2013
DOI: 10.1111/dmcn.12124
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Passive muscle properties are altered in children with cerebral palsy before the age of 3 years and are difficult to distinguish clinically from spasticity

Abstract: AIM Clinical determination of spasticity is confounded by the difficulty in distinguishing reflex from passive contributions to muscle stiffness. There is, therefore, a risk that children with cerebral palsy (CP) receive antispasticity treatment unnecessarily. To investigate this, we aimed to determine the contribution of reflex mechanisms to changes in the passive elastic properties of muscles and tendons in children with CP.METHOD Biomechanical and electrophysiological measures were used to determine the rel… Show more

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Cited by 90 publications
(94 citation statements)
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“…Although all had been diagnosed as spastic prior to recruitment, four scored 0 on the Modified Ashworth Scale and in only five was a spastic catch noted. To objectively assess the passive and reflex-mediated stiffness components of the ankle plantar flexors, biomechanical and electrophysiological evaluation was performed according to Lorentzen et al (2010) and Willerslev-Olsen et al (2013). Briefly, children were seated in a reclining armchair with the examined foot attached to a footplate, which could be rotated by a motor (CEM model 26).…”
Section: Participantsmentioning
confidence: 99%
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“…Although all had been diagnosed as spastic prior to recruitment, four scored 0 on the Modified Ashworth Scale and in only five was a spastic catch noted. To objectively assess the passive and reflex-mediated stiffness components of the ankle plantar flexors, biomechanical and electrophysiological evaluation was performed according to Lorentzen et al (2010) and Willerslev-Olsen et al (2013). Briefly, children were seated in a reclining armchair with the examined foot attached to a footplate, which could be rotated by a motor (CEM model 26).…”
Section: Participantsmentioning
confidence: 99%
“…Perturbations were delivered every second in a random order until 10 trials per velocity were collected. Passive stiffness was calculated from the torque response at low velocities without stretch responses, whereas reflex stiffness was calculated from the torque response to the fastest perturbation (see Willerslev-Olsen et al 2013). The more spastic ankle joint was subsequently selected for further testing (7 children with CP were tested on the right and 13 on the left side; 9 children without CP were tested on the right and 32 on the left side).…”
Section: Participantsmentioning
confidence: 99%
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“…As pointed out in several recent studies, increased passive stiffness of the muscles, connective tissue, tendons and joints is difficult to distinguish clinically from spasticity and requires a combination of biomechanical and electrophysiological techniques in order to be correctly evaluated (Mirbagheri et al, 2004, Mirbagheri et al, 2005, Lorentzen et al, 2010, Willerslev-Olsen et al, 2013. It was suggested already by Volker Dietz and his co-workers more than 30 years ago that such changes in passive muscle stiffness may be the dominant cause of gait impairment in spastic subjects (Dietz et al, 1981, Berger et al, 1982, Dietz et al, 1983.…”
Section: Introductionmentioning
confidence: 99%