Muscle and fascicle excursion in children with cerebral palsy

Fascicle length and fascicle excursion measurements in children with cerebral palsy have yielded inconsistent results. The purpose of this study was to measure in vivo passive fascicle lengths and fascicle excursions in the Medial Gastrocnemius muscle of children with cerebral palsy and typically de...

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Published in	Clinical biomechanics (Bristol) Vol. 29; no. 4; pp. 458 - 462
Main Authors	Matthiasdottir, Sigrun, Hahn, Marlee, Yaraskavitch, Megan, Herzog, Walter
Format	Journal Article
Language	English
Published	England Elsevier Ltd 01.04.2014
Subjects	Adolescent Ankle Joint - diagnostic imaging Ankle Joint - physiopathology Body Weights and Measures Cerebral palsy Cerebral Palsy - diagnostic imaging Cerebral Palsy - pathology Cerebral Palsy - physiopathology Child Electromyography Fascicle Fascicle excursion Fascicle length Female Humans Male Muscle Muscle excursion Muscle Spasticity - diagnostic imaging Muscle Spasticity - pathology Muscle Spasticity - physiopathology Muscle, Skeletal - diagnostic imaging Muscle, Skeletal - pathology Muscle, Skeletal - physiopathology Physical Medicine and Rehabilitation Range of Motion, Articular - physiology Reproducibility of Results Sarcomere Sarcomere length Spasticity Ultrasonography Cerebral palsy Muscle excursion Sarcomere length Fascicle excursion Spasticity Muscle Sarcomere CP Fascicle length Fascicle
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ISSN	0268-0033 1879-1271 1879-1271
DOI	10.1016/j.clinbiomech.2014.01.002

