The discovery of three biomarkers that detect mild cognitive impairment and Alzheimer’s has the potential to lead to the development of a saliva test to diagnose the chronic neurodegenerative disease.
University of Alberta scientists Liang Li and Roger Dixon examined saliva samples from three sets of patients: those with Alzheimer’s, those with mild cognitive impairment and those with normal cognition. Using a powerful mass spectrometer, the pair examined more than 6,000 metabolites—compounds that are part of our body’s metabolic processes—to identify any changes or signatures between groups.
“We found three metabolites that can be used to differentiate between these three groups,” said Li, adding that while the results show promise, the sample size was small.
“If we can use a larger set of samples, we can validate our findings and develop a saliva test of Alzheimer’s disease,” he explained.
A saliva test would prove useful in clinical settings for its ease and non-invasive nature. It also has the potential to detect neurodegenerative diseases sooner, allowing for early intervention.
“So far, no disease-altering interventions for Alzheimer's disease have been successful,” said Dixon. “Researchers are aiming to discover the earliest signals of the disease so that prevention protocols can be implemented.”
The biomarkers could also be used to conduct efficacy testing for treatments.
“Using the biomarkers, we can also do testing to see what types of treatments are most effective in treating Alzheimer’s disease—from diet to physical activity to pharmaceuticals,” added Li.
The research was published in two papers. The first, “Metabolomics Analyses of Saliva Detect Novel Biomarkers of Alzheimer's Disease,” was published in the Journal of Alzheimer’s Disease. The second, “Alzheimer’s Biomarkers From Multiple Modalities Selectively Discriminate Clinical Status: Relative Importance of Salivary Metabolomics Panels, Genetic, Lifestyle, Cognitive, Functional Health and Demographic Risk Markers,” was published in Frontiers in Aging Neuroscience.
Source: University of Alberta