Description

Parkinson's disease (PD) affects more than 7 million people worldwide and represents a growing health and socio-economic burden. It is an incurable neurodegenerative disease, and the search for biomarkers that allow reliable early diagnosis and provide new therapeutic targets is essential to find cures for PD.

In a recently published preclinical and clinical study, the investigators have identified in 2 rat models of PD and a primate model and in 2 human cohorts from biobanks significant deregulations of 6 serum metabolites: acetoacetate, betaine, beta-hydroxybutyrate, creatine, pyruvate and valine. From these 6 metabolites, they built a composite biomarker, which allowed to classify de novo parkinsonian patients against controls (healthy subjects) with an accuracy (defined as the ratio (correctly classified/total) of 82.6%. This study demonstrated for the first time that a common metabolic dysregulation occurs early in either animal models or in PD patients, thus providing an unbiased diagnostic tool as well as major hypothesis for the understanding of the pathophysiology of the disease and the development of innovative therapeutic approaches.

The goal of BIOPARK is to improve the clinical diagnosis of early PD using the blood biomarker.

To this end, the investigators will study whether the biomarker is able to differentiate between patients with PD >5 years and already treated with dopaminergic drugs (thus with a very high diagnostic confirmation) and patients suffering from other neurodegenerative diseases often confused with it, mainly Multiple Systeme Atrophy (MSA). Furthermore, the investigators hope to confirm the preliminary results on a new cohort of de novo patients.

For that aim, they will use the already optimized method for biomarker discovery, i.e. Nuclear Magnetic Resonance (NMR)-based metabolomics on patient serum.