Dynamic head-neck stabilization in cervical dystonia

Patrick A. Forbes; Edo de Bruijn; Sebastiaan W. R. Nijmeijer; Johannes H. T. M. Koelman; Frans C. T. van der Helm; Alfred C. Schouten; Marina A. J. Tijssen; Riender Happee

doi:10.1016/j.clinbiomech.2017.01.010

Dynamic head-neck stabilization in cervical dystonia

Patrick A. Forbes^*
, Edo de Bruijn
, Sebastiaan W. R. Nijmeijer
, Johannes H. T. M. Koelman
, Frans C. T. van der Helm
, Alfred C. Schouten
, Marina A. J. Tijssen
, Riender Happee

^*Corresponding author for this work

Biology-Related, Artificial, and Interventional Neuroscience (BRAIN)

Research output: Contribution to journal › Article › Academic › peer-review

1 Citation (Scopus)

Abstract

Background: Effective sensorimotor integration is essential to modulate (adapt) neck stabilization strategies in response to varying tasks and disturbances. This study evaluates the hypothesis that relative to healthy controls cervical dystonia patients have an impaired ability to modulate afferent feedback for neck stabilization with changes in the frequency content of mechanical perturbations.

Methods: We applied anterior-posterior displacement perturbations (110 s) on the torso of seated subjects, while recording head-neck kinematics and muscular activity. We compared low bandwidth (0.2-1.2 Hz) and high bandwidth (0.2-8 Hz) perturbations where our previous research showed a profound modulation of stabilization strategies in healthy subjects. Cervical dystonia patients and age matched controls performed two tasks: (1) maintain head forward posture and (2) allow dystonia to dictate head posture.

Findings: Patients and controls demonstrated similar kinematic and muscular responses. Patient modulation was similar to that of healthy controls (P > 0.05); neck stiffness and afferent feedback decreased with high bandwidth perturbations. During the head forward task patients had an increased neck stiffness relative to controls (P <0.05), due to increased afferent feedback.

Interpretation: The unaffected modulation of head-neck stabilization (both kinematic and muscular) in patients with cervical dystonia does not support the hypothesis of impaired afferent feedback modulation for neck stabilization. (C) 2017 Elsevier Ltd. All rights reserved.

Original language	English
Pages (from-to)	120-127
Number of pages	8
Journal	Clinical Biomechanics
Volume	42
DOIs	https://doi.org/10.1016/j.clinbiomech.2017.01.010
Publication status	Published - Feb-2017

Keywords

Cervical dystonia
Neck afferent feedback modulation
Head-neck stabilization
Dystonic posture
Sensorimotor integration
TRANSCRANIAL MAGNETIC STIMULATION
HUMAN ANKLE STIFFNESS
SPASMODIC TORTICOLLIS
SENSORIMOTOR INTEGRATION
PROPRIOCEPTIVE REFLEXES
POSTURAL RESPONSES
GESTE ANTAGONISTE
MUSCLE VIBRATION
BOTULINUM TOXIN
FOCAL DYSTONIA

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@article{47cf6048439e48759faed95a10de3c28,

title = "Dynamic head-neck stabilization in cervical dystonia",

abstract = "Background: Effective sensorimotor integration is essential to modulate (adapt) neck stabilization strategies in response to varying tasks and disturbances. This study evaluates the hypothesis that relative to healthy controls cervical dystonia patients have an impaired ability to modulate afferent feedback for neck stabilization with changes in the frequency content of mechanical perturbations.Methods: We applied anterior-posterior displacement perturbations (110 s) on the torso of seated subjects, while recording head-neck kinematics and muscular activity. We compared low bandwidth (0.2-1.2 Hz) and high bandwidth (0.2-8 Hz) perturbations where our previous research showed a profound modulation of stabilization strategies in healthy subjects. Cervical dystonia patients and age matched controls performed two tasks: (1) maintain head forward posture and (2) allow dystonia to dictate head posture.Findings: Patients and controls demonstrated similar kinematic and muscular responses. Patient modulation was similar to that of healthy controls (P > 0.05); neck stiffness and afferent feedback decreased with high bandwidth perturbations. During the head forward task patients had an increased neck stiffness relative to controls (P <0.05), due to increased afferent feedback.Interpretation: The unaffected modulation of head-neck stabilization (both kinematic and muscular) in patients with cervical dystonia does not support the hypothesis of impaired afferent feedback modulation for neck stabilization. (C) 2017 Elsevier Ltd. All rights reserved.",

keywords = "Cervical dystonia, Neck afferent feedback modulation, Head-neck stabilization, Dystonic posture, Sensorimotor integration, TRANSCRANIAL MAGNETIC STIMULATION, HUMAN ANKLE STIFFNESS, SPASMODIC TORTICOLLIS, SENSORIMOTOR INTEGRATION, PROPRIOCEPTIVE REFLEXES, POSTURAL RESPONSES, GESTE ANTAGONISTE, MUSCLE VIBRATION, BOTULINUM TOXIN, FOCAL DYSTONIA",

