Neuroimaging and Transcriptomic Insights Into Iron Accumulation and Glymphatic Dysfunction in Olfactory Dysfunction
Chantat Leong, Jixin Luan, Ruisi Wang, Manxi Xu, Hongwei Yu, Li Zhu, Ni Shu, Gaoxiang Ouyang, Hui Xia, Guolin Ma, Zhen Yuan

TL;DR
This study explores how iron buildup and brain fluid clearance relate to olfactory dysfunction, revealing new biological pathways and potential biomarkers for diagnosis and recovery.
Contribution
The study introduces a multimodal MRI and transcriptomic framework to link iron accumulation, glymphatic function, and gene expression in olfactory dysfunction.
Findings
PVOD patients showed increased iron accumulation in brain regions related to olfactory memory.
Transcriptomic analysis linked iron deposition to genes involved in neuronal organization and synapse formation.
Enhanced glymphatic activity was observed in PVOD, with stronger BOLD–CSF coupling correlating with recovery.
Abstract
Olfactory dysfunction (OD) is clinically linked to inflammation and neurotoxin accumulation, yet the underlying neurobiological mechanisms remain largely unclear. Understanding how glymphatic function, iron dysregulation, and transcriptomic signatures contribute to OD may reveal new biomarkers and mechanisms of recovery. A multimodal MRI framework integrating BOLD–CSF coupling, quantitative susceptibility mapping (QSM), and transcriptomic profiling was applied to post‐viral (PVOD), post‐traumatic (PTOD), and healthy control (HC) groups. Iron accumulation was quantified with QSM and linked to gene expression using partial least squares regression, followed by GO and protein–protein interaction analyses. PVOD showed significantly increased iron accumulation in the right inferior frontal and temporal cortices, regions related to olfactory memory and recognition. Transcriptomic…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsOlfactory and Sensory Function Studies · Cerebrospinal fluid and hydrocephalus · Neurogenesis and neuroplasticity mechanisms
