Fig. 4: Rank correlations between learning-induced latent microstructural changes—across two time intervals (MRI1–MRI3 and MRI2–MRI3)—and DBT learning rate. | Communications Biology

Fig. 4: Rank correlations between learning-induced latent microstructural changes—across two time intervals (MRI1–MRI3 and MRI2–MRI3)—and DBT learning rate.

From: Motor learning induces myelin-related white matter changes revealed by MRI-based in vivo histology

Fig. 4: Rank correlations between learning-induced latent microstructural changes—across two time intervals (MRI1–MRI3 and MRI2–MRI3)—and DBT learning rate.The alternative text for this image may have been generated using AI.

Results reflect the expected direction of effects: PCs that decreased following DBT training (Fig. 3) show negative correlations with balance learning, and vice versa. Annotated pooled correlation coefficients were derived from fixed-effect meta-analyses40,41.

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