A prospective longitudinal study of urinary excretion of a bone resorption marker in adolescents

Abstract

In growing subjects, the rates of bone resorption and bone deposition are substantially larger than in non-growing individuals. The purpose of this study was to measure the urinary excretion of a specific bone resorption marker in function of adolescent growth stages in a prospective longitudinal study. A cohort of 60 adolescents (28 male and 32 female) was followed for 3.4 years (range 1.7-4.6 years). Monthly measurements of height, weight and urinary excretion of a bone resorption marker, collagen type I N-telopeptides (NTx), were made. Changes in standing height were used to classify the adolescents into one or more of six adolescent growth stages: pre-pubertal growth (continuous moderate growth rate), ascending growth spurt (increasing growth rate), peak growth spurt (growth rate higher than 7cm/year for at least 6 months), descending growth spurt (continuous decrease in growth rate), end of growth (growth rate between 0 and 2cm/year), and no growth. An increase in NTx excretion from the pre-pubertal to peak growth spurt of about 33% was found (44% and 27% for females and males respectively). The decreasing growth rate after the pubertal growth spurt coincided with a clear decrease in NTx excretion. These differences were statistically significant, except between the prepubertal and ascending growth stage. Individual mean NTx excretion during each growth stage was correlated with the individual's growth rate during that time (r = 0.81). There was large inter-and intra individual variability. In non-growing adolescents (growth rate 0cm/y) NTx excretion levels were 4-7 times greater than in adults. In all females, menarche was followed by a decrease in NTx excretion. In conclusion, the excretion of a specific bone resorption marker, NTx, was correlated with the changes in growth rate during adolescence, both for males and females. There were large inter and intra-individual differences in NTx excretion during the different growth stages. In adolescents who reached their adult height at the end of the pubertal growth spurt, bone resorption decreased dramatically but remained 4-7 fold higher than in adults.