TY - JOUR
T1 - Three-dimensional eye movement analysis during caloric stimulation used to test vertical semicircular canal function
AU - Fetter, M
AU - Aw, ST
AU - Haslwanter, Thomas
AU - Heimberger, J
AU - Dichgans, J
PY - 1998/3
Y1 - 1998/3
N2 - Hypothesis and Background: Quantitative caloric testing is considered to be one of the most sensitive parameters in the diagnosis of peripheral vestibular disorders. In the past, because of limitations in the methods, the evaluation of the caloric response was restricted to mainly lateral semicircular canal functions. In this study, the authors tried to extend caloric testing to the function of all semicircular canals by using three- dimensional (3-D) analysis techniques. Methods: The authors studied in seven normal subjects 3-D eye movement responses to air caloric of the right ear with the subjects positioned in standard caloric position (lateral semicircular canal vertical) or such that one of the three semicircular canals of the right side was horizontal. Movement of the left eye was measured in 3-D with a dual-magnetic search coil. During stimulation, 10 seconds of maximum response were selected and desaccaded to yield the slow- phase velocity profile. From this profile, the average magnitude and direction of the eye rotation axis (velocity vector) were calculated in head coordinates. Results: In all subjects, in standard caloric position, warm caloric produced eye velocity vectors that clustered closely along the direction expected from an excitation of the right lateral semicircular canal. When the subjects were positioned with one of the vertical semicircular canals horizontal, the orientation of the velocity vectors shifted toward a direction expected from the combined excitation of the later and the other vertical semicircular canal and vice versa. Conclusions: The 3- D eye movement recordings during caloric stimulation in different head positions allow the evaluation of the function of all semicircular canals.
AB - Hypothesis and Background: Quantitative caloric testing is considered to be one of the most sensitive parameters in the diagnosis of peripheral vestibular disorders. In the past, because of limitations in the methods, the evaluation of the caloric response was restricted to mainly lateral semicircular canal functions. In this study, the authors tried to extend caloric testing to the function of all semicircular canals by using three- dimensional (3-D) analysis techniques. Methods: The authors studied in seven normal subjects 3-D eye movement responses to air caloric of the right ear with the subjects positioned in standard caloric position (lateral semicircular canal vertical) or such that one of the three semicircular canals of the right side was horizontal. Movement of the left eye was measured in 3-D with a dual-magnetic search coil. During stimulation, 10 seconds of maximum response were selected and desaccaded to yield the slow- phase velocity profile. From this profile, the average magnitude and direction of the eye rotation axis (velocity vector) were calculated in head coordinates. Results: In all subjects, in standard caloric position, warm caloric produced eye velocity vectors that clustered closely along the direction expected from an excitation of the right lateral semicircular canal. When the subjects were positioned with one of the vertical semicircular canals horizontal, the orientation of the velocity vectors shifted toward a direction expected from the combined excitation of the later and the other vertical semicircular canal and vice versa. Conclusions: The 3- D eye movement recordings during caloric stimulation in different head positions allow the evaluation of the function of all semicircular canals.
KW - Caloric testing
KW - Human
KW - Magnetic search coil
KW - Semicircular canals
KW - Three-dimensional eye movements
UR - http://www.scopus.com/inward/record.url?scp=0031954140&partnerID=8YFLogxK
M3 - Article
SN - 0192-9763
VL - 19
SP - 180
EP - 187
JO - American Journal of Otology
JF - American Journal of Otology
IS - 2
ER -