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Abstract	Fascicle length and fascicle excursion measurements in children with cerebral palsy have yielded inconsistent results. The purpose of this study was to measure in vivo passive fascicle lengths and fascicle excursions in the Medial Gastrocnemius muscle of children with cerebral palsy and typically developing controls. We measured 11 children with spastic cerebral palsy and 14 controls between the ages of 9 and 16years. Ultrasound imaging was used to measure fascicle lengths while a dynamometer moved the ankle joint through the range of motion. A common range of motion for all subjects was used for analysis of fascicle excursion. Fascicle lengths in children with cerebral palsy were 43% smaller than those for control subjects throughout the range of motion. The relative fascicle excursion was 92% greater on average for the cerebral palsy compared to the control group children. The muscle excursion for the control group children was greater than for the cerebral palsy group children. Since the fascicles in children with spastic cerebral palsy are shorter, but they go through the same excursion as fascicles in typically developing children, sarcomeres within the medial gastrocnemius muscle must be working over a larger range of sarcomere lengths. Combined with findings of overstretched sarcomeres in spastic muscles reported in the literature, our results suggest that the increased passive forces and the weakness found in spastic muscles may be caused by a decrease in contractile filament overlap as sarcomeres are pulled to extreme lengths in children with cerebral palsy.
AbstractList	Fascicle length and fascicle excursion measurements in children with cerebral palsy have yielded inconsistent results. The purpose of this study was to measure in vivo passive fascicle lengths and fascicle excursions in the Medial Gastrocnemius muscle of children with cerebral palsy and typically developing controls. We measured 11 children with spastic cerebral palsy and 14 controls between the ages of 9 and 16years. Ultrasound imaging was used to measure fascicle lengths while a dynamometer moved the ankle joint through the range of motion. A common range of motion for all subjects was used for analysis of fascicle excursion. Fascicle lengths in children with cerebral palsy were 43% smaller than those for control subjects throughout the range of motion. The relative fascicle excursion was 92% greater on average for the cerebral palsy compared to the control group children. The muscle excursion for the control group children was greater than for the cerebral palsy group children. Since the fascicles in children with spastic cerebral palsy are shorter, but they go through the same excursion as fascicles in typically developing children, sarcomeres within the medial gastrocnemius muscle must be working over a larger range of sarcomere lengths. Combined with findings of overstretched sarcomeres in spastic muscles reported in the literature, our results suggest that the increased passive forces and the weakness found in spastic muscles may be caused by a decrease in contractile filament overlap as sarcomeres are pulled to extreme lengths in children with cerebral palsy. Abstract Background Fascicle length and fascicle excursion measurements in children with cerebral palsy have yielded inconsistent results. The purpose of this study was to measure in vivo passive fascicle lengths and fascicle excursions in the Medial Gastrocnemius muscle of children with cerebral palsy and typically developing controls. Methods We measured 11 children with spastic cerebral palsy and 14 controls between the ages of 9 and 16 years. Ultrasound imaging was used to measure fascicle lengths while a dynamometer moved the ankle joint through the range of motion. A common range of motion for all subjects was used for analysis of fascicle excursion. Findings Fascicle lengths in children with cerebral palsy were 43% smaller than those for control subjects throughout the range of motion. The relative fascicle excursion was 92% greater on average for the cerebral palsy compared to the control group children. The muscle excursion for the control group children was greater than for the cerebral palsy group children. Interpretation Since the fascicles in children with spastic cerebral palsy are shorter, but they go through the same excursion as fascicles in typically developing children, sarcomeres within the medial gastrocnemius muscle must be working over a larger range of sarcomere lengths. Combined with findings of overstretched sarcomeres in spastic muscles reported in the literature, our results suggest that the increased passive forces and the weakness found in spastic muscles may be caused by a decrease in contractile filament overlap as sarcomeres are pulled to extreme lengths in children with cerebral palsy. Fascicle length and fascicle excursion measurements in children with cerebral palsy have yielded inconsistent results. The purpose of this study was to measure in vivo passive fascicle lengths and fascicle excursions in the Medial Gastrocnemius muscle of children with cerebral palsy and typically developing controls.BACKGROUNDFascicle length and fascicle excursion measurements in children with cerebral palsy have yielded inconsistent results. The purpose of this study was to measure in vivo passive fascicle lengths and fascicle excursions in the Medial Gastrocnemius muscle of children with cerebral palsy and typically developing controls.We measured 11 children with spastic cerebral palsy and 14 controls between the ages of 9 and 16years. Ultrasound imaging was used to measure fascicle lengths while a dynamometer moved the ankle joint through the range of motion. A common range of motion for all subjects was used for analysis of fascicle excursion.METHODSWe measured 11 children with spastic cerebral palsy and 14 controls between the ages of 9 and 16years. Ultrasound imaging was used to measure fascicle lengths while a dynamometer moved the ankle joint through the range of motion. A common range of motion for all subjects was used for analysis of fascicle excursion.Fascicle lengths in children with cerebral palsy were 43% smaller than those for control subjects throughout the range of motion. The relative fascicle excursion was 92% greater on average for the cerebral palsy compared to the control group children. The muscle excursion for the control group children was greater than for the cerebral palsy group children.FINDINGSFascicle lengths in children with cerebral palsy were 43% smaller than those for control subjects throughout the range of motion. The relative fascicle excursion was 92% greater on average for the cerebral palsy compared to the control group children. The muscle excursion for the control group children was greater than for the cerebral palsy group children.Since the fascicles in children with spastic cerebral palsy are shorter, but they go through the same excursion as fascicles in typically developing children, sarcomeres within the medial gastrocnemius muscle must be working over a larger range of sarcomere lengths. Combined with findings of overstretched sarcomeres in spastic muscles reported in the literature, our results suggest that the increased passive forces and the weakness found in spastic muscles may be caused by a decrease in contractile filament overlap as sarcomeres are pulled to extreme lengths in children with cerebral palsy.INTERPRETATIONSince the fascicles in children with spastic cerebral palsy are shorter, but they go through the same excursion as fascicles in typically developing children, sarcomeres within the medial gastrocnemius muscle must be working over a larger range of sarcomere lengths. Combined with findings of overstretched sarcomeres in spastic muscles reported in the literature, our results suggest that the increased passive forces and the weakness found in spastic muscles may be caused by a decrease in contractile filament overlap as sarcomeres are pulled to extreme lengths in children with cerebral palsy.
Author	Hahn, Marlee Yaraskavitch, Megan Herzog, Walter Matthiasdottir, Sigrun
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Keywords	Cerebral palsy Muscle excursion Sarcomere length Fascicle excursion Spasticity Muscle Sarcomere CP Fascicle length Fascicle
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Snippet	Fascicle length and fascicle excursion measurements in children with cerebral palsy have yielded inconsistent results. The purpose of this study was to measure... Abstract Background Fascicle length and fascicle excursion measurements in children with cerebral palsy have yielded inconsistent results. The purpose of this...
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SubjectTerms	Adolescent Ankle Joint - diagnostic imaging Ankle Joint - physiopathology Body Weights and Measures Cerebral palsy Cerebral Palsy - diagnostic imaging Cerebral Palsy - pathology Cerebral Palsy - physiopathology Child Electromyography Fascicle Fascicle excursion Fascicle length Female Humans Male Muscle Muscle excursion Muscle Spasticity - diagnostic imaging Muscle Spasticity - pathology Muscle Spasticity - physiopathology Muscle, Skeletal - diagnostic imaging Muscle, Skeletal - pathology Muscle, Skeletal - physiopathology Physical Medicine and Rehabilitation Range of Motion, Articular - physiology Reproducibility of Results Sarcomere Sarcomere length Spasticity Ultrasonography
Title	Muscle and fascicle excursion in children with cerebral palsy
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