Abnormal coupling of knee and hip moments during maximal exertions in persons with cerebral palsy

Thelen, Darryl G.; Riewald, Scott; Asakawa, Deanna S.; Sanger, Terence D.; Delp, Scott L.

doi:10.1002/mus.10357

Cited by 38 publications

(40 citation statements)

References 21 publications

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“…Individuals with CP show an extension pattern because the supraspinal inputs may fail to properly integrate with spinal control systems (Thelen et al, 2003). It is possible that activation of existing spinal and supraspinal pattern generators through the BW training can occur (Schindl et al, 2000).…”

Section: Discussionmentioning

confidence: 99%

Backward walking treadmill therapy can improve walking ability in children with spastic cerebral palsy

Kim

Ryu

et al. 2013

International Journal of Rehabilitation Research

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The aim of this study was to determine whether an 8-week period of backward walking (BW) training on the treadmill can improve the gross motor function measure (GMFM), weight-bearing symmetry, and temporospatial gait parameters in individuals with spastic cerebral palsy. Twelve participants aged 5-15 years with spastic cerebral palsy participated in this study. The BW training was conducted on a treadmill for up to 20 min, with three sessions per week for 8 consecutive weeks. Before each treadmill training session, lower limb stretching was included in the session. Interlimb differentials of vertical ground reaction force while standing, temporal-distance gait parameters, and scores of dimension D and dimension E of the GMFM were determined. Participants showed statistically significant improvements in a measure of GMFM (P<0.01) and weight-bearing symmetry value (P<0.05), forward walking velocity (P<0.05), and step/stride length (P<0.05 or P<0.01). This pilot study suggests that BW therapy on a treadmill may help to improve walking abilities and other gross motor skills in this sample of patients.

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Section: Discussionmentioning

confidence: 99%

Backward walking treadmill therapy can improve walking ability in children with spastic cerebral palsy

Kim

Ryu

et al. 2013

International Journal of Rehabilitation Research

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“…20 In light of the abnormal gait patterns involving the hip frontal plane and knee sagittal plane kinematics after stroke, our data suggest that it is likely that poststroke gait impairments can be attributed to the individual hip, knee, and ankle weakness, as well as the observed abnormal within-and across-joint torque patterns. Whereas similar experimental set-ups have been used in lower 21 extremity studies, it can be argued that the observed torque couplings may be attributed to the intrinsic design of our experimental set-up. In this case, one would expect the "set-up" effect to be independent of group (control versus stroke).…”

Section: Discussionmentioning

confidence: 99%

“…This crossover behavior by a minority of the control participants has been observed in data derived from a number of earlier investigations of across-joint coupling in the neurologically impaired populations. 9,21 Others have suggested that abnormal torque coupling in stroke population may be caused by the exploitation of lower-level neural circuits, such as the bulbospinal tracts, circuitry that also present in healthy controls. 22 Given that the task is volitional, it is conceivable that some control subjects can activate these pathways and hence present stroke-like behaviors.…”

Section: Discussionmentioning

confidence: 99%

“…Indeed, torque-coupling studies on stroke subjects and other neurologically diseased states have found that extension coupling is more prevalent than flexion coupling. 21,23 Although selective weakness may have contributed to the decrease in achievable torque space at the hip after stroke, it does not explain the observed hip/knee-coupling. Although some researchers presume that torque coupling is predominantly due to abnormal neural coupling between motorneuron pools, 24 Lum et al propose that torque couplings are a manifestation of strength imbalances.…”

Section: Discussionmentioning

confidence: 99%

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Evidence of Abnormal Lower-Limb Torque Coupling After Stroke

Cruz

Dhaher

2008

Stroke

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Background and Purpose-Although stroke survivors often display abnormal joint torque patterns, studies of torquecoupling in the lower limb are lacking, despite their potential impact on gait abnormalities. Methods-Twenty-two chronic ambulating stroke subjects and 11 age-matched control subjects produced isometric hip torques in the frontal and sagittal planes with the hemiparetic leg (or randomly selected leg for the control group) in postures that resemble stages of gait. The involuntary knee torques were also recorded although no feedback or instructions were given. Results-In the toe-off and midswing postures, the stroke group had a significant torque bias toward extension and adduction, whereas the control group had a symmetric torque space. The stroke group also produced significantly smaller torques than the control group in the flexion and abduction/flexion directions. Finally, the stroke group displayed abnormal coupling of knee extension with hip adduction, unique to the toe-off position. Conclusions-Whereas gait abnormalities after stroke have been attributed to a number of factors, including sagittal plane strength impairments at the hip, knee, and ankle, our findings indicate that neuromechanical changes after stroke may play a significant role in determining the nature of the movement abnormality. Specifically, abnormal hip adduction and knee extension torque coupling was observed, in addition to direction-specific hip torque weakness. Future studies are needed to delineate the differential contributions of each potential factor to gait abnormalities. Understanding the underlying neuromechanical changes after stroke may aid the development of rehabilitation strategies.

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“…Microscopically, sarcomeres are longer and extracellular matrix composition is different to TD muscle (Smith, Lee, Ward, Chambers, & Lieber, 2011). These specific musculotendinous adaptations in individuals with CP begin to occur within the first five years of life (Barber et al, 2011;Gough & Shortland, 2012;Willerslev-Olsen, Lorentzen, Sinkjaer, & Nielsen, 2013) and are likely to contribute to reduced muscle strength and power compared to TD individuals (Dallmeijer et al, 2015;Nooijen et al, 2014;Thelen, Riewald, Asakawa, Sanger, & Delp, 2003;Wiley & Damiano, 1998;Yanci et al, 2016) and gradual decline in functional ability throughout adulthood (Bottos, Feliciangeli, Sciuto, Gericke, & Vianello, 2001).…”

Section: Introductionmentioning

confidence: 97%

The impact of strength training on skeletal muscle morphology and architecture in children and adolescents with spastic cerebral palsy: A systematic review

Gillett

Boyd

Carty

et al. 2016

Research in Developmental Disabilities

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Abnormal coupling of knee and hip moments during maximal exertions in persons with cerebral palsy

Cited by 38 publications

References 21 publications

Backward walking treadmill therapy can improve walking ability in children with spastic cerebral palsy

Backward walking treadmill therapy can improve walking ability in children with spastic cerebral palsy

Evidence of Abnormal Lower-Limb Torque Coupling After Stroke

The impact of strength training on skeletal muscle morphology and architecture in children and adolescents with spastic cerebral palsy: A systematic review

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