People with Alzheimer's disease (AD) have characteristic problems navigating everyday environments. While patients may exhibit abnormal gait parameters, adaptive gait irregularities when navigating environments are little explored or understood. The aim of this study was to assess adaptive locomotor responses of AD subjects in a complex environment requiring spatial navigation. A controlled environment of three corridors was set up: straight (I), U-shaped (U) and dog-leg (S). Participants were asked to walk along corridors as part of a counterbalanced repeated-measures design. Three groups were studied: 11 people with posterior cortical atrophy (PCA), 10 with typical Alzheimer's disease (tAD) and 13 controls. Spatio-temporal gait parameters and position within the corridors were monitored with shoe-mounted inertial measurement units (IMUs). Hesitant steps were identified from statistical analysis of the distribution of step time data. Walking paths were generated from position data calculated by double integration of IMU acceleration. People with PCA and tAD had similar gait characteristics, having shorter steps and longer step times than controls. Hesitant steps tended to be clustered within certain regions of the walking paths. IMUs enabled identification of key gait characteristics in this clinical population (step time, length and step hesitancy) and environmental conditions (route complexity) modifying their expression.
Keywords: Alzheimer's disease; Alzheimer's disease navigating routes; IMU acceleration; abnormal gait parameters; adaptive locomotor responses; biomedical measurement; corridors; counterbalanced repeated-measures design; diseases; dog-leg; gait analysis; gait characteristics; gait irregularities; patient monitoring; position data; posterior cortical atrophy; route complexity; shoe-mounted inertial measurement units; spatial navigation; statistical analysi; statistical analysis; step hesitancy; step time data; walking paths.