Defective cerebellar control of cortical plasticity in writer’s cramp

Hubsch, Cécile; Roze, Emmanuel; Popa, Traian; Russo, Margherita; Balachandran, Ammu; Pradeep, Salini; Mueller, Florian; Brochard, Vanessa; Quartarone, Angelo; Degos, Bertrand; Vidailhet, Marie; Kishore, Asha; Meunier, Sabine

doi:10.1093/brain/awt147

Cited by 88 publications

(109 citation statements)

References 73 publications

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“…In the case of writer's cramp, the slower adaptation rates in Hoffland's study are in line with the findings of Hubsch et al [8] who compared the performance of 21 people with writer's cramp and 25 healthy controls in a reaching task that included a visuomotor conflict. They found that people with writer's cramp exhibited a complete loss of both inhibitory and excitatory cerebellar priming of cortical sensorimotor plasticity.…”

supporting

confidence: 88%

“…They found that people with writer's cramp exhibited a complete loss of both inhibitory and excitatory cerebellar priming of cortical sensorimotor plasticity. In a visuomotor task, people with writer's cramp were also less efficient than healthy subjects at washing out a previous adaptation strategy [8]. People with focal hand dystonia also showed abnormal associative learning in an eyeblink classical conditioning paradigm [24].…”

mentioning

confidence: 99%

“…This localization of dystonia to the basal ganglia does not accommodate a growing body of clinical and experimental evidence of the involvement of other structures, and the concept of dystonia as a network disorder involving multiple brain regions has been proposed [2,3]. The role of the cerebellum in the pathophysiology of dystonia was first noted by Fletcher et al [4] and there is strong evidence of abnormal cerebellar function from pathological, neuroimaging, and neurophysiological studies [2,3,5], particularly in forms of primary dystonia [6][7][8].…”

mentioning

confidence: 99%

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Dissecting the Links Between Cerebellum and Dystonia

Malone

Manto²,

Hass

2014

Cerebellum

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Dystonia is a common movement disorder characterized by sustained muscle contractions. These contractions generate twisting and repetitive movements or typical abnormal postures, often exacerbated by voluntary movement. Dystonia can affect almost all the voluntary muscles. For several decades, the discussion on the pathogenesis has been focused on basal ganglia circuits, especially striatal networks. So far, although dystonia has been observed in some forms of ataxia such as dominant ataxias, the link between the cerebellum and dystonia has remained unclear. Recent human studies and experimental data mainly in rodents show that the cerebellum circuitry could also be a key player in the pathogenesis of some forms of dystonia. In particular, studies based on behavioral adaptation paradigm shed light on the links between dystonia and cerebellum. The spectrum of movement disorders in which the cerebellum is implicated is continuously expanding, and manipulation of cerebellar circuits might even emerge as a candidate therapy in the coming years.

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confidence: 88%

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confidence: 99%

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confidence: 99%

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Dissecting the Links Between Cerebellum and Dystonia

Malone

Manto²,

Hass

2014

Cerebellum

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“…There is emerging evidence that motor learning is deficient in people with cervical dystonia using neurophysiological measures of learning [88,89]. People with FHD are slower to adapt to visuomotor perturbations than healthy adults [90]. The only working memory task tested to date to our knowledge is the mental rotation task, a visuospatial working memory task [78].…”

Section: The Non-motor Role Of the Cerebellum In Dystoniamentioning

confidence: 99%

Non-invasive cerebellar stimulation in dystonia

Graetz

Bradnam

2013

Translational Neuroscience

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Primary isolated dystonia is a hyperkinetic movement disorder whereby involuntary muscle contractions cause twisted and abnormal postures. Dystonia of the cervical spine and upper limb may present as sustained muscle contractions or task-specific activity when using the hand or upper limb. There is little understanding of the pathophysiology underlying dystonia and this presents a challenge for clinicians and researchers alike. Emerging evidence that the cerebellum is involved in the pathophysiology of dystonia using network models presents the intriguing concept that the cerebellum could provide a novel target for non-invasive brain stimulation. Non-invasive stimulation to increase cerebellar excitability improved aspects of handwriting and circle drawing in a small cohort of people with focal hand and cervical dystonia. Mechanisms underlying the improvement in function are unknown, but putative pathways may involve the red nucleus and/or the cervical propriospinal system. Furthermore, recent understanding that the cerebellum has both motor and cognitive functions suggests that non-invasive cerebellar stimulation may improve both motor and non-motor aspects of dystonia. We propose a combination of motor and non-motor tasks that challenge cerebellar function may be combined with cerebellar non-invasive brain stimulation in the treatment of focal dystonia. Better understanding of how the cerebellum contributes to dystonia may be gained by using network models such as our putative circuits involving red nucleus and/or the cervical propriospinal system. Finally, novel treatment interventions encompassing both motor and non-motor functions of the cerebellum may prove effective for neurological disorders that exhibit cerebellar dysfunction.

