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. ^metan7 percentlowerci upperci , wgt(n_positives) b1(Sensitivity)^ /*
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*/ ^xlabel(0,20,40,60,80,100) nooverall^
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. ^local ovratio=r(ES)^
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. ^funnel , sample ysqrt xlabel(0.1,0.5,1,5,10) ylabel(0,500,1000)^ /*
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*/ ^overall(`ovratio')^
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. ^funnel or selogor, xlabel(0.1,0.5,1,5,10) ylabel(0,0.05,0.1) xlog^
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. ^labbe tdeath tnodeath cdeath cnodeath, xlabel(0,0.25,0.5,0.75,1)^ /*
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*/ ^ylabel(0,0.25,0.5,0.75,1) rr(0.91) rd(-0.021) ^
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. ^metan7 n1 m1 sd1 n2 m2 sd2, nostandard^
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. ^metan7 n1 m1 sd1 n2 m2 sd2, random xla(-2,-1,0,1,2) force saving(metagrph)^
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Authors
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-------
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Michael J Bradburn, Jonathan J Deeks, Douglas G Altman.
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Centre for Statistics in Medicine, University of Oxford,
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Old Road Campus, Headington, Oxford OX3 7LF, UK.
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email mike.bradburn@@cancer.org.uk
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References
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----------
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Higgins JPT, Thompson SG (2002) Quantifying heterogeneity in a meta-analysis.
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Statistics in Medicine 21:1539-1558
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Also see
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--------
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STB: STB-44 sbe24
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On-line: help for @meta@ (if installed), @metacum@ (if installed),
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@metareg@ (if installed), @metabias@ (if installed),
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@metatrim@ (if installed), @metainf@ (if installed),
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@galbr@ (if installed)
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