*Department of Mechanical Engineering, School of Engineering, Columbia University †Columbia University College of Physicians and Surgeons ‡New York Presbyterian-Columbia University Irving Medical Center §Department of Rehabilitative and Regenerative Medicine, Columbia University Medical Center ||Division of Otology, Neurotology, and Skull Base Surgery, Department of Otolaryngology-Head and Neck Surgery, Columbia University College of Physicians and Surgeons, New York, New York.
Otol Neurotol. 2017 Dec;38(10):1490-1499. doi: 10.1097/MAO.0000000000001586.
To evaluate the association between Dizziness Handicap Inventory-Screening version (DHI-S) score and spatiotemporal gait parameters using SoleSound, a newly developed, inexpensive, portable footwear-based gait analysis system.
Cross-sectional.
One hundred eighteen patients recruited from otology clinic.
INTERVENTION(S): Subjects completed the DHI-S survey and four uninterrupted walking laps wearing SoleSound instrumented footwear on a hard, flat surface for 100 m.
MAIN OUTCOME MEASURE(S): For each subject, mean and coefficient of variation (CV) of stride length, cadence, walking speed, foot-ground clearance, double-support time, swing period, and stance-to-swing were computed by considering 40 strides of steady-state walking within each lap. Linear regression models were employed to study correlations between these variables and DHI-S scores after adjusting for age, sex, and race/ethnicity.
Patients with higher DHI-S score took shorter steps and less steps per minute (-0.017 m and -1.1 steps/min per every four-point increase in DHI-S score, p < 0.05) than patients with a lower DHI-S score, with slower walking speed (-0.025 m/s per every four-point increase in DHI-S score, p < 0.01). Additionally, patients with higher DHI-S scores showed larger variability in all analyzed temporal parameters (+0.1% for CV of cadence, +0.5% for CV of double support period, +0.2% for CV of swing period, and +0.4% for CV of stance-to-swing, per every four-point increase in DHI-S score, p < 0.01).
SoleSound was effective in measuring a wide range of gait parameters. Patients' self-perception of vestibular handicap, as assessed with DHI-S, is associated with deterioration in measurable gait parameters independent of age.
使用全新开发的、经济实惠且便携的基于鞋底的步态分析系统 SoleSound,评估 Dizziness Handicap Inventory-Screening 版本(DHI-S)评分与时空步态参数之间的关联。
横断面研究。
从耳科学诊所招募的 118 名患者。
受试者穿着 SoleSound 仪器化鞋在坚硬、平坦的表面上完成 DHI-S 调查和四个不间断的行走圈,每个圈行走 100 米。
对于每个受试者,在每个圈的 40 个稳定步行步中,计算步长、步频、行走速度、足地间隙、双支撑时间、摆动周期和站立到摆动的平均值和变异系数(CV)。采用线性回归模型,在校正年龄、性别和种族/民族后,研究这些变量与 DHI-S 评分之间的相关性。
与 DHI-S 评分较低的患者相比,DHI-S 评分较高的患者步长更短,每分钟步数更少(每增加四个 DHI-S 评分点,步长减少 0.017 m,每分钟减少 1.1 步,p<0.05),行走速度更慢(每增加四个 DHI-S 评分点,行走速度降低 0.025 m/s,p<0.01)。此外,DHI-S 评分较高的患者在所有分析的时间参数中表现出更大的变异性(每增加四个 DHI-S 评分点,步频 CV 增加 0.1%,双支撑期 CV 增加 0.5%,摆动期 CV 增加 0.2%,站立到摆动 CV 增加 0.4%,p<0.01)。
SoleSound 能够有效测量广泛的步态参数。患者自我感知的前庭障碍,通过 DHI-S 评估,与年龄无关的可测量步态参数恶化相关。