From a1518e535e0240e7bdd868b7af58e4300e2e3198 Mon Sep 17 00:00:00 2001 From: Alejandro de la Vega Date: Fri, 22 Dec 2023 16:28:10 -0600 Subject: [PATCH] Update docs/tutorial/advanced/mkda_association.md Co-authored-by: Taylor Salo --- docs/tutorial/advanced/mkda_association.md | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/docs/tutorial/advanced/mkda_association.md b/docs/tutorial/advanced/mkda_association.md index bc1e8aa..c313658 100644 --- a/docs/tutorial/advanced/mkda_association.md +++ b/docs/tutorial/advanced/mkda_association.md @@ -78,7 +78,7 @@ The uniformity test map can be interpreted in roughly the same way as most stand - **Association test map**: z-scores from a two-way ANOVA testing for the presence of a non-zero association between term use and voxel activation. -The association test maps tell you whether activation in a region occurs more consistently for studies in your meta-analysis m than for other studies in the reference dataset. In other words, a large positive z-score implies that studies in a meta-analysis are more likely to report XXX activation than studies whose abstracts don't include the word 'emotion'. +The association test maps tell you whether activation in a region **XXX** occurs more consistently for studies in your meta-analytic sample **m** than for other studies in the reference dataset. In other words, a large positive z-score implies that studies in a meta-analysis are more likely to report **XXX** activation than studies whose abstracts don't include the word 'emotion'. Note that association maps *do not* tell you what the probability of a given psychological concept or task is. High Z-scores do not imply that a certain region or voxel is *selective* for a given concept or task. Instead, it just means there is evidence that there is at least a non-zero difference between reference studies, and studies in the meta-analysis.