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Not Yet RecruitingNCT07521228

Acute Effects of Smartphone-Delivered Local Vibration on Hand Sensorimotor Performance

Acute Effects of Smartphone-Delivered Local Vibration at Three Frequencies on Hand Grip Strength, Two-Point Discrimination, Pressure Pain Threshold, and Reaction Time in Healthy Young Adults: A Randomized Crossover Study

Summary

This study investigates the acute effects of smartphone-delivered local vibration on hand sensorimotor performance in healthy young adults. Using a custom-developed iPhone application, three vibration frequencies (80 Hz, 150 Hz, and 220 Hz) are applied to the dominant hand in a randomized crossover design with a minimum 48-hour washout between sessions. The primary aim is to evaluate frequency-dependent dose-response effects on hand grip strength. Secondary aims include assessment of two-point discrimination (tactile spatial acuity), pressure pain threshold, and hand reaction time before and immediately after each vibration condition. The study seeks to generate evidence on optimal application parameters for smartphone vibration as an accessible and portable local vibration source in clinical and educational settings.

Detailed description

BACKGROUND: Local vibration (LV) has been investigated in physiotherapy and rehabilitation for modulating muscle activation, performance, and pain perception. Neurophysiological effects are mediated through tonic vibration reflex and enhanced sensory afferent input. LV offers a more targeted and portable approach compared to whole-body vibration (WBV). Short-duration LV applications have been shown to produce acute changes in muscle strength, tactile perception, reaction time, and pain threshold. The hand region, with its high mechanoreceptor density and extensive cortical representation, provides a sensitive model for mechanical stimulation. Smartphones, through programmable haptic motors, can generate controlled vibration outputs and have been used in rehabilitation for vibrotactile feedback applications. However, studies combining assessment of grip strength, two-point discrimination, pressure pain threshold, and reaction time following mobile phone vibration on the hand are limited. The frequency range (80-220 Hz) was selected to cover the optimal sensitivity band of Pacinian corpuscles (approximately 100-300 Hz), with 80 Hz being commonly used in LV literature. Three frequency levels (80, 150, 220 Hz) systematically represent the lower, middle, and upper portions of the range to explore a potential dose-response relationship. STUDY DESIGN: Randomized crossover design with three conditions (80 Hz, 150 Hz, 220 Hz). Each participant completes all three frequency conditions in separate sessions on different days. A minimum 48-hour washout period is maintained between sessions, and sessions are conducted at the same time of day. Application order is determined by counterbalanced randomization across the 6 possible sequences (3! = 6). Measurement order (grip strength, PPT, 2PD, reaction time) is randomized for each participant at the first session and maintained consistently across all pre-tests, post-tests, and all three sessions. All measurements are performed by the same assessor. Post-vibration measurements are completed within 3-5 minutes. Total measurement time (excluding vibration) does not exceed 10 minutes per session. VIBRATION PROTOCOL: Vibration is delivered via a custom iPhone application using the device haptic motor. Each session applies one frequency condition. Stimulation consists of 5 repetitions of 45 seconds vibration + 15 seconds rest (total approximately 5 minutes). Participant positioning: seated with back support, shoulder neutral, elbow approximately 90 degrees flexion, forearm supported on table in neutral position, wrist relaxed (0-20 degrees extension). The phone is held naturally in the dominant hand palm. Participants are instructed not to consciously squeeze or contract during application. Phone orientation and contact surface are kept consistent across repetitions and sessions. OUTCOME MEASUREMENTS: 1. Hand Grip Strength: Jamar hydraulic dynamometer with ASHT-recommended positioning. Three trials with 15-30 seconds rest between trials; mean of three trials used. Additional measurement taken if variation exceeds 10%. 2. Pressure Pain Threshold (PPT): Pressure algometer on dominant hand thenar eminence, probe approximately 1 cm2, application rate approximately 1 kg/s. Three trials with 30 seconds rest; mean value used. 3. Two-Point Discrimination (2PD): Baseline Two-Point Discriminator on dominant hand third finger distal pulp, eyes closed. Smallest distance correctly identified in at least 2 of 3 trials recorded as threshold (mm). 4. Nelson Hand Reaction Time Test: Visual stimulus-motor response measured via ruler drop method. Three practice trials followed by 5 valid trials; best and worst values excluded, mean of remaining three used. Reaction time calculated using free-fall formula. SAMPLE SIZE: Based on Amiez et al. (2024), with conservatively reduced effect size (partial eta-squared approximately 0.10, Cohen f = 0.33), one-way repeated measures ANOVA power analysis (3 conditions, alpha = 0.05, power = 0.80, rho = 0.50) yielded a minimum of 18 completers. Target enrollment is 20 to account for potential dropouts. STATISTICAL ANALYSIS: Descriptive statistics. Primary analysis: two-way repeated measures ANOVA (3 frequencies x 2 time points) for each outcome variable. Post-hoc pairwise comparisons with Bonferroni correction. Effect sizes (partial eta-squared). Carry-over effects assessed. Non-parametric alternatives if assumptions are violated. Significance level: p less than 0.05.

Conditions

• Healthy Volunteers
• Vibration; Adverse Effect

Interventions

Timeline

Start date

2026-04-01

Primary completion

2026-07-01

Completion

2026-11-01

First posted

2026-04-09

Last updated

2026-04-09

Locations

1 site across 1 country: Turkey (Türkiye)

Source: ClinicalTrials.gov record NCT07521228. Inclusion in this directory is not an endorsement.