Neural signatures of hyperdirect pathway activity in Parkinson’s disease

Ashwini Oswal; Chunyan Cao; Chien Hung Yeh; Wolf Julian Neumann; James Gratwicke; Harith Akram; Andreas Horn; Dianyou Li; Shikun Zhan; Chao Zhang; Qiang Wang; Ludvic Zrinzo; Tom Foltynie; Patricia Limousin; Rafal Bogacz; Bomin Sun; Masud Husain; Peter Brown; Vladimir Litvak

doi:10.1038/s41467-021-25366-0

Neural signatures of hyperdirect pathway activity in Parkinson’s disease

Ashwini Oswal^*, Chunyan Cao, Chien Hung Yeh, Wolf Julian Neumann, James Gratwicke, Harith Akram, Andreas Horn, Dianyou Li, Shikun Zhan, Chao Zhang, Qiang Wang, Ludvic Zrinzo, Tom Foltynie, Patricia Limousin, Rafal Bogacz, Bomin Sun, Masud Husain, Peter Brown^*, Vladimir Litvak^*

^*此作品的通讯作者

信息与电子学院

科研成果: 期刊稿件 › 文章 › 同行评审

77 引用（Scopus）

摘要

Parkinson’s disease (PD) is characterised by the emergence of beta frequency oscillatory synchronisation across the cortico-basal-ganglia circuit. The relationship between the anatomy of this circuit and oscillatory synchronisation within it remains unclear. We address this by combining recordings from human subthalamic nucleus (STN) and internal globus pallidus (GPi) with magnetoencephalography, tractography and computational modelling. Coherence between supplementary motor area and STN within the high (21–30 Hz) but not low (13-21 Hz) beta frequency range correlated with ‘hyperdirect pathway’ fibre densities between these structures. Furthermore, supplementary motor area activity drove STN activity selectively at high beta frequencies suggesting that high beta frequencies propagate from the cortex to the basal ganglia via the hyperdirect pathway. Computational modelling revealed that exaggerated high beta hyperdirect pathway activity can provoke the generation of widespread pathological synchrony at lower beta frequencies. These findings suggest a spectral signature and a pathophysiological role for the hyperdirect pathway in PD.

源语言	英语
文章编号	5185
期刊	Nature Communications
卷	12
期	1
DOI	https://doi.org/10.1038/s41467-021-25366-0
出版状态	已出版 - 1 12月 2021

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Oswal, A., Cao, C., Yeh, C. H., Neumann, W. J., Gratwicke, J., Akram, H., Horn, A., Li, D., Zhan, S., Zhang, C., Wang, Q., Zrinzo, L., Foltynie, T., Limousin, P., Bogacz, R., Sun, B., Husain, M., Brown, P., & Litvak, V. (2021). Neural signatures of hyperdirect pathway activity in Parkinson’s disease. Nature Communications, 12(1), 文章 5185. https://doi.org/10.1038/s41467-021-25366-0

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abstract = "Parkinson{\textquoteright}s disease (PD) is characterised by the emergence of beta frequency oscillatory synchronisation across the cortico-basal-ganglia circuit. The relationship between the anatomy of this circuit and oscillatory synchronisation within it remains unclear. We address this by combining recordings from human subthalamic nucleus (STN) and internal globus pallidus (GPi) with magnetoencephalography, tractography and computational modelling. Coherence between supplementary motor area and STN within the high (21–30 Hz) but not low (13-21 Hz) beta frequency range correlated with {\textquoteleft}hyperdirect pathway{\textquoteright} fibre densities between these structures. Furthermore, supplementary motor area activity drove STN activity selectively at high beta frequencies suggesting that high beta frequencies propagate from the cortex to the basal ganglia via the hyperdirect pathway. Computational modelling revealed that exaggerated high beta hyperdirect pathway activity can provoke the generation of widespread pathological synchrony at lower beta frequencies. These findings suggest a spectral signature and a pathophysiological role for the hyperdirect pathway in PD.",

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AU - Yeh, Chien Hung

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AU - Gratwicke, James

AU - Akram, Harith

AU - Horn, Andreas

AU - Li, Dianyou

AU - Zhan, Shikun

AU - Zhang, Chao

AU - Wang, Qiang

AU - Zrinzo, Ludvic

AU - Foltynie, Tom

AU - Limousin, Patricia

AU - Bogacz, Rafal

AU - Sun, Bomin

AU - Husain, Masud

AU - Brown, Peter

AU - Litvak, Vladimir

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N2 - Parkinson’s disease (PD) is characterised by the emergence of beta frequency oscillatory synchronisation across the cortico-basal-ganglia circuit. The relationship between the anatomy of this circuit and oscillatory synchronisation within it remains unclear. We address this by combining recordings from human subthalamic nucleus (STN) and internal globus pallidus (GPi) with magnetoencephalography, tractography and computational modelling. Coherence between supplementary motor area and STN within the high (21–30 Hz) but not low (13-21 Hz) beta frequency range correlated with ‘hyperdirect pathway’ fibre densities between these structures. Furthermore, supplementary motor area activity drove STN activity selectively at high beta frequencies suggesting that high beta frequencies propagate from the cortex to the basal ganglia via the hyperdirect pathway. Computational modelling revealed that exaggerated high beta hyperdirect pathway activity can provoke the generation of widespread pathological synchrony at lower beta frequencies. These findings suggest a spectral signature and a pathophysiological role for the hyperdirect pathway in PD.

AB - Parkinson’s disease (PD) is characterised by the emergence of beta frequency oscillatory synchronisation across the cortico-basal-ganglia circuit. The relationship between the anatomy of this circuit and oscillatory synchronisation within it remains unclear. We address this by combining recordings from human subthalamic nucleus (STN) and internal globus pallidus (GPi) with magnetoencephalography, tractography and computational modelling. Coherence between supplementary motor area and STN within the high (21–30 Hz) but not low (13-21 Hz) beta frequency range correlated with ‘hyperdirect pathway’ fibre densities between these structures. Furthermore, supplementary motor area activity drove STN activity selectively at high beta frequencies suggesting that high beta frequencies propagate from the cortex to the basal ganglia via the hyperdirect pathway. Computational modelling revealed that exaggerated high beta hyperdirect pathway activity can provoke the generation of widespread pathological synchrony at lower beta frequencies. These findings suggest a spectral signature and a pathophysiological role for the hyperdirect pathway in PD.

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Neural signatures of hyperdirect pathway activity in Parkinson’s disease

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