[R-meta] Correcting Hedges' g vs. Log response ratio in nested studies
One other thought on this question, for the extra-nerdy. The formulas for the Hedges' g SMD estimator involve what statisticians would call "second-order" bias corrections, meaning corrections arising from having a limited sample size. In contrast, the usual estimator of the LRR is just a "plug-in" estimator that works for large sample sizes but can have small biases with limited sample sizes. Lajeunesse (2015; https://doi.org/10.1890/14-2402.1) provides formulas for the second-order bias correction of the LRR estimator with independent samples. These bias correction formulas actually *would* need to be different if you have clustered observations. So, the two effect size metrics are maybe more similar than it initially seemed: - Both metrics have plug-in estimators that are not really affected by the dependence structure of the sample, but whose variance estimators do need to take into account the dependence structure - Both metrics have second-order corrected estimators, the exact form for which does need to take into account the dependence structure. James
On Thu, Nov 2, 2023 at 8:14?AM James Pustejovsky <jepusto at gmail.com> wrote:
Wolfgang is correct. The WWC correction factor arises because the sample variance is not quite unbiased as an estimator for the total population variance in a design with clusters of dependent observations, which leads to a small bias in the SMD. The thing is, though, this correction factor is usually negligible. Say you?ve got a clustered design with n = 21 kids per cluster and 20 clusters, and an ICC of 0.2. Then the correction factor is going to be about 0.99 and so will make very little difference for the effect size estimate. It only starts to matter if you?re looking at studies with very few clusters and non-trivial ICCs. James
On Nov 2, 2023, at 3:04 AM, Viechtbauer, Wolfgang (NP) via
R-sig-meta-analysis <r-sig-meta-analysis at r-project.org> wrote:
?Dear Yuhang, I haven't looked deeply into this, but an immediate thought I have is
that for SMDs, you divide by some measure of variability within the groups. If that measure of variability is affected by your study design, then this will also affect the SMD value. On the other hand, this doesn't have any impact on LRRs since they are only the (log-transformed) ratio of the means.
Best, Wolfgang
-----Original Message----- From: R-sig-meta-analysis <r-sig-meta-analysis-bounces at r-project.org>
On Behalf
Of Yuhang Hu via R-sig-meta-analysis Sent: Thursday, November 2, 2023 05:42 To: R meta <r-sig-meta-analysis at r-project.org> Cc: Yuhang Hu <yh342 at nau.edu> Subject: [R-meta] Correcting Hedges' g vs. Log response ratio in nested
studies
Hello All, I know that when correcting Hedges' g (i.e., bias-corrected SMD, aka
"g")
in nested studies, we have to **BOTH** adjust our initial "g" and its sampling variance "vi_g" (https://ies.ed.gov/ncee/wwc/Docs/referenceresources/WWC-41-Supplement- 508_09212020.pdf). But when correcting Log Response Ratios (LRR) in nested studies, we
have to
**ONLY** adjust its initial sampling variance "vi_LRR" but not "LRR"
itself
(
I wonder why the two methods of correction differ for Hedge's g and LRR? Thanks, Yuhang
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