Tissue selenium accretion in premature and full-term human infants and children

Bayliss, Pauline; Buchanan, Barbara E.; Hancock, Rebecca; Zlotkin, Stanley

doi:10.1007/bf02916547

Cited by 33 publications

(19 citation statements)

References 11 publications

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“…During pregnancy, selenium progressively accumulates in the organs of the growing fetus (Bayliss et al, 1985;Zachara et al, 2001b). Fetal hepatic selenium concentration appears relatively constant during gestation, while it falls in the months following birth, concurrent with stable selenium concentrations in other organs (Westermarck, 1977;Bayliss et al, 1985). This indicates that the liver may act as a store of selenium during gestation and selenium may be redistributed after birth to other organs.…”

Section: Distribution To Tissuesmentioning

confidence: 99%

Scientific Opinion on Dietary Reference Values for selenium

Products¹

2014

EFSA Journal

221

109

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Following a request from the European Commission, the Panel on Dietetic Products, Nutrition and Allergies (NDA) derived Dietary Reference Values (DRVs) for selenium. The levelling off of plasma selenoprotein P (SEPP1) concentration was considered indicative of an adequate supply of selenium to all tissues and to reflect saturation of the functional selenium body pool, ensuring that selenium requirement is met. This criterion was used for establishing DRVs for selenium in adults. Evidence from human studies on the relationship between selenium intake and plasma SEPP1 concentration was reviewed. Given the uncertainties in available data on this relationship, they were considered insufficient to derive an Average Requirement. An Adequate Intake (AI) of 70 µg/day for adults was set. A review of observational studies and randomised controlled trials that investigated the relationship between selenium and health outcomes did not provide evidence for additional benefits associated with selenium intake beyond that required for the levelling off of SEPP1. No specific indicators of selenium requirements were available for infants, children or adolescents. For infants aged 7-11 months, an AI of 15 µg/day was derived by extrapolating upwards from the estimated selenium intake with breast milk of younger exclusively breast-fed infants, taking into account differences in reference body weights. For children and adolescents, the AIs for selenium were extrapolated from the AI for adults by isometric scaling and application of a growth factor. AIs range from 15 µg/day for children aged one to three years to 70 µg/day for adolescents aged 15-17 years. Considering that adaptive changes in the metabolism of selenium occur during pregnancy, the AI set for adult women applies to pregnancy. For lactating women, an additional selenium intake of 15 µg/day was estimated to cover the amount of selenium secreted in breast milk, and an AI of 85 µg/day was set.

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Section: Distribution To Tissuesmentioning

confidence: 99%

Scientific Opinion on Dietary Reference Values for selenium

Products¹

2014

EFSA Journal

221

109

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“…Similar to zinc and copper, selenium stores are low at birth, so if the preterm infant is provided with selenium-free TPN, there is a risk of the development of a selenium deficiency [29]. Since selenium, like vitamin E, is an antioxidant, neonatologists have speculated that selenium supplementation may protect infants from diseases associated with oxygen free radical damage.…”

Section: Copper Selenium Chromium Iodine and Manganesementioning

confidence: 99%

Special Micronutrient Concerns in Premature Infants: Implications for Enteral and Parenteral Feeding

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2003

Nestl� Nutrition Workshop Series: Pediatric Program

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“…Die Kenntnisse über Bioverfügbarkeit, Interaktionen und Langzeitfolgen der Selenzuruhr sind gering [30]. Ursache der niedrigen Selenkonzentration in den ersten Lebensmonaten ist eine niedrige Selenzufuhr, ein Defizit wird anscheinend durch Depots in verschiedenen Geweben [11] vermieden. Eine bessere Aussagekraft über den Versorgungsstatus an Selen verspricht die Bestimmung des Elements in den Erythrozyten, die mit ca.…”

Section: Manganunclassified

“…Selen: Die Selenspiegel verschiedener Gewebe sind bei der Geburt höher als im späteren Kindesalter [11]. Möglicherweise enthalten die Leber und andere Organe Selenspeicher, durch die eine niedrige Selenzufuhr in den ersten Lebensmonaten überbrückt werden kann.…”

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