Normative data of dual-energy x-ray absorptiometry body composition for healthy preterm and term infants are provided and can therefore be used in research and in clinical practice.
The reproducibility, accuracy, and precision of dual-energy X-ray absorptiometry (DXA) was assessed by scanning 13 piglets (1471-5507 g) in triplicate. In four piglets, fat content was increased with porcine lard around the abdomen; additional measurements were performed on these animals. Reproducibility in DXA measurements from the animals without added fat was 0.09% for body weight, 1.95% for bone mineral content (BMC), and 5.35% for fat content. DXA estimates of body weight, BMC, and fat content were significantly correlated with scale body weight, ash weight, chemical calcium, and chemical fat. Body weight was measured accurately but fat content was overestimated by DXA. Mean BMC estimated by DXA represented 48% of ash weight and 215% of calcium content. The precision of DXA was 0.23% for body weight, 10.99% for ash weight, and 4.44% for calcium content. The precision of DXA for fat content was poor. However, for measurements performed in piglets with > 250 g fat, the precision was 8.85%. Thirty appropriate-forgestational-age term human neonates (birth weight: 3188 +/- 217 g) were scanned once during the first week of life. BMC and fat content were 54 +/- 6 and 470 +/- 92 g, respectively, which corresponded to 26.4 +/- 2.6 g calcium and 427 +/- 82 g fat. These were close to the reference values previously determined by chemical analysis. This study suggests that DXA is accurate and reliable for measurement of calcium and fat contents in human neonates. Further refinements would be beneficial for determining fat content in preterm human infants.
The aims of this study were to compare beat frequencies of tracheal and ependymal cilia and the beat frequencies of ependymal cilia from infant and adult rats. The length of respiratory and ependymal cilia of infant and adult rats was also compared. We have developed an ex vivo model that allows ependymal and respiratory ciliary beat frequency to be measured with a high-speed video system. The beat frequencies of cilia, incubated at 37 degrees C, were measured after an incubation period of 30 min. Ependymal cilia beat at a similar frequency in 10- to 15-d-old rats (mean 38.8 Hz: 95% confidence intervals 37.1-40.6) as in adult animals (mean 40.7 Hz: 95% confidence intervals 38.5-42.9). However, respiratory cilia from adult animals beat (mean 20.9 Hz: 95% confidence intervals 14-27) at a significantly (p = 0.003) lower frequency than ependymal cilia. Ependymal cilia (mean length +/- SD: 8.2 +/- 0.3 microm) measured by scanning electron microscopy were significantly (p = 0.001) longer than respiratory cilia (5.5 +/- 0.6 microm) from the trachea of 9- to 15-d-old rats. Cilia did not grow longer between the time the rats were 9-15 d old and adulthood. Adult respiratory and ependymal ciliary length (mean +/- SD) were 5.6 +/- 0.5 microm and 8.1 +/- 0.2 microm, respectively. In summary, ependymal cilia beat at approximately twice the rate of respiratory cilia and are significantly longer.
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