Molloy A1,2Kimmich O1,2Williams L1,2Quinlivan B3, Dabacan A3Fanning A3Butler JS3, O’Riordan S1,2, Reilly RB3Hutchinson M1,2

 

Tremor Other Hyperkinet Mov (N Y). 2014 Jul 18;4:249. doi: 10.7916/D8TD9VF6. eCollection 2014.

 

Author affiliations:
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1 Department of Neurology, St Vincent’s University Hospital, Dublin, Ireland.
2 School of Medicine and Medical Science, University College Dublin, Belfield, Dublin, Ireland.
3 Trinity Centre for Bioengineering, Trinity College Dublin, Dublin, Ireland.

 ABSTRACT:


 

BACKGROUND:

The visual temporal discrimination threshold (TDT) is the shortest time interval at which one can determine two stimuli to be asynchronous and meets criteria for a valid endophenotype in adult-onset idiopathic focal dystonia, a poorly penetrant disorder. Temporal discrimination is assessed in the hospital laboratory; in unaffected relatives of multiplex adult-onset dystonia patients distance from the hospital is a barrier to data acquisition. We devised a portable headset method for visual temporal discrimination determination and our aim was to validate this portable tool against the traditional laboratory-based method in a group of patients and in a large cohort of healthy controls.

METHODS:

Visual TDTs were examined in two groups 1) in 96 healthy control participants divided by age and gender, and 2) in 33 cervical dystonia patients, using two methods of data acquisition, the traditional table-top laboratory-based system, and the novel portable headset method. The order of assessment was randomized in the control group. The results obtained by each technique were compared.

RESULTS:

Visual temporal discrimination in healthy control participants demonstrated similar age and gender effects by the headset method as found by the table-top examination. There were no significant differences between visual TDTs obtained using the two methods, both for the control participants and for the cervical dystonia patients. Bland–Altman testing showed good concordance between the two methods in both patients and in controls.

CONCLUSION:

The portable headset device is a reliable and accurate method for visual temporal discrimination testing for use outside the laboratory, and will facilitate increased TDT data collection outside of the hospital setting. This is of particular importance in multiplex families where data collection in all available members of the pedigree is important for exome sequencing studies.

 


 

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Copyright: © 2014 Molloy et al. This is an open-access article distributed under the terms of the Creative Commons Attribution–Noncommercial–No Derivatives License, which permits the user to copy, distribute, and transmit the work provided that the original author(s) and source are credited; that no commercial use is made of the work; and that the work is not altered or transformed.