Animal models of focal dystonia

Evinger, Craig

doi:10.1602/neurorx.2.3.513

Cited by 19 publications

(8 citation statements)

References 169 publications

(170 reference statements)

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“…However, these alterations may also in some circumstances, such as after an injury or the sustained performance of repetitive muscular activity, become maladaptive plastic changes that are thought to be responsible for initiating and perpetuating certain movement disorders and chronic pain syndromes. 24,[39][40][41][42][43][44][45][46][47][48][49][50][51] Furthermore, joint dysfunction originating from an injury may be a cause of ongoing pain and loss of function due to maladaptive sensorimotor integration from a hyperafferentiation of the CNS from the dysfunctional joints and associated structures. [52][53][54][55][56][57][58] Does Repetitive Muscular Activity and Joint Dysfunction Lead to Maladaptive Plasticity?…”

Section: Clinical and Research Implicationsmentioning

confidence: 99%

The Effects of Spinal Manipulation on Central Integration of Dual Somatosensory Input Observed After Motor Training: A Crossover Study

Taylor

Murphy

2010

Journal of Manipulative and Physiological Therapeutics

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Section: Clinical and Research Implicationsmentioning

confidence: 99%

The Effects of Spinal Manipulation on Central Integration of Dual Somatosensory Input Observed After Motor Training: A Crossover Study

Taylor

Murphy

2010

Journal of Manipulative and Physiological Therapeutics

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“…Dystonia might be due to basal ganglia dysfunction associated with globus pallidus interna hypoactivation and cortical overactivation 7. Basso and colleages revealed that reduced basal ganglia dopamine levels causes a decrease in nucleus raphe magnus inhibition of the blink circuit that increases trigeminal blink excitability 8…”

Section: Discussionmentioning

confidence: 99%

A Case with Improvement of Blepharospasm by Zolpidem

Sunwoo¹,

Cho²,

Lee³

et al. 2011

JMD

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Zolpidem is usually used for the treatment of insomnia as a hypnotic drug. It was also suggested to be effective in the treatment of dystonia in some studies. A 74-year-old woman had been suffering from frequent and intense bilateral spasms of the eyelids for 20 years. She has been treated with botulinum toxin injection and taken some medications. But, she experienced a little effect and was not satisfied with those treatments. Her symptom was improved after taking Zolpidem which had been prescribed for insomnia by her primary physician. She did not show any improvement after placebo injection and neostigmine test. This is the first report which shows improvement of isolated blepharospasm by Zolpidem in Korea. Zolpidem can be one of useful alternative pharmacological treatments for blepharospasm. Further randomized, blinded, placebo-controlled studies are needed to validate this finding.

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“…Focal dystonia can be experimentally induced in animals ( 65 ) and cases of focal muscle contractions in domestic animals may resemble human focal dystonia. Meyer-Lindenberg et al ( 66 ) described an interesting case of severe bilateral blepharospasm in a Great Dane dog.…”

Section: Hyperkinetic Movement Disorders In Domestic Animals: Common mentioning

confidence: 99%

Dystonia and Paroxysmal Dyskinesias: Under-Recognized Movement Disorders in Domestic Animals? A Comparison with Human Dystonia/Paroxysmal Dyskinesias

et al. 2015

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Dystonia is defined as a neurological syndrome characterized by involuntary sustained or intermittent muscle contractions causing twisting, often repetitive movements, and postures. Paroxysmal dyskinesias are episodic movement disorders encompassing dystonia, chorea, athetosis, and ballism in conscious individuals. Several decades of research have enhanced the understanding of the etiology of human dystonia and dyskinesias that are associated with dystonia, but the pathophysiology remains largely unknown. The spontaneous occurrence of hereditary dystonia and paroxysmal dyskinesia is well documented in rodents used as animal models in basic dystonia research. Several hyperkinetic movement disorders, described in dogs, horses and cattle, show similarities to these human movement disorders. Although dystonia is regarded as the third most common movement disorder in humans, it is often misdiagnosed because of the heterogeneity of etiology and clinical presentation. Since these conditions are poorly known in veterinary practice, their prevalence may be underestimated in veterinary medicine. In order to attract attention to these movement disorders, i.e., dystonia and paroxysmal dyskinesias associated with dystonia, and to enhance interest in translational research, this review gives a brief overview of the current literature regarding dystonia/paroxysmal dyskinesia in humans and summarizes similar hereditary movement disorders reported in domestic animals.

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Animal models of focal dystonia

Cited by 19 publications

References 169 publications

The Effects of Spinal Manipulation on Central Integration of Dual Somatosensory Input Observed After Motor Training: A Crossover Study

The Effects of Spinal Manipulation on Central Integration of Dual Somatosensory Input Observed After Motor Training: A Crossover Study

A Case with Improvement of Blepharospasm by Zolpidem

Dystonia and Paroxysmal Dyskinesias: Under-Recognized Movement Disorders in Domestic Animals? A Comparison with Human Dystonia/Paroxysmal Dyskinesias

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