The role of the thalamus and basal ganglia in parkinsonian tremor

S. Hua; S. G. Reich; A. T. Zirh; V. Perry; P. M. Dougherty; F. A. Lenz

doi:10.1002/mds.870131307

The role of the thalamus and basal ganglia in parkinsonian tremor

S. Hua, S. G. Reich, A. T. Zirh, V. Perry, P. M. Dougherty, F. A. Lenz

Research output: Contribution to journal › Article › peer-review

34 Scopus citations

Abstract

The mechanism of parkinsonian tremor may involve a central oscillator, peripheral feedback to the central nervous system (CNS), or both. The thalamus or the globus pallidus is the most likely site for a central oscillator and would be predicted to generate thalamic tremor-related activity characterized, respectively, by calcium spike-associated bursts and by maximal tremor-related activity in the pallidal relay nucleus of thalamus. Thalamic spike trains demonstrate neither of these characteristics. However, cross-correlation, latency, and transfer function analysis indicate that sensory feedback is a critical element in the relationship between thalamic activity and parkinsonian tremor. Therefore, thalamic spike train activity is most consistent with parkinsonian tremor being mediated by peripheral inputs involved in either an unstable reflex loop or sensory modulation of a central oscillator.

Original language	English (US)
Pages (from-to)	40-42
Number of pages	3
Journal	Movement Disorders
Volume	13
Issue number	SUPPL. 3
DOIs	https://doi.org/10.1002/mds.870131307
State	Published - 1998
Externally published	Yes

Keywords

Basal ganglia
Feedback processes
Neuronal oscillators
Parkinson's disease
Thalamus
Tremor

ASJC Scopus subject areas

Neurology
Clinical Neurology

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10.1002/mds.870131307

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title = "The role of the thalamus and basal ganglia in parkinsonian tremor",

abstract = "The mechanism of parkinsonian tremor may involve a central oscillator, peripheral feedback to the central nervous system (CNS), or both. The thalamus or the globus pallidus is the most likely site for a central oscillator and would be predicted to generate thalamic tremor-related activity characterized, respectively, by calcium spike-associated bursts and by maximal tremor-related activity in the pallidal relay nucleus of thalamus. Thalamic spike trains demonstrate neither of these characteristics. However, cross-correlation, latency, and transfer function analysis indicate that sensory feedback is a critical element in the relationship between thalamic activity and parkinsonian tremor. Therefore, thalamic spike train activity is most consistent with parkinsonian tremor being mediated by peripheral inputs involved in either an unstable reflex loop or sensory modulation of a central oscillator.",

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AU - Hua, S.

AU - Reich, S. G.

AU - Zirh, A. T.

AU - Perry, V.

AU - Dougherty, P. M.

AU - Lenz, F. A.

PY - 1998

Y1 - 1998

N2 - The mechanism of parkinsonian tremor may involve a central oscillator, peripheral feedback to the central nervous system (CNS), or both. The thalamus or the globus pallidus is the most likely site for a central oscillator and would be predicted to generate thalamic tremor-related activity characterized, respectively, by calcium spike-associated bursts and by maximal tremor-related activity in the pallidal relay nucleus of thalamus. Thalamic spike trains demonstrate neither of these characteristics. However, cross-correlation, latency, and transfer function analysis indicate that sensory feedback is a critical element in the relationship between thalamic activity and parkinsonian tremor. Therefore, thalamic spike train activity is most consistent with parkinsonian tremor being mediated by peripheral inputs involved in either an unstable reflex loop or sensory modulation of a central oscillator.

AB - The mechanism of parkinsonian tremor may involve a central oscillator, peripheral feedback to the central nervous system (CNS), or both. The thalamus or the globus pallidus is the most likely site for a central oscillator and would be predicted to generate thalamic tremor-related activity characterized, respectively, by calcium spike-associated bursts and by maximal tremor-related activity in the pallidal relay nucleus of thalamus. Thalamic spike trains demonstrate neither of these characteristics. However, cross-correlation, latency, and transfer function analysis indicate that sensory feedback is a critical element in the relationship between thalamic activity and parkinsonian tremor. Therefore, thalamic spike train activity is most consistent with parkinsonian tremor being mediated by peripheral inputs involved in either an unstable reflex loop or sensory modulation of a central oscillator.

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KW - Feedback processes

KW - Neuronal oscillators

KW - Parkinson's disease

KW - Thalamus

KW - Tremor

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The role of the thalamus and basal ganglia in parkinsonian tremor

Abstract

Keywords

ASJC Scopus subject areas

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