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Shoe-Type Wearable Sensors Measure Gait Parameters in Vestibular Neuritis: A Preliminary Study
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Jun Sang Cha, Dong Young Kim, Hye Soon Lee, Nambeom Kim, Hwan Ho Lee
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Res Vestib Sci. 2019;18(2):43-49. Published online June 15, 2019
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DOI: https://doi.org/10.21790/rvs.2019.18.2.43
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Abstract
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- Objectives
Despite patients with dizziness were reported of revealing gait problems, there is still lack of objective quantitative measurement of gait patterns of peripheral vestibular disorders. To demonstrate gait variability in acute unilateral peripheral vestibular deficit, we evaluated the differences in gait patterns between vestibular neuritis (VN) patients and healthy subjects by the use of shoe-type inertial measurement unit (IMU) with sensors mounted.
Methods Between April 2017 and January 2019, 30 patients diagnosed with unilateral peripheral vestibular deficit presumed to be caused by VN were enrolled in this study. The shoe-type IMU was used to analysis subjects. We assessed gait speed, cadence, stride length, stance phase, normalized stride length, normalized step length, phase coordination index and gait asymmetry of data from shoe-type IMU sensors with the walking protocol. We tested 30 healthy volunteers as control group.
Results We identified spatiotemporal parameters of human gait. The gait speed of patients with VN was decreased to 3.82±0.8 compared to 4.93±1.08 in control group. In addition, there were differences in normalized stride length, normalized gait speed and related gait parameters, when comparing VN group and control group.
Conclusion Gait analysis by the use of shoe-type IMU could provide important information regarding vestibular pathophysiology in patients with VN. Gait performance tests can examine gait variability quantitatively. It will be taken into consideration as a vestibular function test for patients with vertigo.
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Citations
Citations to this article as recorded by
- Comparison of Gait Parameters during Forward Walking under Different Visual Conditions Using Inertial Motion Sensors
Eun Jin Son, Ji Hyung Kim, Hye Eun Noh, Inon Kim, Joo Ae Lim, Seung Hwan Han Yonsei Medical Journal.2022; 63(1): 82. CrossRef
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Shoe-type wearable sensors measure gait parameters in vestibular neuritis: A Preliminary Study
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Jun Sang Cha, Hwan ho Lee, Dong Young Kim, Hye Soon Lee, Nambeom Kim
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Received May 30, 2019 Accepted June 10, 2019 Published online June 10, 2019
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[Accepted]
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Abstract
- Objectives
Despite patients with dizziness were reported of revealing gait problems, there is still lack of objective quantitative measurement of gait patterns of peripheral vestibular disorders. To demonstrate gait variability in acute unilateral peripheral vestibular deficit, we evaluated the differences in gait patterns between vestibular neuritis (VN) patients and healthy subjects by the use of shoe-type inertial measurement unit (IMU) with sensors mounted.
Materials and methods
Between April 2017 and January 2019, 30 patients diagnosed with unilateral peripheral vestibular deficit presumed to be caused by VN were enrolled in this study. The shoe-type IMU was used to analysis subjects. We assessed gait speed, cadence, stride length, stance phase, normalized stride length, normalized step length, phase coordination index (PCI) and gait asymmetry (GA) of data from shoe-type IMU sensors with the walking protocol. We tested 30 healthy volunteers as control groups.
Results
We identified spatiotemporal parameters of human gait. The gait speed of patients with VN was decreased to 3.82±0.8 compared to 4.93±1.08 in control group. In addition, there were differences in normalized stride length, normalized gait speed and related gait parameters, when comparing VN group and control group.
Conclusions
Gait analysis by the use of shoe-type IMU could provide important information regarding vestibular pathophysiology in patients with VN. Gait performance tests can examine gait variability quantitatively. It will be taken into consideration as a vestibular function test for patients with vertigo.
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