RT Journal Article
SR Electronic
T1 Tactile and proprioceptive dysfunction differentiates cervical dystonia with and without tremor
JF Neurology
JO Neurology
FD Lippincott Williams & Wilkins
SP e639
OP e650
DO 10.1212/WNL.0000000000008916
VO 94
IS 6
A1 Avanzino, Laura
A1 Cherif, Amel
A1 Crisafulli, Oscar
A1 Carbone, Federico
A1 Zenzeri, Jacopo
A1 Morasso, Pietro
A1 Abbruzzese, Giovanni
A1 Pelosin, Elisa
A1 Konczak, Jürgen
YR 2020
UL http://n.neurology.org/content/94/6/e639.abstract
AB Objective To determine whether different phenotypes of cervical dystonia (CD) express different types and levels of somatosensory impairment.Methods We assessed somatosensory function in patients with CD with and without tremor (n = 12 each) and in healthy age-matched controls (n = 22) by measuring tactile temporal discrimination thresholds of the nondystonic forearm and proprioceptive acuity in both the dystonic (head/neck) and nondystonic body segments (forearm/hand) using a joint position‐matching task. The head or the wrist was passively displaced along different axes to distinct joint positions by the experimenter or through a robotic exoskeleton. Participants actively reproduced the experienced joint position, and the absolute joint position‐matching error between the target and the reproduced positions served as a marker of proprioceptive acuity.Results Tactile temporal discrimination thresholds were significantly elevated in both CD subgroups compared to controls. Proprioceptive acuity of both the dystonic and nondystonic body segments was elevated in patients with CD and tremor with respect to both healthy controls and patients with CD without tremor. That is, tactile abnormalities were a shared dysfunction of both CD phenotypes, while proprioceptive dysfunction was observed in patients with CD with tremor.Conclusions Our findings suggest that the pathophysiology in CD can be characterized by 2 abnormal neural processes: a dysfunctional somatosensory gating mechanism involving the basal ganglia that triggers involuntary muscle spasms and abnormal processing of proprioceptive information within a defective corticocerebellar loop, likely affecting the feedback and feedforward control of head positioning. This dysfunction is expressed mainly in CD with tremor.Abd/Add=abduction/adduction; CD=cervical dystonia; CD-NT=cervical dystonia without tremor; CD-T=cervical dystonia with tremor; Flex/Ext=flexion/extension; HC=healthy controls; ISI=interstimulus interval; PAI=proprioceptive acuity index; PS=pronation/supination; RM-ANCOVA=repeated-measures analysis of covariance; RoM=range of motion; TDt=temporal discrimination thresholds