Abstract
The underlying causes of Parkinson’s disease are complex, and besides recent advances in elucidating relevant disease mechanisms, no disease-modifying treatments are currently available. One proposed pathophysiological hallmark is mitochondrial dysfunction, and a plethora of evidence points toward the interconnected nature of mitochondria in neuronal homeostasis. This also extends to iron and neuromelanin metabolism, two biochemical processes highly relevant to individual disease manifestation and progression. Modern neuroimaging methods help to gain in vivo insights into these intertwined pathways and may pave the road to individualized medicine in this debilitating disorder. In this narrative review, we will highlight the biological rationale for studying these pathways, how distinct neuroimaging methods can be applied in patients, their respective limitations, and which challenges need to be overcome for successful implementation in clinical studies.
Funder
the GP2 (Global Parkinson’s Genetics Programm)—Underrepresented populations (UPR) consortium and the Chilean National ANID Ph.D. scholarship
the Deutsche Forschungsgemeinschaft
the Michael J. Fox Foundation
the Parkinson’s Foundation
the Deutsche Parkinsongesellschaft
the Deutsche Forschungsgemeinschaft via the Clinician Scientist School Lübeck
Subject
Inorganic Chemistry,Organic Chemistry,Physical and Theoretical Chemistry,Computer Science Applications,Spectroscopy,Molecular Biology,General Medicine,Catalysis
Reference154 articles.
1. Parkinson’s disease;Lancet,2021
2. The Emerging Evidence of the Parkinson Pandemic;J. Park. Dis.,2018
3. Genotype-driven therapeutic developments in Parkinson’s disease;Mol. Med.,2021
4. The Ageing Brain: Molecular and Cellular Basis of Neurodegeneration;Front. Cell Dev. Biol.,2021
5. Targeting Mitochondrial Impairment in Parkinson’s Disease: Challenges and Opportunities;Front. Cell Dev. Biol.,2020
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