Muscle-tendon unit in children with cerebral palsy

doi:10.1111/dmcn.14807

Review

. 2021 Aug;63(8):908-913.

doi: 10.1111/dmcn.14807. Epub 2021 Jan 10.

Muscle-tendon unit in children with cerebral palsy

Richard L Lieber^{1

2

3}, Tim Theologis⁴

Affiliations

¹ Shirley Ryan AbilityLab, Chicago, IL, USA.
² Northwestern University, Chicago, IL, USA.
³ Hines VA Medical Center, Maywood, IL, USA.
⁴ Nuffield Orthopaedic Centre, Headington, Oxford, UK.

PMID: 33426691
DOI: 10.1111/dmcn.14807

Free article

Review

Muscle-tendon unit in children with cerebral palsy

Richard L Lieber et al. Dev Med Child Neurol. 2021 Aug.

Free article

. 2021 Aug;63(8):908-913.

doi: 10.1111/dmcn.14807. Epub 2021 Jan 10.

Authors

Richard L Lieber^{1

2

3}, Tim Theologis⁴

Affiliations

¹ Shirley Ryan AbilityLab, Chicago, IL, USA.
² Northwestern University, Chicago, IL, USA.
³ Hines VA Medical Center, Maywood, IL, USA.
⁴ Nuffield Orthopaedic Centre, Headington, Oxford, UK.

PMID: 33426691
DOI: 10.1111/dmcn.14807

Abstract

Muscle-tendon unit surgery for correction of deformities and movement dysfunction in children with cerebral palsy (CP) is fairly complicated. An understanding of basic muscle-tendon unit properties and their adaptation to both CP and surgery are important to develop advances in this field. In this review, we provide information to therapists, surgeons, and scientists regarding the short- and long-term adaptations of the muscle-tendon unit. Surgical releases, lengthening, and transpositions are discussed, as are some of the tissue, cellular, and molecular adaptations. What this paper adds Muscle strength, tone, and control must be considered in surgical interventions for cerebral palsy (CP). Muscle-tendon unit lengthening causes significant and lasting weakness requiring prolonged rehabilitation. Sarcomere length increases in CP muscle may be one of the underlying causes of muscle weakness. Muscle satellite cells are decreased and epigenetically modified in a way that may limit muscle growth in CP.

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References

1. Wenger D, Rang M, editors. The Art and Practice of Children's Orthopaedics. New York: Raven Press, 1993.
1. Gage JR. The treatment of gait problems in cerebral palsy. London: Mac Keith, 2004.
1. Rha DW, Cahill-Rowley K, Young J, Torburn L, Stephenson K, Rose J. Biomechanical and clinical correlates of stance-phase knee flexion in persons with spastic cerebral palsy. PM R 2016; 8: 11-8.
1. Choi JY, Park ES, Park D, Rha DW. Dynamic spasticity determines hamstring length and knee flexion angle during gait in children with spastic cerebral palsy. Gait Posture 2018; 64: 255-9.
1. Dallmeijer AJ, Baker R, Dodd KJ, Taylor NF. Association between isometric muscle strength and gait joint kinetics in adolescents and young adults with cerebral palsy. Gait Posture 2011; 33: 326-32.

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[1] Wenger D, Rang M, editors. The Art and Practice of Children's Orthopaedics. New York: Raven Press, 1993.

[2] Wenger D, Rang M, editors. The Art and Practice of Children's Orthopaedics. New York: Raven Press, 1993.

[3] Gage JR. The treatment of gait problems in cerebral palsy. London: Mac Keith, 2004.

[4] Gage JR. The treatment of gait problems in cerebral palsy. London: Mac Keith, 2004.

[5] Rha DW, Cahill-Rowley K, Young J, Torburn L, Stephenson K, Rose J. Biomechanical and clinical correlates of stance-phase knee flexion in persons with spastic cerebral palsy. PM R 2016; 8: 11-8.

[6] Rha DW, Cahill-Rowley K, Young J, Torburn L, Stephenson K, Rose J. Biomechanical and clinical correlates of stance-phase knee flexion in persons with spastic cerebral palsy. PM R 2016; 8: 11-8.

[7] Choi JY, Park ES, Park D, Rha DW. Dynamic spasticity determines hamstring length and knee flexion angle during gait in children with spastic cerebral palsy. Gait Posture 2018; 64: 255-9.

[8] Choi JY, Park ES, Park D, Rha DW. Dynamic spasticity determines hamstring length and knee flexion angle during gait in children with spastic cerebral palsy. Gait Posture 2018; 64: 255-9.

[9] Dallmeijer AJ, Baker R, Dodd KJ, Taylor NF. Association between isometric muscle strength and gait joint kinetics in adolescents and young adults with cerebral palsy. Gait Posture 2011; 33: 326-32.

[10] Dallmeijer AJ, Baker R, Dodd KJ, Taylor NF. Association between isometric muscle strength and gait joint kinetics in adolescents and young adults with cerebral palsy. Gait Posture 2011; 33: 326-32.

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Muscle-tendon unit in children with cerebral palsy

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