Do bone mineral content and density determine fracture in children? A possible threshold for physical activity.

A population-based British cohort study, including approximately 6% of the population, was used to derive age- and sex-specific incidence rates of fractures during childhood. Fractures were more common among boys than girls, with peak incidences at 14 and 11 years of age, respectively. At childhood peak, incidence rates were only surpassed later in life at 85 years of age among women and never among men. Fractures account for 25% of accidents and injuries in childhood; however, the descriptive epidemiology of childhood fractures remains uncertain. Age- and sex-specific incidence rates for fractures at various skeletal sites were derived from the General Practice Research Database (a population-based British cohort containing computerized medical records of approximately 7,000,000 residents) between 1988 and 1998. A total of 52,624 boys and 31,505 girls sustained one or more fractures over the follow-up period, for a rate of 133.1/10,000 person-years. Fractures were more common in boys (161.6/10,000 person-years) than girls (102.9/10,000 person-years). The most common fracture in both sexes was that of the radius/ulna (30%). Fracture incidence was greater among boys than girls at all ages, with the peak incidence at 14 years of age among boys and 11 years of age among girls. Marked geographic variation was observed in standardized fracture incidence, with significantly (p < 0.01) higher rates observed in Northern Ireland, Wales, and Scotland compared with southeast England. Fractures are a common problem in childhood, with around one-third of boys and girls sustaining at least one fracture before 17 years of age. Rates are higher among boys than girls, and male incidence rates peak later than those among females. At their childhood peak, the incidence of fractures (boys, 3%; girls, 1.5%) is only surpassed at 85 years of age among women and never among men. The most common site affected in both genders is the radius/ulna. Studies to clarify the pathogenesis of these fractures, emphasizing bone fragility, are now required.

Fractures are common in children, and some studies suggest an increasing incidence. Data on population-based long-term trends are scarce. In order to establish fracture incidence and epidemiologic patterns, we carried out a population-based study in Helsinki, Finland. All fractures in children aged 0 to 15 years were recorded from public health care institutions during a 12-month period in 2005. Details regarding patient demographics, fracture site, and trauma mechanism were collected. All fractures were confirmed from radiographs. Similar data from 1967, 1978, and 1983 were used for comparison. In 2005, altogether 1396 fractures were recorded, 63% in boys. The overall fracture incidence was 163 per 10,000. Causative injuries consisted of mainly falls when running or walking or from heights less than 1.5 m. Fracture incidence peaked at 10 years in girls and 14 years in boys. An increase in fracture incidence was seen from 1967 to 1983 (24%, p < .0001), but a significant decrease (18%, p < .0001) was seen from 1983 to 2005. This reduction was largest in children between the ages of 10 and 13 years. Despite the overall decrease and marked decrease in hand (-39%, p < .0001) and foot (-48%, p < .0001) fractures, the incidence of forearm and upper arm fractures increased significantly by 31% (p < .0001) and 39% (p = .021), respectively. Based on these findings, the overall incidence of childhood fractures has decreased significantly during the last two decades. Concurrently, the incidence of forearm and upper arm fractures has increased by one-third. The reasons for these epidemiologic changes remain to be elucidated in future studies. Copyright © 2010 American Society for Bone and Mineral Research.

Osteoporosis and associated fractures are a major health concern in Western industrialized nations. Exercise during growth is suggested to oppose the involutional bone loss later in life by increasing peak bone mass. The primary aim of the present meta-analysis was to provide a robust estimate of the effect of weight-bearing activities (WBAs) on bone mineral content (BMC) and areal bone mineral density (aBMD), during childhood and adolescence. To locate relevant studies up to June 2012, computerized searches of multiple bibliographic databases and hand searches of key journals and reference lists were performed. Results were extracted by two independent reviewers. The quality of the included trials was assessed via the Physiotherapy Evidence Database (PEDro) score. The study group effect was defined as the difference between the standardized mean change for the treatment and control groups divided by the pooled pretest SD. From 109 potentially relevant studies, only 27 met the inclusion criteria. The analyzed training programs were capable of significantly increasing BMC and aBMD during growth. However, the weighted overall effect sizes (ESs) for changes in BMC (ES 0.17; 95% confidence interval [CI], 0.05-0.29; p < 0.05) and aBMD (ES 0.26; 95% CI, 0.02-0.49) were small. Stepwise backward regression revealed that more than one-third of the observed variance (r(2)  = 0.35) between subgroups of the BMC dataset could be explained by differences in the amount of habitual calcium intake per day (beta 0.54, p < 0.01) and the maturational stage (beta -0.28, p < 0.01) at baseline. No significant moderators were identified for aBMD, possibly due to the small number of trials investigating WBAs on aBMD. The results of this meta-analysis conclude that WBAs alongside high calcium intake provide a practical, relevant method to significantly improve BMC in prepubertal children, justifying the application of this exercise form as an osteoporosis prophylaxis in this stage of maturity.