C. Babiloni Et Al. , "Abnormal cortical neural synchronization mechanisms in quiet wakefulness are related to motor deficits, cognitive symptoms, and visual hallucinations in Parkinson's disease patients: an electroencephalographic study," Neurobiology of Aging , vol.91, pp.88-111, 2020
Babiloni, C. Et Al. 2020. Abnormal cortical neural synchronization mechanisms in quiet wakefulness are related to motor deficits, cognitive symptoms, and visual hallucinations in Parkinson's disease patients: an electroencephalographic study. Neurobiology of Aging , vol.91 , 88-111.
Babiloni, C., Pascarelli, M. T., Lizio, R., Noce, G., Lopez, S., Rizzo, M., ... Ferri, R.(2020). Abnormal cortical neural synchronization mechanisms in quiet wakefulness are related to motor deficits, cognitive symptoms, and visual hallucinations in Parkinson's disease patients: an electroencephalographic study. Neurobiology of Aging , vol.91, 88-111.
Babiloni, Claudio Et Al. "Abnormal cortical neural synchronization mechanisms in quiet wakefulness are related to motor deficits, cognitive symptoms, and visual hallucinations in Parkinson's disease patients: an electroencephalographic study," Neurobiology of Aging , vol.91, 88-111, 2020
Babiloni, Claudio Et Al. "Abnormal cortical neural synchronization mechanisms in quiet wakefulness are related to motor deficits, cognitive symptoms, and visual hallucinations in Parkinson's disease patients: an electroencephalographic study." Neurobiology of Aging , vol.91, pp.88-111, 2020
Babiloni, C. Et Al. (2020) . "Abnormal cortical neural synchronization mechanisms in quiet wakefulness are related to motor deficits, cognitive symptoms, and visual hallucinations in Parkinson's disease patients: an electroencephalographic study." Neurobiology of Aging , vol.91, pp.88-111.
@article{article, author={Claudio Babiloni Et Al. }, title={Abnormal cortical neural synchronization mechanisms in quiet wakefulness are related to motor deficits, cognitive symptoms, and visual hallucinations in Parkinson's disease patients: an electroencephalographic study}, journal={Neurobiology of Aging}, year=2020, pages={88-111} }