Article Synopsis
- Parkinson's disease is a complex and incurable neurodegenerative disorder, affected by various cellular mechanisms that differ among individuals, making it challenging to identify specific pathways in living patients.
- Researchers developed a machine learning model that predicts both the presence of Parkinson's and its specific subtypes by analyzing patient-derived neurons, achieving 82% accuracy for cellular profiles and 95% accuracy for image classification.
- The study highlights the significance of organelles like mitochondria and lysosomes in Parkinson's pathology and suggests that machine learning could facilitate personalized approaches to treatment by accurately identifying disease mechanisms in patients.
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Article Abstract
Parkinson's disease is a common, incurable neurodegenerative disorder that is clinically heterogeneous: it is likely that different cellular mechanisms drive the pathology in different individuals. So far it has not been possible to define the cellular mechanism underlying the neurodegenerative disease in life. We generated a machine learning-based model that can simultaneously predict the presence of disease and its primary mechanistic subtype in human neurons. We used stem cell technology to derive control or patient-derived neurons, and generated different disease subtypes through chemical induction or the presence of mutation. Multidimensional fluorescent labelling of organelles was performed in healthy control neurons and in four different disease subtypes, and both the quantitative single-cell fluorescence features and the images were used to independently train a series of classifiers to build deep neural networks. Quantitative cellular profile-based classifiers achieve an accuracy of 82%, whereas image-based deep neural networks predict control and four distinct disease subtypes with an accuracy of 95%. The machine learning-trained classifiers achieve their accuracy across all subtypes, using the organellar features of the mitochondria with the additional contribution of the lysosomes, confirming the biological importance of these pathways in Parkinson's. Altogether, we show that machine learning approaches applied to patient-derived cells are highly accurate at predicting disease subtypes, providing proof of concept that this approach may enable mechanistic stratification and precision medicine approaches in the future.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10442231 | PMC |
| http://dx.doi.org/10.1038/s42256-023-00702-9 | DOI Listing |
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