IMU-based segmental root mean square analysis of gait in individuals with cerebellar ataxia: a pilot cross-sectional study
Janice Mendonca, Abraham M. Joshua, Shashank Shetty, Krishnan Chemmangat, Shyam Krishnan, K. Vijaya Kumar, Zulkifli Misri, Rohit Pai, Shivananda Pai

TL;DR
This study uses sensors to analyze gait in people with cerebellar ataxia, finding differences in trunk and ankle movements compared to healthy individuals.
Contribution
The study introduces an IMU-based method to objectively assess gait in cerebellar ataxia, highlighting trunk and ankle movement differences.
Findings
Individuals with cerebellar ataxia showed decreased mediolateral linear acceleration at the left shoulder and increased vertical acceleration at the right ankle.
Total angular velocity was lower at multiple trunk and ankle segments in the cerebellar ataxia group.
IMU-based analysis revealed reduced RMS linear and angular velocities in individuals with cerebellar ataxia.
Abstract
Cerebellar ataxia (CA) affects limb movement, balance, and gait. Subjective rating scales like Scale for the Assessment and Rating of Ataxia (SARA) may underestimate gait severity. Inertial measurement units (IMUs) offer an objective gait analysis. Impaired trunk control might compromise gait performance and stability in individuals with ataxia. This study quantified trunk kinematics and gait parameters using Root Mean Square (RMS) values, comparing CA to healthy individuals. Ten CA cases and twenty healthy controls were recruited. Six IMU sensors positioned at anatomical landmarks recorded data via two ESP32 microcontrollers using Wi-Fi. Participants walked a 10-meter path at a self-selected pace. RMS mean linear and angular velocity and angular deviation were calculated. Individuals with CA showed decreased mediolateral linear acceleration at the left shoulder (p = 0.001) and an…
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Taxonomy
TopicsGenetic Neurodegenerative Diseases · Cerebral Palsy and Movement Disorders · Balance, Gait, and Falls Prevention
