A new way of looking at Parkinson's Disease says study
An international research team led by Krembil Brain Institute Neurologist and Senior Scientist, Dr. Anthony Lang, has proposed a new model for classifying Parkinson’s disease (PD).
In recent decades, researchers have uncovered several biological factors that underlie PD. Key factors include a build up of the protein α-synuclein in the brain, which leads to neuron degeneration, and genetic factors that increase one’s risk of developing the disease. They have also begun to develop reliable methods to test for these factors, called biomarkers, in living patients.
Despite these advancements, doctors still diagnose the disease based on clinical features, such as the presence of tremors and other common motor symptoms.
In a recent article published in Lancet Neurology, Dr. Lang’s team proposed a new, biologically based model for classifying PD, called SynNeurGe.
According to Dr. Lang, who is the Lily Safra Chair in Movement Disorders at the University Health Network (UHN) and the Jack Clark Chair for Parkinson's Disease Research and a Professor in the Department of Medicine, at the University of Toronto, this traditional approach to diagnosing PD does not account for the complex biological processes at play.
“We know Parkinson’s exists in the brain for one to two decades, or longer, before the clinical manifestations present,” says Dr. Lang. “So, we believe current research must be driven by biological determinants of the disease, rather than limited clinical descriptions of its signs and symptoms.”
He adds: “We need a radically different way of looking at this disease.”
The model emphasizes the important interactions between three biological factors that contribute to the disease:
1. the presence of pathologic α( alpha)-synuclein in the brain (S);
2. evidence of neurodegeneration, which occurs as the disease progresses (N); and
3. the presence of gene variants that cause or strongly predispose a person to the disease (G).
According to the team, this “S-N-G” classification system better accounts for the biological heterogeneity of PD and the many ways the condition can present in patients. Consequently, the system could help researchers identify subgroups of patients that have distinct disease processes and develop clinically meaningful disease-modifying therapies.
“We need to recognize that Parkinson’s can differ dramatically between patients. We are not dealing with a single disorder,” explains Dr. Lang. “Our model provides a much broader, more holistic view of the disease and its causes.”
The team is confident that this new way of looking at PD will help researchers study its molecular basis, distinguish it from other neurodegenerative conditions that share common biological features, and identify targets for new therapies.
Reference: A “radically different” way of looking at Parkinson’s Disease; The Lancet Neurology
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