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"... Using these experimental techniques, the researchers' results suggested iron and myelin anomalies that affected specific regions in the brains of individuals diagnosed with schizophrenia, including the caudate, putamen, and globus pallidus. Their findings are aligned with those of some earlier studies and could help to paint a clearer picture of disease pathophysiology. ...
"This was most significant in regions rich in oligodendrocytes. As oligodendrocytes utilize iron to synthesize myelin, this links oligodendrocyte dysfunction to schizophrenia, highlighting the mechanism underlying this as an important research area." ..."
From the abstract:
"Iron—the most abundant magnetic brain substance—is essential for many biological processes, including dopamine and myelin synthesis.
Quantitative susceptibility mapping (QSM) MRI has recently linked altered subcortical magnetic susceptibility (χ) to schizophrenia. Since χ is increased by iron and decreased by myelin, abnormal levels of either could underlie these QSM differences.
In white matter tracts, magnetic susceptibility anisotropy (δχ) serves as a myelin-specific marker that is insensitive to iron content. To clarify the origin of case-control χ differences, we employed QSM in 85 individuals with schizophrenia, from first-episode mental health teams, and 86 healthy controls.
A subset also underwent diffusion tensor imaging (DTI) to calculate subcortical tissue mean diffusivity, which inversely correlates with myelin concentration and fractional anisotropy.
White matter δχ was calculated by combining QSM and DTI. Schizophrenia was associated with lower subcortical χ (d = −0.36, p = 0.023). This was significant in the caudate nucleus (d = −0.37, p = 0.037), putamen (d = −0.36, p = 0.037), globus pallidus (d = −0.57, p = 0.001), and SN-VTA (as previously reported).
Additionally, schizophrenia was linked to higher subcortical mean diffusivity (d = 0.44, p = 0.018), and lower white matter δχ (d = −0.37, p = 0.047). These findings suggest that both subcortical iron and brain myelin levels are lower in schizophrenia.
By comparing our voxelwise χ maps with postmortem gene expression data, we reveal that regions with lower subcortical χ in schizophrenia are enriched for oligodendrocyte-related genes (p < 0.001). As oligodendrocytes are both the most iron-rich brain cells and essential for myelin synthesis, our results implicate oligodendrocyte dysfunction in schizophrenia pathophysiology."
The role of low subcortical iron, white matter myelin, and oligodendrocytes in schizophrenia: a quantitative susceptibility mapping and diffusion tensor imaging study
Fig. 1: Overview of methods testing the two competing hypotheses.
Fig. 2: Subcortical magnetic susceptibility (χ) t-score map on the T1-weighted Montreal Neurological Imaging (MNI) template at the annotated slice level and orientation.
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