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Abnormal Resting‐State Neural Activity and Connectivity of Fatigue in Parkinson's Disease
Author(s) -
Zhang JieJin,
Ding Jian,
Li JunYi,
Wang Min,
Yuan YongSheng,
Zhang Li,
Jiang SiMing,
Wang XiXi,
Zhu Lin,
Zhang KeZhong
Publication year - 2017
Publication title -
cns neuroscience and therapeutics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.403
H-Index - 69
eISSN - 1755-5949
pISSN - 1755-5930
DOI - 10.1111/cns.12666
Subject(s) - functional connectivity , functional magnetic resonance imaging , resting state fmri , insula , neuroscience , parkinson's disease , default mode network , salience (neuroscience) , supplementary motor area , medicine , middle frontal gyrus , psychology , brain activity and meditation , physical medicine and rehabilitation , audiology , disease , electroencephalography
Summary Aims Fatigue is a common burdensome problem in patients with Parkinson's disease ( PD ), but its pathophysiological mechanisms are poorly understood. This study aimed at investigating the neural substrates of fatigue in patients with PD . Methods A total of 17 PD patients with fatigue, 32 PD patients without fatigue, and 25 matched healthy controls were recruited. The 9‐item fatigue severity scale ( FSS ) was used for fatigue screening and severity rating. Resting‐state functional magnetic resonance imaging ( RS ‐ fMRI ) data were obtained from all subjects. Amplitude of low‐frequency fluctuations ( ALFF ) was used to measure regional brain activity, and functional connectivity ( FC ) was applied to investigate functional connectivity at a network level. Results PD ‐related fatigue was associated with ALFF changes in right middle frontal gyrus within the attention network and in left insula as well as right midcingulate cortex within the salience network. FC analysis revealed that above three regions showing ALFF differences had altered functional connectivity mainly in the temporal, parietal, and motor cortices. Conclusion Our findings do reveal that abnormal regional brain activity within attention and salience network and altered FC of above abnormal regions are involved in neural mechanism of fatigue in patients with PD .

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