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“…Although this role is not yet fully understood (Sadnicka et al, 2012), an elegant paper by Hubsch et al (2013) in Brain showed that in writer's cramp, a form of task-specific primary hand dystonia, the cerebellum has lost its ability to modulate sensorimotor plasticity of the motor cortex. As part of their study, they used the paired-associative stimulation protocol, a transcranial magnetic stimulation-based intervention to induce motor cortex plasticity, combined with either intermittent or continuous theta burst stimulation (TBS) over the cerebellum.…”

mentioning

confidence: 99%

A single session of cerebellar theta burst stimulation does not alter writing performance in writer’s cramp

Linssen¹,

Gaalen²,

Munneke³

et al. 2014

Brain

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Sir, There has been a growing interest in the role of the cerebellum in primary dystonia. Although this role is not yet fully understood (Sadnicka et al., 2012), an elegant paper by Hubsch et al. (2013) in Brain showed that in writer's cramp, a form of task-specific primary hand dystonia, the cerebellum has lost its ability to modulate sensorimotor plasticity of the motor cortex. As part of their study, they used the paired-associative stimulation protocol, a transcranial magnetic stimulation-based intervention to induce motor cortex plasticity, combined with either intermittent or continuous theta burst stimulation (TBS) over the cerebellum. Neither form of cerebellar TBS induced any change of the paired-associative stimulation effect in patients with writer's cramp as opposed to control subjects. The authors hypothesized that this suggests that the cerebellum has lost its effect on some relevant sensorimotor integrative functions and/or that the continuously hyperactive state of the cerebellum renders it refractory to TBS.We wish to build on this by sharing our results of a cerebellar, single session TBS intervention study in patients with writer's cramp, specifically designed to address the question whether such an intervention has any effect on dystonia severity and writing performance. The reason for this was that, based on the growing body of evidence of this role of the cerebellum in dystonia, many have already speculated on the cerebellum being a putative target for neuromodulatory interventions in dystonia. More specifically, the quite robust finding of cerebellar hyperactivity in dystonia led to the idea that applying transcranial cerebellar inhibition might have therapeutic effects.Ten patients (nine right-handed and one left-handed) with writer's cramp were included. All but one received both continuous TBS and sham TBS with an interval of 3 months, to exclude any carryover effect. The subjects were randomized between the two groups: first continuous TBS or first sham TBS. One patient only received the real stimulation. Two healthy individuals were asked to perform the same tasks as the writer's cramp group, mainly to see whether our kinematic writing analyses indeed detected the expected baseline abnormalities in the patients with writer's cramp.Transcranial magnetic stimulation was delivered through a C-B60 figure-8 coil (MagVenture) connected to a Magpro-X-100 stimulator. First, the active motor threshold was determined over the hotspot, the optimal site of the magnetic coil for eliciting motor evoked potentials, in the right first dorsal interosseus muscle (or left in the one patient with left-sided writer's cramp). Active motor threshold was defined as the minimum stimulator intensity required to obtain motor evoked potentials with an amplitude of at least 200 mV in at least 5 of 10 trails while the subject maintained a low-level tonic contraction (10% of maximal voluntary contraction) in right first dorsal interosseus. We used the continuous TBS protocol, which has been proven to effectively su...

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Defective cerebellar control of cortical plasticity in writer’s cramp

Cited by 88 publications

References 73 publications

Dissecting the Links Between Cerebellum and Dystonia

Dissecting the Links Between Cerebellum and Dystonia

Non-invasive cerebellar stimulation in dystonia

A single session of cerebellar theta burst stimulation does not alter writing performance in writer’s cramp

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