All authors read and approved the final manuscript.”
“Introduction Childhood and adolescent fractures are a public health concern. One of every two children will break at least one bone between birth and late adolescence [1], making fractures the most frequent injury causing
hospitalization during childhood [2]. Fractures in children may cause a series of long-term harmful consequences for health, including secondary osteoarthritis, alignment problems of the fractured bone, and acute compartment syndrome [3, 4]. Most studies on fractures investigate older adults, mainly due to the high burden of osteoporotic disease. However, the incidence of fractures in childhood and adolescence is as high as in the elderly [5–7], and studies in young subjects are needed for a better understanding of the determinants of fractures [8]. A cohort study from New Zealand showed that check details this website childhood and adolescent fractures were associated with early life exposures, including birth length, weight, and height at age 3 years and from 5 to 18 years [8]. The ideal design for evaluating the impact of early life exposures on fracture risk is a prospective study in which subjects are followed-up from
birth to adulthood. Such studies are rare, particularly in low and middle-income settings [9]. We explored the effect of early life variables, such household socioeconomic status, maternal characteristics, birth outcomes, and gender, on the risk of fractures from birth aminophylline to early adolescence in a prospective cohort study carried out in Brazil. Materials and methods All hospital-delivered children born in 1993 in the city of Pelotas
were enrolled in a birth cohort study (N = 5,249), representing over 99% of all deliveries in the city at that year [10]. Pelotas is a medium-sized Southern Brazilian city (population 340,000 inhabitants) located near the border with Argentina and Uruguay. Mothers were interviewed soon after delivery on socioeconomic, demographic, behavioral, gestational, and delivery characteristics and newborns were weighed using calibrated pediatric scales. Birth length was also measured, as well as gestational age using the Dubowitz method [11]. In 2004–2005, all cohort members were sought for a follow-up visit. Several strategies were used to guarantee high follow-up rates. A census of all schools in Pelotas was carried out and children born in 1993 were linked with their cohort identification number. In addition, a census of all 100,000 households in the city was carried out in the search of children born in 1993. Again, those located were linked with their cohort identification number. Other strategies were used for the few children not located using these two strategies. Deaths were monitored using official mortality statistics. The incidence of fractures was investigated, as well as the anatomic site of the fracture and the age of the cohort member when it happened.