Sensory cueing improves gait in Parkinson's disease patients

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Journal of neurology Published May 23, 2026 Medically reviewed May 23, 2026 Study authors: Stonsaovapak Chernkhuan, Koonalinthip Nantawan, Koonalintip Prut, Pongmala Chatkaew, Terachinda Pim PubMed ↗ DOI ↗ By Dr. Ji-eun Park, MD · Brain, Mind & Pain

Key Takeaway

Visual and somatosensory cues most effectively improve walking speed and stride length in Parkinson's disease.

A systematic review and network meta-analysis of 1,118 individuals with Parkinson's disease evaluated external sensory cueing modalities. The study compared visual, auditory, somatosensory, and combined cues against a control condition to assess impacts on gait velocity and stride length.

Results indicated significant improvements in gait velocity with somatosensory (MD = 0.12 m/s) and visual cues (MD = 0.11 m/s) over control. Stride length also increased substantially, with visual cues showing the largest benefit (MD = 11.46 cm), followed by somatosensory (MD = 10.74 cm) and auditory cues (MD = 5.25 cm).

Ranking analyses placed somatosensory cues first for gait velocity (P-score = 0.71) and visual cues first for stride length (P-score = 0.83). These findings provide a data-driven hierarchy to guide evidence-based cueing selection in clinical practice.

Limitations include substantial global heterogeneity (I² = 64-90%), which may affect result generalizability. Safety data were not reported in the included studies.

Overall, sensory cueing offers a practical, non-pharmacological strategy to enhance mobility in Parkinson's disease, with specific modalities tailored to target gait parameters.

Study Details

Study typeMeta analysis

Sample sizen = 1,118

EvidenceLevel 1

PublishedMay 2026

PMID42174211

View Original Abstract ↓

OBJECTIVE: This systematic review and network meta-analysis compares the individual and synergistic efficacy of external sensory cueing modalities to establish a treatment hierarchy for optimizing spatiotemporal gait parameters in individuals with Parkinson's disease (PD). METHODS: A systematic literature search was conducted across Scopus, PubMed, Cochrane CENTRAL, and ClinicalTrials.gov. Randomized controlled trials (RCTs) evaluating visual, auditory, somatosensory, or combined cueing modalities in individuals with PD were eligible. Trials were required to compare at least two active cueing modalities or an active modality against a control condition and report gait velocity and/or stride length. RESULTS: Thirty-three RCTs (n = 1118 participants) were included. For gait velocity, somatosensory (MD = 0.12 m/s; 95% CI 0.04-0.19) and visual cues (MD = 0.11 m/s; 95% CI 0.02-0.20) demonstrated significant improvements over control. For stride length, visual (MD = 11.46 cm; 95% CI 6.40-16.51), somatosensory (MD = 10.74 cm; 95% CI 7.04-14.44), and auditory cues (MD = 5.25 cm; 95% CI 0.43-10.06) all yielded statistically significant benefits. P-score rankings identified somatosensory cues as the top-ranked modality for gait velocity (P-score = 0.71) and visual cues for stride length (P-score = 0.83). Global heterogeneity was substantial (I = 64-90%), and no significant publication bias was detected. CONCLUSIONS: External sensory cueing improves spatiotemporal gait parameters in PD, with somatosensory and visual cues emerging as the most effective modalities for enhancing gait velocity and stride length. Both modalities outperformed standalone auditory stimulation, providing a data-driven hierarchy to guide evidence-based cueing selection in clinical practice.