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Neurodegenerative disorders, such as Alzheimer’s, Parkinson’s, and Huntington’s, affect millions of people in the United States, and the cost of caring for individuals with these conditions adds up to hundreds of billions of dollars each year.
Researchers from The University of Texas at El Paso may have discovered a potential solution in used coffee grounds—a material discarded from homes and businesses around the world daily. Dr. Mahesh Narayan and his team found that Carbon Quantum Dots (CACQDs) derived from spent coffee grounds could protect brain cells from the damage inflicted by neurodegenerative diseases.
Their work, detailed in a paper published in the journal Environmental Research, suggests that CACQDs could address the atomic and molecular underpinnings of these conditions, potentially leading to transformative treatments.
These diseases are primarily characterized by the loss of neurons or brain cells, impairing various functions. In early stages, common traits include elevated levels of free radicals and aggregation of amyloid-forming proteins, both of which can cause significant brain damage.
Dr. Narayan stated, “It is critical to address these disorders before they reach the clinical stage, as at that point, it is likely too late for effective treatment. Our aim is to prevent these conditions at a cost that is manageable for as many patients as possible.” Dr. Kumar and Dr. Narayan’s team hypothesizes that, in humans, a treatment based on CACQDs could effectively prevent the development of such neurodegenerative diseases.
Caffeic acid, an antioxidant compound derived from used coffee grounds through a green chemistry process, has the potential to penetrate the blood-brain barrier, exerting effects on brain cells. The process of extracting CACQDs from coffee grounds is both economical and sustainable, opening up possibilities for a solution that could prevent the vast majority of neurodegenerative disorders caused by factors other than genetics.
Dr. Kumar and his colleagues are moving forward on their journey, and while there’s still a long road ahead, they remain hopeful that it will lead to an effective, affordable medication that could significantly impact the prevention of these crippling conditions.
More information: Jyotish Kumar et al, Caffeic acid recarbonization: A green chemistry, sustainable carbon nanomaterial platform to intervene in neurodegeneration induced by emerging contaminants, Environmental Research (2023). DOI: 10.1016/j.envres.2023.116932
Journal information: Environmental Research