The weight, density and percentage ash weight of the dry, fatfree osseous human skeleton have been examined from 16 weeks of gestation to 100 years of age. Data were drawn from 426 skeletons of American Whites and Negroes of both sexes.Weight increases exponentially in the fetus and continues to increase to early adulthood, most rapidly in the second decade. A decrease appears about the fourth decade and continues gradually. Estimated loss in skeletal weight throughout the adult period is, on the average, 15.6 gm per year. Proportionate contributions of divisions of the skeleton to its total weight change with age.Densities of bones follow the changing weight pattern. Volume and weight increase concomitantly to adulthood, when weight decreases but not volume.Percentage ash weight increases slightly in the total skeleton and in some bones during the fetal period, with no significant trend thereafter, indicating that change in weight of a dry, fat-free bone is accompanied by change in ash weight.Race and sex differences are not evident in the fetal skeleton, but become marked by the second decade of life: Negro skeletons exceed White skeletons and male skeletons exceed female skeletons in mean weight and density and, to a lesser degree, in percentage ash weight.Growth and development of the human skeleton have long been subjects of interest to anatomists, anthropologists and physicians. Yet, surprisingly, there are comparatively few quantitative data regarding such basic considerations as the sequential changes throughout fetal and postnatal life in weight or length of individual bones, in the relationship of the weight of individual bones to that of the whole skeleton, and in the relative proportions of the organic and inorganic components of bone in individuals of different race or sex.Our interest in these problems goes back more than 20 years when we began an extended series of studies on the weight of the skeleton. These studies include (1) estimates of the weight of the skeleton in the adult (Trotter, '54); ( 2 ) an attempt to determine how skeletal weight might be estimated in the living subject (Merz, Trotter and Peterson, '56); ( 3 ) what relationship exists between the weight and the volume of a particular bone (Broman, ANAT. REC., 179: 1-18. Trotter and Peterson, '58; Trotter, Broman and Peterson, '58, '59, '60; Trotter and Peterson, '70a; Trotter, '71); ( 4 ) how much of the weight of the skeleton is attributable to its mineral content (Trotter and Peterson, '55, '62; Trotter, '72, '73); and ( 5 ) to what extent skeletal weight varies in individuals drawn from different race, sex and age groups (Trotter and Peterson, '68, '69, '70b). Since this work has been published in several different journals over an extended period of time, it seems worthwhile to collate and summarize these earlier findings sequentially as related to age, and to present results of additional analyses of these same data.The skeletons had been collected over the last 50, or more, years, and all were obtained from cadav...
