BACKGROUND: Gait automaticity, which is impaired in patients with Parkinson's disease (PD), can be quantified by gait variability analysis. Among the 3 regions of the striatum (sensorimotor, executive, and limbic), the sensorimotor region may play a crucial role in motor automaticity in healthy individuals. However, neural correlates of impaired gait automaticity are poorly investigated in PD. OBJECTIVE: We aimed to examine the relationship between gait automaticity and striatal dopaminergic depletion in drug-naïve PD patients. METHODS: A total of 21 drug-naïve PD patients and 12 healthy controls were enrolled. Gait parameters were measured via wearable inertial sensors under fast-paced gait or cognitive dual-task conditions, and their respective coefficient of variation (CV) and dual-task cost were calculated. The extent of striatal dopaminergic depletion was evaluated by dopamine transporter (DAT) imaging with single-photon emission computed tomography using N-ω-fluoropropyl-2β-carbomethoxy-3β-(4-[123 I]iodophenyl)nortropane. Correlation between DAT uptake and gait variables was analyzed using the region-of-interest analysis for the 3 right or left striatal regions and voxel-based analysis. RESULTS: PD had higher mean bilateral CV and dual-task cost of stride length than healthy controls. The mean bilateral CV of stride length was negatively correlated with DAT uptake in the bilateral executive regions of the striatum. Voxel-based analysis revealed a negative correlation between the mean bilateral CV of stride length and DAT uptake in the anteromedial striatum. CONCLUSIONS: Dopaminergic denervation in the anteromedial striatum, a part of the executive region, is associated with impaired gait automaticity in drug-naïve PD patients. This region may compensate for the posterior sensorimotor striatum, maintaining gait automaticity.
BACKGROUND: Gait automaticity, which is impaired in patients with Parkinson's disease (PD), can be quantified by gait variability analysis. Among the 3 regions of the striatum (sensorimotor, executive, and limbic), the sensorimotor region may play a crucial role in motor automaticity in healthy individuals. However, neural correlates of impaired gait automaticity are poorly investigated in PD. OBJECTIVE: We aimed to examine the relationship between gait automaticity and striatal dopaminergic depletion in drug-naïve PDpatients. METHODS: A total of 21 drug-naïve PDpatients and 12 healthy controls were enrolled. Gait parameters were measured via wearable inertial sensors under fast-paced gait or cognitive dual-task conditions, and their respective coefficient of variation (CV) and dual-task cost were calculated. The extent of striatal dopaminergic depletion was evaluated by dopamine transporter (DAT) imaging with single-photon emission computed tomography using N-ω-fluoropropyl-2β-carbomethoxy-3β-(4-[123 I]iodophenyl)nortropane. Correlation between DAT uptake and gait variables was analyzed using the region-of-interest analysis for the 3 right or left striatal regions and voxel-based analysis. RESULTS:PD had higher mean bilateral CV and dual-task cost of stride length than healthy controls. The mean bilateral CV of stride length was negatively correlated with DAT uptake in the bilateral executive regions of the striatum. Voxel-based analysis revealed a negative correlation between the mean bilateral CV of stride length and DAT uptake in the anteromedial striatum. CONCLUSIONS: Dopaminergic denervation in the anteromedial striatum, a part of the executive region, is associated with impaired gait automaticity in drug-naïve PDpatients. This region may compensate for the posterior sensorimotor striatum, maintaining gait automaticity.