Kinematic characteristics of infant leg movements produced across a full day

Abstract

INTRODUCTION Our purpose is to directly measure variability in infant leg movement behavior in the natural environment across a full day. We recently we created an algorithm to identify an infant-produced leg movement from full-day wearable sensor data from infants with typical development between 1 and 12 months of age. Here we report the kinematic characteristics of their leg movements produced across a full day. METHODS Wearable sensor data were collected from 12 infants with typical development for 8-13 hours per day. A wearable sensor was attached to each ankle, and recorded tri-axial accelerometer and gyroscope measurements at 20Hz. We determined the duration, average acceleration, and peak acceleration of each leg movement, and classified its type (unilateral, bilateral synchronous, bilateral asynchronous). RESULTS There was a range of leg movement duration (0.23-0.33 s) and acceleration (average 1.59 to 3.88 m/s(2), peak 3.10 to 8.83 m/s(2)) values produced by infants across visits. Infants predominantly produced unilateral and asynchronous bilateral movements. Our results collected across a full day are generally comparable to kinematic measures obtained by other measurement tools across short periods of time. CONCLUSION Our results describe variable full-day kinematics of leg movements across infancy in a natural environment. These data create a reference standard for the future comparison of infants at risk for developmental delay.