Abstract
BackgroundThe aim of the current study was to examine multiple gait parameters obtained by wearable inertial sensors and their sensitivity to clinical status in early multiple sclerosis (MS). Further, a potential correlation between gait parameters and subjective fatigue was explored.MethodsAutomated gait analyses were carried out on 88 MS patients and 31 healthy participants. To measure gait parameters (i.e. walking speed, stride length, stride duration, duration of stance and swing phase, minimal toe-to-floor distance), wearable inertial sensors were utilized throughout a 6-min 25-ft walk. Additionally, self-reported subjective fatigue was assessed.ResultsMean gait parameters consistently revealed significant differences between healthy participants and MS patients from as early as an Expanded Disability Status Scale (EDSS) value of 1.5 onwards. Further, MS patients showed a significant linear trend in all parameters, reflecting continuously deteriorating gait performance throughout the test. This linear deterioration trend showed significant correlations with fatigue.ConclusionsWearable inertial sensors are highly sensitive in the detection of gait disturbances, even in early MS, where global scales such as the EDSS do not provide any clinical information about deviations in gait behavior. Moreover, these measures provide a linear trend parameter of gait deterioration that may serve as a surrogate marker of fatigue. In sum, these results suggest that classic timed walking tests in routine clinical practice should be replaced by readily and automatically applicable gait assessments, as provided by inertial sensors.
Highlights
The aim of the current study was to examine multiple gait parameters obtained by wearable inertial sensors and their sensitivity to clinical status in early multiple sclerosis (MS)
Socie et al examined temporal gait parameters during the 6-min walk in MS patients and healthy participants using an electronic walkway [9]. They found that MS patients had a significantly greater reduction in walking speed over the course of the 6-min walk, which coincided with a significantly greater increase in step time and double support
It may be assumed that an automatic assessment using wearable inertial sensors in combination with a model that is highly predictive of fatigue may yield a useful tool for standardized clinical assessments addressing symptoms of motor fatigue in MS
Summary
The aim of the current study was to examine multiple gait parameters obtained by wearable inertial sensors and their sensitivity to clinical status in early multiple sclerosis (MS). The most commonly used tests are the timed 25-foot walk, that measures the time it takes a patient to walk a 25 feet distance as fast as possible, or the 6-min walk, that measures the total distance a patient can walk in six minutes. During these walking tests, MS patients typically display a significantly lower mean walking speed compared to healthy participants [8,9,10,11]. Parameters that are usually derived from these walking tests
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