TY - JOUR
T1 - Short-term vestibule-ocular adaptation
T2 - Influence of context
AU - Kramer, P.
AU - Shelhamer, M.
AU - Zee, D. S.
N1 - Funding Information:
Supported by research grants no. 2 P60 DC 00979–06 and no. 1 K08 DC 00111-01 from the National Institute on Deafness and other Communication Disorders, NIH.
PY - 1998
Y1 - 1998
N2 - A number of mechanisms and strategies are used to help an individual compensate for loss of labyrinthine function. One important example is the ability to produce a preplanned motor response that anticipates the motion of the head and so compensates for it. Closely tied to this phenomenon is the gating, in or out, of a learned response on the basis of the context in which it must occur. This issue is particularly relevant to designing programs of physical therapy that optimize performance for natural behavior. Here we discuss a model of short-term vestibule-ocular adaptation-adjustment of vestibule-ocular phase (timing)-and how it can be used to study context- dependent vestibule-ocular learning. We will show how vestibulo-ocular phase can be adjusted by selectively altering the common velocity-to-position ocular motor neural integrator for one type of eye movement (vestibular) and not for another (saccades), or for one type of head movement (sinusoidal) and not for another (step). These results are another example of the remarkable flexibility of the vestibule-ocular adaptive mechanism and further show that the fundamental process of integration for eye movements can be modified according to the pattern of afferent information.
AB - A number of mechanisms and strategies are used to help an individual compensate for loss of labyrinthine function. One important example is the ability to produce a preplanned motor response that anticipates the motion of the head and so compensates for it. Closely tied to this phenomenon is the gating, in or out, of a learned response on the basis of the context in which it must occur. This issue is particularly relevant to designing programs of physical therapy that optimize performance for natural behavior. Here we discuss a model of short-term vestibule-ocular adaptation-adjustment of vestibule-ocular phase (timing)-and how it can be used to study context- dependent vestibule-ocular learning. We will show how vestibulo-ocular phase can be adjusted by selectively altering the common velocity-to-position ocular motor neural integrator for one type of eye movement (vestibular) and not for another (saccades), or for one type of head movement (sinusoidal) and not for another (step). These results are another example of the remarkable flexibility of the vestibule-ocular adaptive mechanism and further show that the fundamental process of integration for eye movements can be modified according to the pattern of afferent information.
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U2 - 10.1016/S0194-5998(98)70174-3
DO - 10.1016/S0194-5998(98)70174-3
M3 - Article
C2 - 9674516
AN - SCOPUS:0031594914
SN - 0194-5998
VL - 119
SP - 60
EP - 64
JO - Otolaryngology - Head and Neck Surgery
JF - Otolaryngology - Head and Neck Surgery
IS - 1
ER -