J Korean Bal Soc.
2004 Jun;3(1):156-160.
Analysis of Body Sway and Nystagmus with Galvanic Stimulation in Normal Subjects
- Affiliations
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- 1Department of Otorhinolaryngology-Head and Neck Surgery, College of medicine, Inha University, Incheon, Korea. stedman@inha.ac.kr
- 2Soree Ear Clinic, Seoul, Korea.
Abstract
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BACKGROUND AND OBJECTIVES : The purpose of this study is to evaluate the possibility of clinical application of 'vestibular function test by electrical stimulation' measuring nystagmus and body sway which are generated by electrical stimulation.
MATERIALS AND METHODS
: Twelve normal subjects for measurement of nystagmus and eight for body sway volunteered to participate as subjects of the experiment. We used continuous direct current from 1mA to 3mA, and its polarity could be switched through the surface electrode on the bilateral mastoid process. Videooculogram was used to measure the nystagmus. Lateral body sway was recorded by using Computerized Dynamic Posturography.
RESULTS
When stimulating the positive electrode over the right mastoid, left nystagmus and body sway toward right are observed. When stimulating the negative electrode over the right mastoid, right nystagmus and body sway toward left are observed. The nystagmus occurred 42% at 1mA, 75% at 1.5mA, 92% at 2mA, and 100% at more than 2.5mA. The slow phase velocity of the nystagmus were increased from an average of 1.9 deg/sec at 1mA to an average of 3.6 deg/sec at 3mA. However, they were variable from minimum of 0.1 deg/sec to maximum of 4.8 deg/sec even stimulated with fixed amount of current. Also, the asymmetry of the nystagmus on the each direction was observed over 27% at the stimulation of 2.5mA and 3mA. The body sway was observed on the 7 subjects except one. Among them, body sway occurred on stimulation of 1mA in 5 subjects.
CONCLUSIONS
: Evaluation of nystagmus with galvanic stimulation revealed high right-left asymmetry in normal subjects and needed more electrical stimulation. Evaluation of body sway with galvanic stimulation is more feasible as a vestibular function test, because it has higher manifestation rate, less asymmetry, and it need less electrical amplitude which cause less discomfort to the subjects.