IgA nephropathy (IgAN) is the most common primary glomerular disease worldwide. Its progression is often accompanied by cognitive decline, manifesting as multi-dimensional cognitive deficits in areas such as memory, attention, and executive function. Cognitive decline in patients with IgAN severely impacts their quality of life, yet the underlying central nervous system (CNS) damage mechanisms remain unclear, and no effective interventions are currently available. Recent domestic and international studies suggest a potential interactive damage network involving the brain, gut microbiota, and kidneys in patients with chronic kidney disease (CKD). Therefore, exploring the causes of cognitive decline in IgAN patients from the perspective of multi-organ interactive damage, identifying brain injury targets and aberrant gut microbial communities that correlate with changes in renal function, is crucial for the development of effective and precise clinical interventions. Our team has been conducting MRI research on brain injury associated with cognitive decline in CKD since 2015. We have extensive experience in studying brain structure, function, metabolism, and perfusion in patients with end-stage renal disease (ESRD). Our work has been supported by numerous grants, including the General Program and Young Scientists Fund of the National Natural Science Foundation of China (NSFC) and the Key R\&D Program of Shaanxi Province, yielding a series of scientific achievements. The etiological heterogeneity and high prevalence of IgAN suggest that we should focus on the central mechanisms of cognitive decline in this specific patient population. The recent clinical application of 7.0 Tesla (T) ultra-high field MRI provides critical hardware support, enabling us to investigate sub-millimeter-level structural and functional abnormalities in the early stages of IgAN. This study aims to recruit 100 patients with IgAN from the Department of Nephrology and 100 demographically matched healthy controls from the local community. We will collect serum, stool samples, and brain ultra-high field MRI data from both patients and controls. By integrating these data with assessments from multi-dimensional neurocognitive scales, we will explore the potential brain-gut-kidney damage characteristics underlying cognitive decline in IgAN patients from the perspectives of serum metabolomics, fecal gut microbiota analysis, and multi-modal ultra-high field brain MRI analysis.
Age range
18 Years – 60 Years
Sex
ALL
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Gut Microbiome Metagenomic Characteristics
Timeframe: April 2025 to March 2027
Functional Neuroimaging Indices
Timeframe: April 2025 to March 2027
Cognitive Function Scores
Timeframe: April 2025 to March 2027