The long-lasting effects of repetitive neck muscle vibration on postural disturbances in standing position in chronic patients

The long-lasting effects of repetitive neck muscle vibration on postural disturbances in standing position in chronic patients

Asymmetrical postural behaviours are frequent and related to poor equilibrium after a stroke. Proprioceptive neck vibration could correct the postural asymmetry through a sensory recalibration but the long lasting effect has not yet tested. To test the long-lasting effects of repetitive neck muscle...

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Bibliographic Details
Published in:Neurophysiologie clinique Vol. 47; no. 5-6; pp. 341 - 342
Main Authors: Jamal, Karim, Leplaideur, Stéphanie, Chochina, Lucie, Moulinet-Raillon, AnneLise, Senal, Nelly, Bonan, Isabelle
Format: Journal Article
Language:English
Published: Paris Elsevier Masson SAS 01-12-2017
Elsevier Science Ltd
Subjects:
Asymmetry
Balance
Brain injury
Muscle function
Neck
Neck muscle vibration
Postural asymmetry
Posture
Proprioception
Space representation
Spasticity
Stroke
Vibration analysis
Vibrations
Stroke
Neck muscle vibration
Postural asymmetry
Space representation
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Summary:Asymmetrical postural behaviours are frequent and related to poor equilibrium after a stroke. Proprioceptive neck vibration could correct the postural asymmetry through a sensory recalibration but the long lasting effect has not yet tested. To test the long-lasting effects of repetitive neck muscle vibration (rNMV) on postural disturbances and on spatial frame reference in chronic patients. Twenty chronic stroke patients (mean age: 61.4y11, mean delay since stroke: 5.5y3), 10 right (RDB) and 10 left (LDB) brain damage, underwent a program of 10 vibrations of 10min sessions during two weeks–the evaluation of postural asymmetry on force platform (weight body asymmetry WBA), spatial frames (subjective straight ahead SSA, longitudinal body axis LBA, subjective visual vertical SVV) and clinical assessment (Motricity Index, Sensibility, Spasticity, Berg Balance Scale, time up and go) were ascertained before (D−15, D0) and at the end of the vibrations (D+15, D+22, D+45). In the post-test, a significant reduction in WBA was established in the RBD (P=0.009) and was maintained at D+15 (P=0.01) and D+22 (P=0.05), no effect was observed in the LBD. In addition, no significant modification was found on the spatial frame in both group. A significant improvement was found for the motricity and time up and go in the RBD. rNMV causes a reduction of postural asymmetry in the RBD group independently of the space representation improvement. Likewise, rNMV can modify the postural asymmetry in chronic patients but this result was not maintained at D+45.
ISSN:0987-7053
1769-7131
DOI:10.1016/j.neucli.2017.10.014