The spasticity paradox: movement disorder or disorder of resting limbs?

Burne, John A.

doi:10.1136/jnnp.2003.034785

Cited by 94 publications

(75 citation statements)

References 37 publications

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“…The observed impaired modulation in firing rates during voluntary contractions is in contrast to the enhanced excitability of spastic-paretic motoneurons observed at rest (Mottram et al 2009(Mottram et al , 2010. These paradoxical findings are similar to previous observations for enhanced stretch or Hoffman reflexes at rest (Burne et al 2005;Chardon et al 2009;Huang et al 2006;Powers et al 1988), yet not during a background contraction (Burne et al 2005; Thompson et al 2009). We suggest that the enhanced reflex responses at rest in stroke survivors are explained by the presence of a low-level tonic depolarizing synaptic drive to the spastic-paretic motoneuron pool.…”

Section: Role Of Rate Saturation In Reduced Firing Rates Observed In supporting

confidence: 78%

Disturbances of motor unit rate modulation are prevalent in muscles of spastic-paretic stroke survivors

Mottram

Heckman

Powers

et al. 2014

Journal of Neurophysiology

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Mottram CJ, Heckman CJ, Powers RK, Rymer WZ, Suresh NL. Disturbances of motor unit rate modulation are prevalent in muscles of spastic-paretic stroke survivors. J Neurophysiol 111: 2017-2028, 2014. First published February 26, 2014 doi:10.1152/jn.00389.2013.-Stroke survivors often exhibit abnormally low motor unit firing rates during voluntary muscle activation. Our purpose was to assess the prevalence of saturation in motor unit firing rates in the spastic-paretic biceps brachii muscle of stroke survivors. To achieve this objective, we recorded the incidence and duration of impaired lower-and higherthreshold motor unit firing rate modulation in spastic-paretic, contralateral, and healthy control muscle during increases in isometric force generated by the elbow flexor muscles. Impaired firing was considered to have occurred when firing rate became constant (i.e., saturated), despite increasing force. The duration of impaired firing rate modulation in the lower-threshold unit was longer for spasticparetic (3.9 Ϯ 2.2 s) than for contralateral (1.4 Ϯ 0.9 s; P Ͻ 0.001) and control (1.1 Ϯ 1.0 s; P ϭ 0.005) muscles. The duration of impaired firing rate modulation in the higher-threshold unit was also longer for the spastic-paretic (1.7 Ϯ 1.6 s) than contralateral (0.3 Ϯ 0.3 s; P ϭ 0.007) and control (0.1 Ϯ 0.2 s; P ϭ 0.009) muscles. This impaired firing rate of the lower-threshold unit arose, despite an increase in the overall descending command, as shown by the recruitment of the higher-threshold unit during the time that the lower-threshold unit was saturating, and by the continuous increase in averages of the rectified EMG of the biceps brachii muscle throughout the rising phase of the contraction. These results suggest that impairments in firing rate modulation are prevalent in motor units of spastic-paretic muscle, even when the overall descending command to the muscle is increasing.

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Section: Role Of Rate Saturation In Reduced Firing Rates Observed In supporting

confidence: 78%

Disturbances of motor unit rate modulation are prevalent in muscles of spastic-paretic stroke survivors

Mottram

Heckman

Powers

et al. 2014

Journal of Neurophysiology

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“…increased muscle tone 50,69 . When background contractions are matched to normal levels in spastic subjects, little evidence exists for exaggerated reflex activity 58,61,70 (for exception see 71 ). However, during isotonic leg muscle contractions modulation and inhibition of Ib afferents (innervating the force sensitive Golgi tendon organs) is reduced 72 and some co-contraction of antagonistic arm muscles can occur 73,74 .…”

Section: Active Muscle In Non-functional Conditionsmentioning

confidence: 99%

“…The consequence is a reduced adaptation of muscle activity to the actual ground conditions 88 . Together with the reduced capacity to modulate reflex activity over the normal range, this might contribute to the spastic movement disorder 70,87 .…”

Section: Reflex Behaviourmentioning

confidence: 99%

Spastic movement disorder: impaired reflex function and altered muscle mechanics

Dietz

Sinkjær

2007

The Lancet Neurology

486

332

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In clinical practice the dominant view is that the signs of exaggerated tendon tap reflexes associated with muscle hypertonia are responsible for the spastic movement disorder. Consequently, most anti-spastic treatments are directed at reducing reflex activity. During the last years an increasing body of evidence suggests a discrepancy between clinical spasticity and spastic movement disorder.This is primarily due to the different role reflexes play in the passive and active condition, respectively. Today we know that a central motor lesion is associated with a loss of supraspinal drive and a defective utilization of afferent input with an impaired behaviour of short-and longlatency reflexes. This leads to a paresis and a mal-adaptation of the movement pattern.Secondary changes in mechanical muscle fibre, collagen tissue and tendon properties (e.g. loss of sarcomers; sub-clinical contractures) result in spastic muscle tone, which at part compensates for paresis. This allows functional movements on a simpler level of organisation. Anti-spastic drugs can accentuate paresis and therefore should be applied with caution in mobile subjects.

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“…Candidate mechanisms are the spinal reflex and passive muscle stiffness, both of which can potentially destabilize the joint. Both factors were found to be increased in UMND (Mirbagheri et al, 2001;Friden and Lieber, 2003;Lieber et al, 2004;Burne et al, 2005;de Vlugt et al, 2010). In a simulation study, the observed variation in clonus frequency with loading was explained from the isolated increased gain of the Ia reflex pathway (Hidler and Rymer, 2000).…”

Section: Introductionmentioning

confidence: 99%

Clonus is explained from increased reflex gain and enlarged tissue viscoelasticity

Vlugt

Groot

Wisman

et al. 2012

Journal of Biomechanics

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The spasticity paradox: movement disorder or disorder of resting limbs?

Cited by 94 publications

References 37 publications

Disturbances of motor unit rate modulation are prevalent in muscles of spastic-paretic stroke survivors

Disturbances of motor unit rate modulation are prevalent in muscles of spastic-paretic stroke survivors

Spastic movement disorder: impaired reflex function and altered muscle mechanics

Clonus is explained from increased reflex gain and enlarged tissue viscoelasticity

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