Abstract
This study aimed to evaluate changes in tibial bone speed of sound (SOS) over time, in preterm and term infants during infancy, in addition to identifying factors influencing the development of tibial SOS during infancy. Preterm (n = 155) and term (n = 65) infants were enrolled in this study. Tibial bone SOS was measured using quantitative ultrasonography (QUS) on the left tibia of newborn infants after birth (within 7 days), at 1 month old, and then every 2 months until subjects were approximately 12–15 months old. Follow-up checks included anthropometric measurements and tibial bone SOS. Mean tibial bone SOS at birth was significantly higher in term infants (mean ± SD, 2968.5 ± 99.7 m/s) than in preterm infants (2912.2 ± 122.6 m/s). Values of follow-up tibial bone SOS declined for the first 4 months, and then increased gradually until 12–15 months old. This increasing trend was greater in preterm infants after 2 months of corrected age than in term infants. There were no significant differences by 12–15 months of age between preterm and term infants. A longitudinal mixed-effect model controlling for internal correlations and other covariates in the two groups showed that age and the SOS value at birth were important factors affecting the tibial bone SOS in both preterm and term newborn infants during infancy. There are significant differences in the pattern of change in tibial bone SOS values between preterm and term infants during the first 12–15 months of life. Age and SOS value at birth were important factors affecting the pattern of tibial bone SOS change in both preterm and term newborn infants during infancy.
Highlights
Given that the rates of osteoporosis is reportedly increasing in all demographic groups [1, 2], it is important to understand factors associated with bone strength and development in newborn infants, as a means of creating preventive strategies against osteoporotic fracture for future generations
The remaining 56 (36.1%) preterm infants weighed more than 1500 g at birth with corresponding gestation of
There was a total of 1352 tibial bone speed of sound (SOS) and anthropometric measurements taken from enrolled infants between birth and 12–15 months old
Summary
Given that the rates of osteoporosis is reportedly increasing in all demographic groups [1, 2], it is important to understand factors associated with bone strength and development in newborn infants, as a means of creating preventive strategies against osteoporotic fracture for future generations. Epidemiological studies have demonstrated a relationship between birth weight, weight in infancy, and adult bone mass [3, 4]. Fetal and neonatal periods are critical to bone growth and may correlate with skeletal strength in later life. Preterm infants have a PLOS ONE | DOI:10.1371/journal.pone.0166434. Whether a different pattern of change in bone status between preterm and term infants exists in later life remains to be identified
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