Nicoletta Manzo scite author profile

The somatosensory temporal discrimination threshold (STDT) is the shortest interval at which an individual recognizes paired stimuli as separate in time. We investigated whether and how voluntary movement modulates STDT in healthy subjects. In 17 healthy participants, we tested STDT during voluntary index‐finger abductions at several time‐points after movement onset and during motor preparation. We then tested whether voluntary movement‐induced STDT changes were specific for the body segment moved, depended on movement kinematics, on the type of movement or on the intensity for delivering paired electrical stimuli for STDT. To understand the mechanisms underlying STDT modulation, we also tested STDT during motor imagery and after delivering repetitive transcranial magnetic stimulation to elicit excitability changes in the primary somatosensory cortex (S1). When tested on the moving hand at movement onset and up to 200 msec thereafter, STDT values increased from baseline, but during motor preparation remained unchanged. STDT values changed significantly during fast and slow index‐finger movements and also, though less, during passive index‐finger abductions, whereas during tonic index‐finger abductions they remained unchanged. STDT also remained unchanged when tested in body parts other than those engaged in movement and during imagined movement. Nor did testing STDT at increased intensity influence movement‐induced STDT changes. The cTBS‐induced S1 cortical changes left movement‐induced STDT changes unaffected. Our findings suggest that movement execution in healthy subjects may alter STDT processing.

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Abnormal sensory gating in patients with different types of focal dystonias

Conte

Belvisi

Bartolo

et al. 2018

Movement Disorders

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Background Movement execution in healthy individuals increases the somatosensory temporal discrimination threshold. These changes are a result of mechanisms of sensory gating at the subcortical level. Although the somatosensory temporal discrimination threshold is abnormally increased in patients with focal dystonias, the effect of movement execution on somatosensory temporal discrimination in dystonic patients is unknown. Objectives The objective of this study was to determine whether somatosensory temporal discrimination threshold modulation induced by voluntary movement is normal in different forms of focal dystonia. Methods We enrolled 71 dystonic patients (24 with blepharospasm, 31 with cervical dystonia, and 16 with focal hand dystonia) and 39 age‐matched healthy participants. Paired stimuli for the somatosensory temporal discrimination threshold were triggered by movement execution at movement onset and at various time intervals thereafter. We analyzed the kinematic features of the motor task to ascertain whether tactile input induces changes in movement parameters. Results Movement execution led to greater and longer lasting increases in somatosensory temporal discrimination threshold values, both upon movement onset and at various time intervals thereafter, in patients with cervical dystonia and focal hand dystonia than in those with blepharospasm or the healthy participants. Somatosensory temporal discrimination testing did not induce any changes in the mean velocity of index finger movements in either patients or healthy participants. Conclusions Somatosensory temporal discrimination threshold changes induced by movement execution are abnormal in focal dystonias. This abnormality is related to the type of dystonia. Abnormal gating of sensory information is likely involved in movement‐induced triggering or worsening of different forms focal dystonia. © 2018 International Parkinson and Movement Disorder Society

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Somatosensory temporal discrimination in essential tremor and isolated head and voice tremors

et al. 2015

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The aim of this study was to investigate the somatosensory temporal discrimination threshold in patients with essential tremor (sporadic and familial) and to evaluate whether somatosensory temporal discrimination threshold values differ depending on the body parts involved by tremor. We also investigated the somatosensory temporal discrimination in patients with isolated voice tremor. We enrolled 61 patients with tremor: 48 patients with essential tremor (31 patients with upper limb tremor alone, nine patients with head tremor alone, and eight patients with upper limb plus head tremor; 22 patients with familial vs. 26 sporadic essential tremor), 13 patients with isolated voice tremor, and 45 healthy subjects. Somatosensory temporal discrimination threshold values were normal in patients with familial essential tremor, whereas they were higher in patients with sporadic essential tremor. When we classified patients according to tremor distribution, somatosensory temporal discrimination threshold values were normal in patients with upper limb tremor and abnormal only in patients with isolated head tremor. Temporal discrimination threshold values were also abnormal in patients with isolated voice tremor. Somatosensory temporal discrimination processing is normal in patients with familial as well as in patients with sporadic essential tremor involving the upper limbs. By contrast, somatosensory temporal discrimination is altered in patients with isolated head tremor and voice tremor. This study with somatosensory temporal discrimination suggests that isolated head and voice tremors might possibly be considered as separate clinical entities from essential tremor.

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Somatosensory temporal discrimination threshold in Parkinson’s disease parallels disease severity and duration

Conte

Leodori

Ferrazzano

et al. 2016

Clinical Neurophysiology

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Somatosensory temporal discrimination in Parkinson’s disease, dystonia and essential tremor: Pathophysiological and clinical implications

Conte

Ferrazzano

Belvisi

et al. 2018

Clinical Neurophysiology

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Nicoletta Manzo

Understanding the link between somatosensory temporal discrimination and movement execution in healthy subjects

Abnormal sensory gating in patients with different types of focal dystonias

Somatosensory temporal discrimination in essential tremor and isolated head and voice tremors

Somatosensory temporal discrimination threshold in Parkinson’s disease parallels disease severity and duration

Somatosensory temporal discrimination in Parkinson’s disease, dystonia and essential tremor: Pathophysiological and clinical implications

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