OBJECTIVE: Previous studies in phobic postural vertigo patients showed characteristic frequency changes in body sway fluctuations, raising the question whether similar spectral changes can be also observed in the recently defined syndrome of persistent postural-perceptual dizziness (PPPD). STUDY DESIGN: Cross-sectional prospective study. SETTING: Tertiary referral center. SUBJECTS: Sixty-one PPPD patients and 41 healthy controls. INTERVENTIONS: Static balance was assessed while standing on firm surface with eyes open or closed (conditions 1 and 2) and while standing on foam with eyes open or closed (conditions 3 and 4). Postural sway was analyzed by means of time (sway area and standard deviation) and frequency domain metrics. The latter was based on comparisons of the percentage of energy in each of three frequency bands: low (0-0.5 Hz), middle (0.05-2 Hz), and high frequency (2-20 Hz). MAIN OUTCOME MEASURE: Stabilometric time and frequency domain parameters. RESULTS: Time domain metrics deteriorated significantly from conditions 1 through condition 4 in patients and controls. Spectral changes, however, were more abundant in PPPD subjects than in controls. Patients showed increased low frequency, but decreased high frequency spectral power in condition 3 as compared to condition 2. Dizziness Handicap Inventory score was positively correlated with middle frequency and negatively correlated with low frequency fluctuations. CONCLUSIONS: We conclude that PPPD patients exhibit a time domain sway pattern in different conditions which is grossly similar to that of controls. However, sensory feedback conditions with equal sway area show unique differences in their spectral content in PPPD patients. Moreover, perceived severity of dizziness is associated with greater body oscillations in the middle frequency band.
OBJECTIVE: Previous studies in phobic postural vertigopatients showed characteristic frequency changes in body sway fluctuations, raising the question whether similar spectral changes can be also observed in the recently defined syndrome of persistent postural-perceptual dizziness (PPPD). STUDY DESIGN: Cross-sectional prospective study. SETTING: Tertiary referral center. SUBJECTS: Sixty-one PPPDpatients and 41 healthy controls. INTERVENTIONS: Static balance was assessed while standing on firm surface with eyes open or closed (conditions 1 and 2) and while standing on foam with eyes open or closed (conditions 3 and 4). Postural sway was analyzed by means of time (sway area and standard deviation) and frequency domain metrics. The latter was based on comparisons of the percentage of energy in each of three frequency bands: low (0-0.5 Hz), middle (0.05-2 Hz), and high frequency (2-20 Hz). MAIN OUTCOME MEASURE: Stabilometric time and frequency domain parameters. RESULTS: Time domain metrics deteriorated significantly from conditions 1 through condition 4 in patients and controls. Spectral changes, however, were more abundant in PPPD subjects than in controls. Patients showed increased low frequency, but decreased high frequency spectral power in condition 3 as compared to condition 2. Dizziness Handicap Inventory score was positively correlated with middle frequency and negatively correlated with low frequency fluctuations. CONCLUSIONS: We conclude that PPPDpatients exhibit a time domain sway pattern in different conditions which is grossly similar to that of controls. However, sensory feedback conditions with equal sway area show unique differences in their spectral content in PPPDpatients. Moreover, perceived severity of dizziness is associated with greater body oscillations in the middle frequency band.