TY - JOUR
T1 - Alternate rhythmic vibratory stimulation of trunk muscles affects walking cadence and velocity in Parkinson's disease
AU - De Nunzio, Alessandro M.
AU - Grasso, Margherita
AU - Nardone, Antonio
AU - Godi, Marco
AU - Schieppati, Marco
N1 - Funding Information:
This investigation was supported by the Grants PRIN 2007 from the Italian Ministry of Education and Ricerca Finalizzata 2003 and 2005 from the Italian Ministry of Health . None of the authors has financial interests or conflicts of interests. We wish to thank the anonymous Referees for their helpful comments.
PY - 2010/2
Y1 - 2010/2
N2 - Objective: During the administration of timed bilateral alternate vibration to homonymous leg or trunk muscles during quiet upright stance, Parkinsonian (PD) patients undergo cyclic antero-posterior and medio-lateral transfers of the centre of foot pressure. This event might be potentially exploited for improving gait in these patients. Here, we tested this hypothesis by applying alternate muscle vibration during walking in PD. Methods: Fifteen patients and 15 healthy subjects walked on an instrumented walkway under four conditions: no vibration (no-Vib), and vibration of tibialis anterior (TA-Vib), soleus (Sol-Vib) and erector spinae (ES-Vib) muscles of both sides. Trains of vibration (internal frequency 100 Hz) were delivered to right and left side at alternating frequency of 10% above preferred step cadence. Results: During vibration, stride length, cadence and velocity increased in both patients and healthy subjects, significantly so for ES-Vib. Stance and swing time tended to decrease. Width of support base increased with Sol-Vib or TA-Vib, but was unaffected by ES-Vib. Conclusions: Alternate ES vibration enhances gait velocity in PD. The stronger effect of ES over leg muscle vibration might depend on the relevance of the proprioceptive inflow from the trunk muscles and on the absence of adverse effects on the support base width. Significance: Trunk control is defective in PD. The effect of timed vibratory stimulation on gait suggests the potential use of trunk proprioceptive stimulation for tuning the central pattern generators for locomotion in PD.
AB - Objective: During the administration of timed bilateral alternate vibration to homonymous leg or trunk muscles during quiet upright stance, Parkinsonian (PD) patients undergo cyclic antero-posterior and medio-lateral transfers of the centre of foot pressure. This event might be potentially exploited for improving gait in these patients. Here, we tested this hypothesis by applying alternate muscle vibration during walking in PD. Methods: Fifteen patients and 15 healthy subjects walked on an instrumented walkway under four conditions: no vibration (no-Vib), and vibration of tibialis anterior (TA-Vib), soleus (Sol-Vib) and erector spinae (ES-Vib) muscles of both sides. Trains of vibration (internal frequency 100 Hz) were delivered to right and left side at alternating frequency of 10% above preferred step cadence. Results: During vibration, stride length, cadence and velocity increased in both patients and healthy subjects, significantly so for ES-Vib. Stance and swing time tended to decrease. Width of support base increased with Sol-Vib or TA-Vib, but was unaffected by ES-Vib. Conclusions: Alternate ES vibration enhances gait velocity in PD. The stronger effect of ES over leg muscle vibration might depend on the relevance of the proprioceptive inflow from the trunk muscles and on the absence of adverse effects on the support base width. Significance: Trunk control is defective in PD. The effect of timed vibratory stimulation on gait suggests the potential use of trunk proprioceptive stimulation for tuning the central pattern generators for locomotion in PD.
KW - Alternate muscle vibration
KW - Cadence
KW - Gait
KW - Parkinson's disease
KW - Velocity
UR - http://www.scopus.com/inward/record.url?scp=75449088781&partnerID=8YFLogxK
U2 - 10.1016/j.clinph.2009.10.018
DO - 10.1016/j.clinph.2009.10.018
M3 - Article
SN - 1388-2457
VL - 121
SP - 240
EP - 247
JO - Clinical Neurophysiology
JF - Clinical Neurophysiology
IS - 2
ER -