Radiographically determined widths of bone muscle and fat in the upper arm and calf from age 3-18 years.

In the Harpenden Growth Study arm and calf radiographs were taken on 280 boys and 225 girls twice a year over varying periods. Widths of bone, muscle and fat halfway down the arm and at maximum calf diameter were measured, with widths of bone cortex and medulla where possible. Mean distance and velocity curves are given for chronological age 3-18 years together with curves based on time from peak-height velocity (PHV) and time from peak muscle velocity over the pubertal period. Muscle widths have their peak velocity more nearly coincident with the sitting height peak than with PHV; in the average child the whole muscle spurt lasts two years from start to finish. Calf muscle is much more pronounced in girls in comparison with boys than is arm muscle; this is true at all ages, with sex differences at maturity amounting to 10% for calf and 20% for arm. Humerus cortex has a marked spurt in both sexes, with the peak contemporaneous with the muscle peak. Both humerus and tibia medulla widths have a spurt in boys, but none in girls, where the means do not change from age 11 onwards. The average girl actually loses fat in the arm for a year at puberty, a result which contrasts with the velocity curve derived from mass cross-sectional data. Correlations between widths of bone in arm and calf average 0.5 during the pre-adolescent years and 0.4 at maturity; those between muscle widths in arm and calf 0.4 in pre-adolescence and 0.4 again at maturity. Between-tissue correlations are very low at all ages.

[1]  S. Garn The earlier gain and the later loss of cortical bone, in nutritional perspective , 1970 .

[2]  J M Tanner,et al.  Standards from birth to maturity for height, weight, height velocity, and weight velocity: British children, 1965. II. , 1966, Archives of disease in childhood.

[3]  Garn Sm,et al.  Fat thickness and growth progress during infancy. , 1956 .

[4]  H. D. Patterson Sampling on Successive Occasions with Partial Replacement of Units , 1950 .

[5]  J. Tanner RADIOGRAPHIC STUDIES OF BODY COMPOSITION IN CHILDREN AND ADULTS , 1965 .

[6]  S. Garn,et al.  Concurrent fat loss and fat gain. , 1956, American journal of physical anthropology.

[7]  J. Tanner,et al.  Revised standards for triceps and subscapular skinfolds in British children. , 1975, Archives of disease in childhood.

[8]  R. Malina 2 Quantification of Fat, Muscle and Bone in Man , 1969, Clinical orthopaedics and related research.

[9]  J M TANNER,et al.  Some notes on the reporting of growth data. , 1951, Human biology.

[10]  P. S. Gindhart Growth standards for the tibia and radius in children aged one month through eighteen years. , 1973, American journal of physical anthropology.

[11]  E. L. Reynolds,et al.  Sex differences in the distribution of tissue components in the human leg from birth to maturity , 1948, The Anatomical record.

[12]  E. L. Reynolds Distribution of tissue components in the female leg from birth to maturity , 1948, The Anatomical record.

[13]  J. Tanner,et al.  Comparative rapidity of response of height, limb muscle and limb fat to treatment with human growth hormone in patients with and without growth hormone deficiency. , 1977, Acta endocrinologica.

[14]  E. L. Reynolds,et al.  Growth patterns of identical triplets from 8 through 18 years. , 1947 .

[15]  C. Shaw,et al.  Studies from the Center for Research in Child Health and Development, School of Public Health, Harvard University. 3. The growth of bone, muscle and overlying tissues as revealed by studies of roentgenograms of the leg area. , 1940 .

[16]  James M. Tanner,et al.  Variations in pattern of pubertal changes in girls. , 1969 .

[17]  Garn Sm,et al.  Sex and age differences in the composition of the adult leg. , 1953 .

[18]  J M Tanner,et al.  Variations in the Pattern of Pubertal Changes in Boys , 1970, Archives of disease in childhood.

[19]  J M Tanner,et al.  Relative importance of growth hormone and sex steroids for the growth at puberty of trunk length, limb length, and muscle width in growth hormone-deficient children. , 1976, The Journal of pediatrics.

[20]  A. R. Frisancho,et al.  Subperiosteal and endosteal bone apposition during adolescence. , 1970, Human biology.

[21]  F. Johnston,et al.  Endosteal deposition of bone at the midshaft of the second metacarpals of adolescent females , 1969, The Anatomical record.

[22]  Garn Sm Fat, body size and growth in the newborn. , 1958 .

[23]  F. Johnston,et al.  Age changes in the composition of the upper arm in Philadelphia children. , 1966, Human biology.

[24]  W. A. Marshall Interrelationships of skeletal maturation, sexual development and somatic growth in man. , 1974, Annals of human biology.

[25]  E. L. Reynolds Sexual maturation and the growth of fat, muscle and bone in girls. , 1946, Child development.

[26]  D. Hewitt SOME FAMILIAL CORRELATIONS IN HEIGHT, WEIGHT AND SKELETAL MATURITY , 1957, Annals of human genetics.

[27]  S. Garn,et al.  Fat thickness and developmental status in childhood and adolescence. , 1960, A.M.A. journal of diseases of children.

[28]  J. Tanner,et al.  The adolescent growth spurt of boys and girls of the Harpenden growth study. , 1976, Annals of human biology.

[29]  M. Maresh Bone, muscle and fat measurements. Longitudinal measurements of the bone, muscle and fat widths from roentgenograms of the extremities during the first six years of life. , 1961, Pediatrics.

[30]  Reynolds El The fat/bone index as a sex-differentiating character in man. , 1949 .

[31]  E. Hunt,et al.  The growth and interrelations of skinfolds and brachial tissues in man. , 1958, American journal of physical anthropology.

[32]  F. Johnston,et al.  Developmental changes in compact bone relationships in the second metacarpal. , 1966, Human biology.

[33]  E. L. Reynolds The distribution of subcutaneous fat in childhood and adolescence. , 1950 .

[34]  J. M. Tanner The place of human biology in medical education: suggestions for a revised preclinical course in the light of the General Medical Council 1957 recommendations. , 1958, Lancet.

[35]  E. L. Reynolds,et al.  A comparison of certain aspects of body structure and body shape in 200 adults. , 1950, American journal of physical anthropology.

[36]  N. Cameron,et al.  Investigation of the mid-growth spurt in height, weight and limb circumferences in single-year velocity data from the London, 1966-67 growth survey. , 1980, Annals of human biology.

[37]  M. Maresh Changes in tissue widths during growth. Roentgenographic measurements of bone, muscle, and fat widths from infancy through adolescence. , 1966, American journal of diseases of children.

[38]  O. Lombard Breadth of bone and muscle by age and sex in childhood studies based on measurements derived from several roentgenograms of the calf of the leg. , 1950, Child development.

[39]  E. L. Reynolds DIFFERENTIAL TISSUE GROWTH IN THE LEG DURING CHILDHOOD , 1944 .

[40]  Bonnard Gd Cortical thickness and diaphysial diameter of the metacarpal bones from the age of three months to eleven years. , 1968 .

[41]  J. Tanner,et al.  A Caliper for measuring Photographs, X-Rays and Drawings , 1955, Nature.

[42]  M. Baines,et al.  A new family of mathematical models describing the human growth curve. , 1978, Annals of human biology.