Microstructural alterations predict impaired bimanual control in Parkinson’s disease

Microstructural alterations predict impaired bimanual control in Parkinson’s disease

Bimanual coordination is impaired in Parkinson’s disease affecting patients’ ability to perform activities of daily living and to maintain independence. Conveyance of information between cortical and subcortical areas is essential for bimanual coordination and relies on the integrity of cerebral mic...

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Główni autorzy: Loehrer, Philipp A., Weber, Immo, Oehrn, Carina R., Nettersheim, Felix S., Dafsari, Haidar S., Knake, Susanne, Tittgemeyer, Marc, Timmermann, Lars, Belke, Marcus
Format: Artykuł
Język:angielski
Wydane: Philipps-Universität Marburg 2022
Hasła przedmiotowe:
NODDI
Medizin
diffusion imaging
bimanual coordination
Parkinson’s disease
microstructure
Medical sciences Medicine
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Opis
Streszczenie:Bimanual coordination is impaired in Parkinson’s disease affecting patients’ ability to perform activities of daily living and to maintain independence. Conveyance of information between cortical and subcortical areas is essential for bimanual coordination and relies on the integrity of cerebral microstructure. As pathological deposition of alpha-synuclein compromises microstructure in Parkinson’s disease, we investigated the relationship between microstructural integrity and bimanual coordination using diffusion-weighted MRI in 23 patients with Parkinson’s disease (mean age ± standard deviation: 56.0 ± 6.45 years; 8 female) and 26 older adults (mean age ± standard deviation: 58.5 ± 5.52 years). Whole-brain analysis revealed specific microstructural alterations between patients and healthy controls matched for age, sex, handedness, and cognitive status congruent with the literature and known Parkinson’s disease pathology. A general linear model revealed distinct microstructural alterations associated with poor bimanual coordination in Parkinson’s disease, corrected for multiple comparisons using a permutation-based approach. Integrating known functional topography, we conclude that distinct changes in microstructure cause an impediment of structures involved in attention, working memory, executive function, motor planning, motor control, and visual processing contributing to impaired bimanual coordination in Parkinson’s disease.
Deskrypcja:Gefördert durch den Open-Access-Publikationsfonds der UB Marburg.
DOI:10.1093/braincomms/fcac137

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