author = "Forbes, \{Patrick A.\} and \{de Bruijn\}, Edo and Nijmeijer, \{Sebastiaan W. R.\} and Koelman, \{Johannes H. T. M.\} and \{van der Helm\}, \{Frans C. T.\} and Schouten, \{Alfred C.\} and Tijssen, \{Marina A. J.\} and Riender Happee",

year = "2017",

month = feb,

doi = "10.1016/j.clinbiomech.2017.01.010",

language = "English",

volume = "42",

pages = "120--127",

journal = "Clinical Biomechanics",

issn = "0268-0033",

publisher = "ELSEVIER SCI LTD",

}

TY - JOUR

T1 - Dynamic head-neck stabilization in cervical dystonia

AU - Forbes, Patrick A.

AU - de Bruijn, Edo

AU - Nijmeijer, Sebastiaan W. R.

AU - Koelman, Johannes H. T. M.

AU - van der Helm, Frans C. T.

AU - Schouten, Alfred C.

AU - Tijssen, Marina A. J.

AU - Happee, Riender

PY - 2017/2

Y1 - 2017/2

N2 - Background: Effective sensorimotor integration is essential to modulate (adapt) neck stabilization strategies in response to varying tasks and disturbances. This study evaluates the hypothesis that relative to healthy controls cervical dystonia patients have an impaired ability to modulate afferent feedback for neck stabilization with changes in the frequency content of mechanical perturbations.Methods: We applied anterior-posterior displacement perturbations (110 s) on the torso of seated subjects, while recording head-neck kinematics and muscular activity. We compared low bandwidth (0.2-1.2 Hz) and high bandwidth (0.2-8 Hz) perturbations where our previous research showed a profound modulation of stabilization strategies in healthy subjects. Cervical dystonia patients and age matched controls performed two tasks: (1) maintain head forward posture and (2) allow dystonia to dictate head posture.Findings: Patients and controls demonstrated similar kinematic and muscular responses. Patient modulation was similar to that of healthy controls (P > 0.05); neck stiffness and afferent feedback decreased with high bandwidth perturbations. During the head forward task patients had an increased neck stiffness relative to controls (P <0.05), due to increased afferent feedback.Interpretation: The unaffected modulation of head-neck stabilization (both kinematic and muscular) in patients with cervical dystonia does not support the hypothesis of impaired afferent feedback modulation for neck stabilization. (C) 2017 Elsevier Ltd. All rights reserved.

AB - Background: Effective sensorimotor integration is essential to modulate (adapt) neck stabilization strategies in response to varying tasks and disturbances. This study evaluates the hypothesis that relative to healthy controls cervical dystonia patients have an impaired ability to modulate afferent feedback for neck stabilization with changes in the frequency content of mechanical perturbations.Methods: We applied anterior-posterior displacement perturbations (110 s) on the torso of seated subjects, while recording head-neck kinematics and muscular activity. We compared low bandwidth (0.2-1.2 Hz) and high bandwidth (0.2-8 Hz) perturbations where our previous research showed a profound modulation of stabilization strategies in healthy subjects. Cervical dystonia patients and age matched controls performed two tasks: (1) maintain head forward posture and (2) allow dystonia to dictate head posture.Findings: Patients and controls demonstrated similar kinematic and muscular responses. Patient modulation was similar to that of healthy controls (P > 0.05); neck stiffness and afferent feedback decreased with high bandwidth perturbations. During the head forward task patients had an increased neck stiffness relative to controls (P <0.05), due to increased afferent feedback.Interpretation: The unaffected modulation of head-neck stabilization (both kinematic and muscular) in patients with cervical dystonia does not support the hypothesis of impaired afferent feedback modulation for neck stabilization. (C) 2017 Elsevier Ltd. All rights reserved.

KW - Cervical dystonia

KW - Neck afferent feedback modulation

KW - Head-neck stabilization

KW - Dystonic posture

KW - Sensorimotor integration

KW - TRANSCRANIAL MAGNETIC STIMULATION

KW - HUMAN ANKLE STIFFNESS

KW - SPASMODIC TORTICOLLIS

KW - SENSORIMOTOR INTEGRATION

KW - PROPRIOCEPTIVE REFLEXES

KW - POSTURAL RESPONSES

KW - GESTE ANTAGONISTE

KW - MUSCLE VIBRATION

KW - BOTULINUM TOXIN

KW - FOCAL DYSTONIA

U2 - 10.1016/j.clinbiomech.2017.01.010

DO - 10.1016/j.clinbiomech.2017.01.010

M3 - Article

SN - 0268-0033

VL - 42

SP - 120

EP - 127

JO - Clinical Biomechanics

JF - Clinical Biomechanics

ER -

Dynamic head-neck stabilization in cervical dystonia

Abstract

Keywords

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