Human lower leg muscles grow asynchronously.

Autor: Chow, Brian V. Y., Morgan, Catherine, Rae, Caroline, Warton, David I., Novak, Iona, Davies, Suzanne, Lancaster, Ann, Popovic, Gordana C., Rizzo, Rodrigo R. N., Rizzo, Claudia Y., Kyriagis, Maria, Herbert, Robert D., Bolsterlee, Bart
Zdroj: Journal of Anatomy; Mar2024, Vol. 244 Issue 3, p476-485, 10p
Abstrakt: Muscle volume must increase substantially during childhood growth to generate the power required to propel the growing body. One unresolved but fundamental question about childhood muscle growth is whether muscles grow at equal rates; that is, if muscles grow in synchrony with each other. In this study, we used magnetic resonance imaging (MRI) and advances in artificial intelligence methods (deep learning) for medical image segmentation to investigate whether human lower leg muscles grow in synchrony. Muscle volumes were measured in 10 lower leg muscles in 208 typically developing children (eight infants aged less than 3 months and 200 children aged 5 to 15 years). We tested the hypothesis that human lower leg muscles grow synchronously by investigating whether the volume of individual lower leg muscles, expressed as a proportion of total lower leg muscle volume, remains constant with age. There were substantial age‐related changes in the relative volume of most muscles in both boys and girls (p < 0.001). This was most evident between birth and five years of age but was still evident after five years. The medial gastrocnemius and soleus muscles, the largest muscles in infancy, grew faster than other muscles in the first five years. The findings demonstrate that muscles in the human lower leg grow asynchronously. This finding may assist early detection of atypical growth and allow targeted muscle‐specific interventions to improve the quality of life, particularly for children with neuromotor conditions such as cerebral palsy. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index