Defective temporal processing of sensory stimuli in DYT1 mutation carriers: a new endophenotype of dystonia?

doi:10.1093/brain/awl283

Brain Advance Access published online on November 14, 2006
Brain, doi:10.1093/brain/awl283

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© The Author (2006). Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For Permissions, please email: journals.permissions@oxfordjournals.org
Received May 18, 2006
Revised August 12, 2006
Accepted September 1, 2006

Article

Defective temporal processing of sensory stimuli in DYT1 mutation carriers: a new endophenotype of dystonia?

Mirta Fiorio ¹ ^*, Mattia Gambarin ¹, Enza Maria Valente ², Paolo Liberini ³, Mario Loi ⁴, Giovanni Cossu ⁴, Giuseppe Moretto ⁵, Kailash P. Bhatia ⁶, Giovanni Defazio ⁷, Salvatore M. Aglioti ⁸, Antonio Fiaschi ¹, and Michele Tinazzi ⁹

¹ Department of Neurological and Vision Sciences, Section of Rehabilitative Neurology, University of Verona, Verona, Italy
² IRCCS CSS, Mendel Institute, IRCCS ‘Fondazione Santa Lucia’, Rome, Italy
³ Neurology Clinic, Brescia, Italy
⁴ Neuropsychiatry Department, G. Brotzu Hospital, Cagliari, Italy
⁵ Neurology Unit, Borgo Trento Hospital, Verona, Italy
⁶ Sobell Department of Motor Neuroscience and Movement Disorders and Institute of Neurology, London, UK
⁷ Institute of Neurology, University of Bari, Italy
⁸ Department of Psychology, University of Rome ‘La Sapienza’ and Neuropsychology Research Centre, IRCCS ‘Fondazione Santa Lucia’, Rome, Italy
⁹ Department of Neurological and Vision Sciences, Section of Rehabilitative Neurology, University of Verona, Verona, Italy; Neurology Unit, Borgo Trento Hospital, Verona, Italy

^* To whom correspondence should be addressed.
Mirta Fiorio, E-mail: mirta.fiorio{at}medicina.univr.it

Abstract

DYT1 primary torsion dystonia is an autosomal dominant movementdisorder due to a 3-bp GAG deletion in the TOR1A gene, whichbecomes manifest in only 30-40% of mutation carriers. Investigatingthe factors regulating this reduced penetrance might add newinsight into the mechanisms underlying the disease. The pathophysiologyof dystonia has been related to basal ganglia dysfunctions thatlead to the most prominent motor symptoms. However, subclinicalsensory deficits have also been reported, particularly in adult-onsetfocal dystonia. Sensory abnormalities in different forms ofsporadic dystonia have been revealed by using a psychophysicalmethod, namely, the temporal discrimination threshold (TDT),quantified as the shortest time interval at which the two stimuliare perceived as separate. Little or no information about thepresence of sensory abnormalities in DYT1 gene manifesting andnon-manifesting carriers is available. With the aim of disclosingpossible associations between sensory deficits and the DYT1mutation, we assessed TDTs of DYT1 manifesting patients (n =9); DYT1 non-manifesting relatives (n = 11); non-carrier relatives(n = 9); external control subjects (n = 11). Pairs of tactile,visual or visuo-tactile stimuli were delivered in blocked, counterbalancedorder. Intervals between stimuli increased from 0 to 400 ms(in 10 ms steps). On each trial, subjects had to report whetherstimuli occurred simultaneously or asynchronously. We measuredthe first out of three consecutive inter-stimulus intervalsat which subjects recognized the two stimuli as temporally separated(TDT) and the first of three consecutive intervals at whichthey also reported correctly which stimulus in the pair preceded(or followed) the other temporal order judgment (TOJ). Resultsshowed higher tactile and visuo-tactile TDTs and TOJs in DYT1carriers, both manifesting and non-manifesting, compared withnon-carrier relatives and with external control subjects (forall comparisons, P < 0.039). This finding indicates thatthe DYT1 mutation determines subclinical sensory alterations,which could be disclosed by a psychophysical task. Moreover,these results have the notable implication that sensory deficitsin dystonia are not a mere consequence of abnormal movements,but they may even occur before overt clinical manifestations,representing a subclinical phenotype in DYT1 mutation carriers.

Keywords: DYT1 gene; dystonia; sensory systems; temporal discrimination; endophenotype.

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