TY - JOUR
T1 - An attempt to measure the diametric relationship between slow and quick phases of nystagmus
AU - Kanazawa, Yuji
AU - Funabiki, Kazuo
AU - Taura, Akiko
AU - Imai, Takumi
AU - Torii, Hiroko
AU - Ogita, Hideaki
AU - Okano, Takayuki
AU - Ito, Juichi
AU - Omori, Koichi
N1 - Publisher Copyright:
© 2018 Acta Oto-Laryngologica AB (Ltd).
PY - 2018/7/3
Y1 - 2018/7/3
N2 - Objective: To investigate whether our original method can precisely evaluate the angle between slow and quick phases of nystagmus (vector angle) and to determine whether vector angle analysis is helpful in differentiating between horizontal nystagmus and mixed nystagmus with horizontal and vertical components. Methods: We included 20 healthy volunteers, 17 patients with horizontal nystagmus, and 15 patients with mixed nystagmus. Caloric nystagmus was recorded in healthy volunteers; positional nystagmus was recorded in each patient. We extracted the velocity of nystagmus from eye movement of each subject and analysed the vector angle. Results: In caloric nystagmus, the vector angle approached 180 degrees as slow-phase velocity increased, suggesting that our vector angle measurement is more reliable with faster nystagmus. Importantly, in horizontal nystagmus from peripheral vestibular disease, the vector angle similarly approached 180 degrees as slow-phase velocity increased; in contrast, the vector angle in cases of mixed nystagmus from vertebrobasilar insufficiency or spinocerebellar degeneration significantly differed from the angle of caloric nystagmus. Conclusions: Vector angle analysis using our original algorithm can precisely evaluate the diametric relationship in vestibular nystagmus; it may be helpful in diagnosis of non-peripheral vestibular disorders.
AB - Objective: To investigate whether our original method can precisely evaluate the angle between slow and quick phases of nystagmus (vector angle) and to determine whether vector angle analysis is helpful in differentiating between horizontal nystagmus and mixed nystagmus with horizontal and vertical components. Methods: We included 20 healthy volunteers, 17 patients with horizontal nystagmus, and 15 patients with mixed nystagmus. Caloric nystagmus was recorded in healthy volunteers; positional nystagmus was recorded in each patient. We extracted the velocity of nystagmus from eye movement of each subject and analysed the vector angle. Results: In caloric nystagmus, the vector angle approached 180 degrees as slow-phase velocity increased, suggesting that our vector angle measurement is more reliable with faster nystagmus. Importantly, in horizontal nystagmus from peripheral vestibular disease, the vector angle similarly approached 180 degrees as slow-phase velocity increased; in contrast, the vector angle in cases of mixed nystagmus from vertebrobasilar insufficiency or spinocerebellar degeneration significantly differed from the angle of caloric nystagmus. Conclusions: Vector angle analysis using our original algorithm can precisely evaluate the diametric relationship in vestibular nystagmus; it may be helpful in diagnosis of non-peripheral vestibular disorders.
KW - Nystagmus
KW - diametric relationship
KW - differential diagnosis
KW - horizontal
KW - quick phase
KW - slow phase
KW - spinocerebellar degeneration
KW - vertebrobasilar insufficiency
KW - vertical
KW - vestibular disorder
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U2 - 10.1080/00016489.2018.1425903
DO - 10.1080/00016489.2018.1425903
M3 - Article
C2 - 29355067
AN - SCOPUS:85041098033
SN - 0001-6489
VL - 138
SP - 633
EP - 638
JO - Acta Oto-Laryngologica
JF - Acta Oto-Laryngologica
IS - 7
ER -