Femoral shape changes during the course of human growth, transitioning from a subcircular tube to a teardrop-shaped diaphysis with a posterior pilaster. Differences between immature and mature bipedalism and body shape may generate different loads, which, in turn, may influence femoral modeling and remodeling during the course of the human lifespan. This study uses two different approaches to evaluate the hypotheses that differences in gait between young and mature walkers result in differences in ground reaction forces (GRFs) and that the differences in loading regimes between young children and adults will be reflected in the geometric structure of the midshaft femur. The results of this analysis indicate that GRFs differ between young wa...
On earth, body weight is an inherent constraint, and accordingly, load-regulating mechanisms play an...
Bones’ shapes and structures adapt to the muscle and reaction forces they experience during everyday...
The relationship between early growth and adult femoral geometry has not been studied previously. In...
Femoral shape changes during the course of human growth, transitioning from a subcircular tube to a ...
Walking gait is generally held to reach maturity, including walking at adult-like velocities, by 7-8...
Recognition of the changes during gait that occur normally as a part of growth is essential to preve...
Dynamic parameters have been commonly explored to characterize the biomechanical maturation of child...
Long-term follow-up studies on children with surgically treated developmental dysplasia of the hip (...
Trabecular bone structure in adulthood is a product of a process of modelling during ontogeny and re...
How does gait-specific pattern generation evolve in early infancy? The idea that neural and biomecha...
In order to show the basic characteristics of gait development of healthy children, this paper invol...
This study aims at giving an insight into the causative forces of walking in toddlers. Therefore, jo...
The aims of this study were to assess the characteristics of three-dimensional displacement of the c...
International audienceThe authors studied the development of postural adjustments associated with th...
On earth, body weight is an inherent constraint, and accordingly, load-regulating mechanisms play an...
Bones’ shapes and structures adapt to the muscle and reaction forces they experience during everyday...
The relationship between early growth and adult femoral geometry has not been studied previously. In...
Femoral shape changes during the course of human growth, transitioning from a subcircular tube to a ...
Walking gait is generally held to reach maturity, including walking at adult-like velocities, by 7-8...
Recognition of the changes during gait that occur normally as a part of growth is essential to preve...
Dynamic parameters have been commonly explored to characterize the biomechanical maturation of child...
Long-term follow-up studies on children with surgically treated developmental dysplasia of the hip (...
Trabecular bone structure in adulthood is a product of a process of modelling during ontogeny and re...
How does gait-specific pattern generation evolve in early infancy? The idea that neural and biomecha...
In order to show the basic characteristics of gait development of healthy children, this paper invol...
This study aims at giving an insight into the causative forces of walking in toddlers. Therefore, jo...
The aims of this study were to assess the characteristics of three-dimensional displacement of the c...
International audienceThe authors studied the development of postural adjustments associated with th...
On earth, body weight is an inherent constraint, and accordingly, load-regulating mechanisms play an...
Bones’ shapes and structures adapt to the muscle and reaction forces they experience during everyday...
The relationship between early growth and adult femoral geometry has not been studied previously. In...