The aim of this study is to examine the impact of motor and cognitive dual-task conditions on gait variability and gait symmetry in individuals with NSNP, compared with healthy controls. This cross-sectional trial will recruit participants aged 18-60, including 21 patients with NSNP and 21 age-matched healthy controls. Gait parameters will be assessed using a wearable sensor system (BTS G-Walk). Primary outcomes are gait variability and gait symmetry under single-task, motor dual-task, and cognitive dual-task walking conditions.
Each participant will complete three walking conditions: Single-task walking (walking at a self-selected pace), Motor dual-task walking (walking while carrying a tray with a glass of water), and Cognitive dual-task walking (walking while verbally reporting the number of letters in presented words). Gait parameters will be measured using the BTS G-Walk wearable sensor system, which records accelerometric data at the lumbar level (L4-L5) and calculates temporospatial parameters. Gait variability will be quantified using the coefficient of variation formula, and gait symmetry will be determined using symmetry index calculations. The primary outcomes are gait variability and gait symmetry across the three walking conditions. Secondary outcomes include pain characteristics, the Neck Disability Index (NDI), and the Bournemouth Neck Questionnaire (BNQ). The study hypothesizes that both motor and cognitive dual-task conditions will significantly affect gait variability and symmetry in individuals with NSNP, and these effects will differ from those observed in healthy controls. Findings are expected to improve understanding of motor control alterations in NSNP and provide guidance for individualized rehabilitation programs and therapeutic interventions.
Study Type
OBSERVATIONAL
Enrollment
42
Yuksek Ihtisas University
Ankara, Turkey (Türkiye)
RECRUITINGGait Variability
Gait variability calculated using the coefficient of variation.Gait variability is the ratio of the mean to the standard deviation and is calculated as a percentage. The score ranges from 0 to 100. A higher score indicates greater variability and decreased gait control. formula. Measurement Tool: BTS G-Walk wearable sensor system.
Time frame: up to 3 months
Gait Symmetry
Symmetry Index (SI) of spatiotemporal gait parameters between right and left limbs, calculated with the standard formula.Measurement Tool: BTS G-Walk wearable sensor system.Gait symmetry is calculated using a formula that compares the right and left extremities. "0" indicates complete symmetry, while "≥1" indicates asymmetry.
Time frame: up to 3 months
Pain Intensity
Neck pain intensity measured using the Visual Analog Scale (VAS, 0-10).
Time frame: Assessed at baseline.
Neck Disability Index (NDI)
Self-reported questionnaire assessing functional disability related to neck pain. Validated Turkish version will be used.he NDI is a 10-item questionnaire assessing neck pain-related disability in daily life (e.g., pain intensity, personal care, concentration, work, driving, sleeping).Each item is scored from 0 to 5 (0 = no disability, 5 = maximum disability). The total score ranges from 0 to 50.
Time frame: Assessed at baseline (only in NSNP group).
Bournemouth Neck Questionnaire (BNQ)
elf-reported questionnaire evaluating pain severity, emotional distress, fear of movement, and coping strategies. Validated Turkish version will be used.The BNQ is a 7-item questionnaire evaluating the impact of neck pain on pain severity, activities of daily living, emotional well-being, anxiety/depression, fear of movement (kinesiophobia), and coping strategies. Scoring: Each item is scored on a 0-10 numeric rating scale (0 = no problem, 10 = maximum problem). The total score ranges from 0 to 70. Interpretation: Higher scores indicate greater disability and psychosocial impact of neck pain.
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Time frame: Assessed at baseline (only in NSNP group).