Document Detail


Sequence learning in human ocular smooth pursuit.
MedLine Citation:
PMID:  12021814     Owner:  NLM     Status:  MEDLINE    
Abstract/OtherAbstract:
It has been established that repeated presentation of a transient target motion stimulus such as a constant-velocity ramp leads to the build up of steady state (SS), anticipatory smooth pursuit eye movements after two or three presentations. Each SS response is then composed of the anticipatory component of nonvisual origin, a visual component associated with the stimulus presentation and another nonvisual component that represents the decay of the response after extinction of the stimulus. Here we investigated the interactions that occur when each motion stimulus was itself a sequence containing more than one ramp component. Ramp components had a velocity of 15 degrees /s or 30 degrees /s to left or right and were separated by gaps of 200 ms duration. In an initial experiment, responses to 2-ramp stimuli were examined and compared with responses to the single-ramp stimuli from which they were constituted. We present evidence that the anticipatory, nonvisual components of the double-ramp response result from the linear summation of the nonvisual components of the responses to the constituent single-ramp components. In a 2nd experiment, we examined responses to a wide variety of 4-ramp sequences and again found evidence that, in the SS, the responses were formed from the linear summation of the constituent single-ramp components. Regression analysis performed on the velocity at onset of each ramp component indicated that this nonvisual part of the response was predictive of the upcoming ramp component. To confirm this, unexpected changes were introduced into single ramp components of the 4-ramp sequence after at least five prior presentations of the sequence had allowed a SS response to be established. Subjects continued to initiate a response to the modified component that was appropriate in velocity and direction for the corresponding part of the previous sequence and inappropriate for the newly modified stimulus. This preprogrammed response persisted unmodified for more than 170 ms after onset of the modified ramp component. In contrast, in the second presentation of the new sequence, the anticipatory component of the response was highly correlated with the SS response of the new sequence, but not with that of the prior sequence, showing that the preprogrammed response had been modified very rapidly. Similar behaviour was observed whichever of the 4-ramp components was modified, indicating that the velocity and direction of the anticipatory response to each component had been preprogrammed. The results suggest that velocity information related to at least four elements of a sequence can be temporarily stored and subsequently released with appropriate temporal order to form an anticipatory response throughout the whole sequence.
Authors:
G R Barnes; A M Schmid
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Publication Detail:
Type:  Journal Article; Research Support, Non-U.S. Gov't     Date:  2002-04-16
Journal Detail:
Title:  Experimental brain research     Volume:  144     ISSN:  0014-4819     ISO Abbreviation:  Exp Brain Res     Publication Date:  2002 Jun 
Date Detail:
Created Date:  2002-05-21     Completed Date:  2002-09-04     Revised Date:  2013-12-13    
Medline Journal Info:
Nlm Unique ID:  0043312     Medline TA:  Exp Brain Res     Country:  Germany    
Other Details:
Languages:  eng     Pagination:  322-35     Citation Subset:  IM    
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MeSH Terms
Descriptor/Qualifier:
Brain / physiology
Cues
Discrimination Learning / physiology*
Humans
Linear Models
Motion Perception / physiology
Neuropsychological Tests
Oculomotor Muscles / innervation,  physiology*
Photic Stimulation
Psychomotor Performance / physiology
Pursuit, Smooth / physiology*
Reaction Time / physiology

From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine


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