Temporal disruption of upper-limb anticipatory postural adjustments in cerebellar ataxic patients

Bruttini, Carlo; Esposti, Roberto; Bolzoni, Francesco; Vanotti, Alfredo; Mariotti, Caterina; Cavallari, Paolo

doi:10.1007/s00221-014-4103-x

Cited by 36 publications

(36 citation statements)

References 44 publications

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“…On the contrary, children with SlowP suffer from a continuous cerebellar degeneration, which conflicts with the consolidation of compensatory functional strategies. This perspective not only fits with the gradual worsening of postural deficits we documented here when passing from healthy children to patients with NonP and to patients with SlowP but would also explain why patients with adult-onset cerebellar lesions show even more pronounced postural deficits [46]. Indeed, neural plasticity gradually but consistently decreases over the lifespan [50].…”

Section: Disease Progression and Postural Behaviorsupporting

confidence: 77%

“…This aspect agreed with the general view that assigns to the cerebellum the role of a "timing-machine" [41][42][43][44][45] and leaves the pattern selection to other brain structures, like the basal ganglia. Such a perspective has been confirmed also for what regards APAs in adults [46,47].…”

Section: Discussionmentioning

confidence: 52%

“…These pieces of evidence allow arguing that, reciprocally, intact basal ganglia may compensate for cerebellar deficits. This hypothesis is still to be demonstrated, but should it be proved, it would provide a straightforward explanation for the graded postural impairments we found in children affected by PCA, as well as for the worse impairments reported in adult patients with cerebellar ataxia [46]. Evidence in this regard might come from functional MRI and diffusion tensor imaging techniques.…”

Section: Putative Compensatory Networkmentioning

confidence: 80%

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Postural Control in Children with Cerebellar Ataxia

et al. 2020

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Controlling posture, i.e., governing the ensemble of involuntary muscular activities that manage body equilibrium, represents a demanding function in which the cerebellum plays a key role. Postural activities are particularly important during gait initiation when passing from quiet standing to locomotion. Indeed, several studies used such motor task for evaluating pathological conditions, including cerebellar disorders. The linkage between cerebellum maturation and the development of postural control has received less attention. Therefore, we evaluated postural control during quiet standing and gait initiation in children affected by a slow progressive generalized cerebellar atrophy (SlowP) or non-progressive vermian hypoplasia (Joubert syndrome, NonP), compared to that of healthy children (H). Despite the similar clinical evaluation of motor impairments in NonP and SlowP, only SlowP showed a less stable quiet standing and a shorter and slower first step than H. Moreover, a descriptive analysis of lower limb and back muscle activities suggested a more severe timing disruption in SlowP. Such differences might stem from the extent of cerebellar damage. However, literature reports that during childhood, neural plasticity of intact brain areas could compensate for cerebellar agenesis. We thus proposed that the difference might stem from disease progression, which contrasts the consolidation of compensatory strategies.

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Section: Disease Progression and Postural Behaviorsupporting

confidence: 77%

Section: Discussionmentioning

confidence: 52%

Section: Putative Compensatory Networkmentioning

confidence: 80%

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Postural Control in Children with Cerebellar Ataxia

et al. 2020

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“…However, little is known about the precise role of each of these structures in governing APAs. In this regard it has been shown that the cerebellum is involved in APAs timing (Diedrichsen et al, 2005;Bruttini et al, 2015). Moreover, both excitatory and inhibitory APAs are already shaped in the primary motor cortex, M1 (Petersen et al, 2009;Caronni & Cavallari, 2009b).…”

Section: Introductionmentioning

confidence: 98%

Transcranial direct current stimulation of SMA modulates anticipatory postural adjustments without affecting the primary movement

Bolzoni¹,

Bruttini²,

Esposti³

et al. 2015

Behavioural Brain Research

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“…Cerebellar lesions may selectively impair also the APAs subtending within-limb movements. For instance, in patients with cerebellar ataxia, simple brisk movements of the finger are associated with alterations of the APAs engaging proximal arm muscles (Bruttini et al, 2015; Cavallari et al, 2016). …”

Section: Postural Constraints From Neuroscience To Sports and Rehabilmentioning

confidence: 99%

APAs Constraints to Voluntary Movements: The Case for Limb Movements Coupling

Baldissera¹,

Tesio

2017

Front. Hum. Neurosci.

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When rhythmically moving two limbs in either the same or in opposite directions, one coupling mode meets constraints that are absent in the other mode. Isodirectional (ISO) flexion-extensions of the ipsilateral hand and foot can be easily performed with either the hand prone or supine. Instead, antidirectional (ANTI) movements require attentive effort and irresistibly tend to reverse into ISO when frequency increases. Experimental evidence indicates that the direction dependent easy-difficult dichotomy is caused by interference of the anticipatory postural commands associated to movements of one limb with voluntary commands to the other limb. Excitability of the resting wrist muscles is subliminally modulated at the period of ipsilateral foot oscillations, being phase-opposite in the antagonists and distributed so as to facilitate ISO and obstacle ANTI coupling of the hand (either prone or supine) with the foot. Modulation is driven by cortical signals dispatched to the forearm simultaneously with the voluntary commands moving the foot. If right foot oscillations are performed when standing on the left foot with the right hand touching a fixed support, the subliminal excitability modulation is replaced by overt contractions of forearm muscles conforming the APAs features. This suggests that during hand-foot ANTI coupling the voluntary commands to forearm muscles are contrasted by APAs commands of opposite sign linked to foot oscillations. Correlation between the easy-difficult dichotomy and the APAs distribution is also found in coupled adduction-abduction of the arms or hands in the transverse plane and in coupled flexion-extension of the arms in the parasagittal plane. In all these movements, APAs commands linked to the movement of each limb reach the motor pathways to the contralateral muscles homologous to the prime movers and can interfere during coupling with their voluntary activation. APAs are also generated in postural muscles of trunk and lower limbs and size-increase when the movement frequency is incremented. The related increase in postural effort apparently contributes in destabilizing the difficult coupling mode. Motor learning may rely upon more effective APAs. APAs and focal contraction are entangled within the same voluntary action. Yet, neural diseases may selectively impair APAs, which represent a potential target for rehabilitation.

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Temporal disruption of upper-limb anticipatory postural adjustments in cerebellar ataxic patients

Cited by 36 publications

References 44 publications

Postural Control in Children with Cerebellar Ataxia

Postural Control in Children with Cerebellar Ataxia

Transcranial direct current stimulation of SMA modulates anticipatory postural adjustments without affecting the primary movement

APAs Constraints to Voluntary Movements: The Case for Limb Movements Coupling

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