The discovery, led by Dr. Carlos Cruchaga at Washington University in St. Louis, utilized a 34-circRNA signature validated across 2,400 individuals. This diagnostic tool achieved an area under the curve of 0.945 for detecting symptomatic Alzheimer's, surpassing the 0.877 score of plasma pTau217. When combined, the two methods reached a near-perfect diagnostic accuracy of 0.967, rivaling invasive cerebrospinal fluid tests and expensive PET imaging.
Blood-based RNA test outperforms gold-standard Alzheimer's diagnostics
Circular Genomics has launched its CircPATH platform following a Nature Medicine study demonstrating that blood-based circular RNA biomarkers can predict Alzheimer's disease progression with greater accuracy than current clinical standards. The findings suggest a new, non-invasive path for identifying risk years before symptoms emerge.
Beyond current detection, the platform shows significant promise for preclinical risk stratification. In patients who were cognitively normal at the study's start, the circRNA model demonstrated a hazard ratio of 2.92 for progression to symptomatic disease, compared to 1.81 for pTau217. This 61% improvement in predictive power allows for more precise patient selection in clinical trials. By mapping multiple pathways—including neuroinflammation, synaptic dysfunction, and amyloid precursor protein modulation—the technology captures the complex biological spectrum of the disease through a single blood draw.
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