Contemporary functional neuroanatomy and pathophysiology of dystonia
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TLDR
A comprehensive overview of the functional neuroanatomy and pathophysiology of dystonia can be found in this paper with a dynamic interplay between cortex, basal ganglia, thalamus, brainstem and cerebellum.Abstract:
Dystonia is a disabling movement disorder characterized by abnormal postures or patterned and repetitive movements due to co-contraction of muscles in proximity to muscles desired for a certain movement. Important and well-established pathophysiological concepts are the impairment of sensorimotor integration, a loss of inhibitory control on several levels of the central nervous system and changes in synaptic plasticity. These mechanisms collectively contribute to an impairment of the gating function of the basal ganglia which results in an insufficient suppression of noisy activity and an excessive activation of cortical areas. In addition to this traditional view, a plethora of animal, genetic, imaging and electrophysiological studies highlight the role of the (1) cerebellum, (2) the cerebello-thalamic connection and (3) the functional interplay between basal ganglia and the cerebellum in the pathophysiology of dystonia. Another emerging topic is the better understanding of the microarchitecture of the striatum and its implications for dystonia. The striosomes are of particular interest as they likely control the dopamine release via inhibitory striato-nigral projections. Striosomal dysfunction has been implicated in hyperkinetic movement disorders including dystonia. This review will provide a comprehensive overview about the current understanding of the functional neuroanatomy and pathophysiology of dystonia and aims to move the traditional view of a ‘basal ganglia disorder’ to a network perspective with a dynamic interplay between cortex, basal ganglia, thalamus, brainstem and cerebellum.read more
Citations
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Striatal Synaptic Dysfunction in Dystonia and Levodopa-Induced Dyskinesia
TL;DR: A review of the synaptic dysfunctions of neuronal circuits and underlying neurochemical alterations observed in the hyperkinetic movement disorders, dystonia and dyskinesia can be found in this paper .
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Pain in cervical dystonia: mechanisms, assessment and treatment.
TL;DR: In this article, the authors review the epidemiology, assessment, possible mechanisms and treatment of pain in cervical dystonia, including a meta-analysis of randomized controlled trial data with abobotulinumtoxinA.
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Developmental neurobiology of cerebellar and Basal Ganglia connections
TL;DR: In this paper , the authors explored the conceptual relationship between the motor phenotype and the cortico-basal-ganglia-ponto-cerebellar network, and found that dystonia is attributable to the cortex, instead of to the cerebellum alone.
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Oligodendrocyte and Extracellular Matrix Contributions to Central Nervous System Motor Function: Implications for Dystonia
TL;DR: The role of myelination and the ECM in the development and function of central nervous system motor circuits and the neurodevelopmental disease dystonia is considered.
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Dystonia and Cerebellum: From Bench to Bedside.
Ryoma Morigaki,Ryosuke Miyamoto,Taku Matsuda,Kazuhisa Miyake,Nobuaki Yamamoto,Yasushi Takagi +5 more
TL;DR: This article reviewed basic and clinical articles related to dystonia focusing on the cerebellum, and clarified the current understanding of the role of the brain in dystonias pathogenesis.
References
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Phenomenology and classification of dystonia: a consensus update.
Alberto Albanese,Kailash P. Bhatia,Susan B. Bressman,Mahlon R. DeLong,Stanley Fahn,Victor S.C. Fung,Mark Hallett,Joseph Jankovic,Hyder A. Jinnah,Christine Klein,Anthony E. Lang,Jonathan W. Mink,Jan K. Teller +12 more
TL;DR: An international panel consisting of investigators with years of experience in this field that reviewed the definition and classification of dystonia provides a new general definition and proposes a new classification and encourages clinicians and researchers to use these innovative definitions and test them in the clinical setting on a variety of patients with Dystonia.
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The cerebellum communicates with the basal ganglia.
Eiji Hoshi,Eiji Hoshi,Léon Tremblay,Jean Féger,Peter L Carras,Peter L. Strick,Peter L. Strick +6 more
TL;DR: Using transneuronal transport of rabies virus in macaques, it is found that a disynaptic pathway links an output stage of cerebellar processing, the dentate nucleus, with an input stage of basal gangliaprocessing, the striatum.
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The basal ganglia communicate with the cerebellum
TL;DR: Results provide the anatomical substrate for substantial two-way communication between the basal ganglia and cerebellum, and suggest that the two subcortical structures may be linked together to form an integrated functional network.
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Functional Neuroanatomy of the Basal Ganglia
TL;DR: A comprehensive account of basal ganglia functional anatomy and chemistry and the major pathophysiological changes underlying disorders of movement is provided.
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The Functional Neuroanatomy of Dystonia
TL;DR: The network model provides many new and testable hypotheses with direct relevance for new treatment strategies that go beyond the basal ganglia, and is consistent with neurophysiological evidence suggesting defects in neural inhibitory processes, sensorimotor integration, and maladaptive plasticity.