Causal factors affecting gross motor function in children diagnosed with cerebral palsy

• Published in: PloS one Vol. 17; no. 7; p. e0270121
• Main Authors: MacWilliams, Bruce A., Prasad, Sarada, Shuckra, Amy L., Schwartz, Michael H.
• Format: Journal Article
• Language: English
• Published: San Francisco Public Library of Science 18.07.2022; Public Library of Science (PLoS)
• Subjects: Biology and Life Sciences; Bivariate analysis; Cerebral palsy; Children; Deformation effects; Diagnosis; Diseases; Gait; Hypotheses; Medicine and Health Sciences; Motor task performance; Orthopedics; Paralysis; Pediatrics; Physical therapy; Physiological aspects; Regression coefficients; Social Sciences; Spasticity; Variables; United States
• ISSN: 1932-6203; 1932-6203
• DOI: 10.1371/journal.pone.0270121

Background Cerebral palsy (CP) is a complex neuromuscular condition that may negatively influence gross motor function. Children diagnosed with CP often exhibit spasticity, weakness, reduced motor control, contracture, and bony malalignment. Despite many previous association studies, the causal impact of these impairments on motor function is unknown. Aim In this study, we proposed a causal model which estimated the effects of common impairments on motor function in children with spastic CP as measured by the 66-item Gross Motor Function Measure (GMFM-66). We estimated both direct and total effect sizes of all included variables using linear regression based on covariate adjustment sets implied by the minimally sufficient adjustment sets. In addition, we estimated bivariate effect sizes of all measures for comparison. Method We retrospectively evaluated 300 consecutive subjects with spastic cerebral palsy who underwent routine clinical gait analysis. Model data included standard information collected during this analysis. Results The largest causal effect sizes, as measured by standardized regression coefficients, were found for selective voluntary motor control and dynamic motor control, followed by strength, then gait deviations. In contrast, common treatment targets, such as spasticity and orthopedic deformity, had relatively small effects. Effect sizes estimated from bivariate models, which cannot appropriately adjust for other causal factors, substantially overestimated the total effect of spasticity, strength, and orthopedic deformity. Interpretation Understanding the effects of impairments on gross motor function will allow clinicians to direct treatments at those impairments with the greatest potential to influence gross motor function and provide realistic expectations of the anticipated changes.