Femoral angle development and locomotor progression in children from 18th and 19th century London

Abstract: The external geometry of the human femur changes markedly during early ontogeny as children learn to sit, crawl, stand, and eventually walk. Here we examine the pattern of femoral angle development in a sample of children from 18th and 19th century London and evaluate how angular changes correspond to key stages of childhood locomotor development. Metaphyseal bicondylar angle (BCA) and neck‐shaft angle (NSA) measurements were collected from radiographs of a documented archeological sample of 112 children aged … Show more

“…These shifts in cross‐sectional structure are part of a suite of changes that characterize the immature skeleton during the time of locomotor development. Gross structural modifications of the femur governed by cortical bone (re)modeling and mechanical loading also take place, including alterations in both neck‐shaft angle and bicondylar angle that together increase bipedal efficiency and maintain joint stability (Swan et al, 2021; Tardieu, 2010).…”

The impact of vitamin D deficiency on cortical bone area and porosity at the femoral midsection in children from post‐medieval London

“…These shifts in cross‐sectional structure are part of a suite of changes that characterize the immature skeleton during the time of locomotor development. Gross structural modifications of the femur governed by cortical bone (re)modeling and mechanical loading also take place, including alterations in both neck‐shaft angle and bicondylar angle that together increase bipedal efficiency and maintain joint stability (Swan et al, 2021; Tardieu, 2010).…”

The impact of vitamin D deficiency on cortical bone area and porosity at the femoral midsection in children from post‐medieval London