Kupferstoffwechselbilanzen bei S�uglingen

Kleinbaum, H

doi:10.1007/bf00439501

Cited by 13 publications

(2 citation statements)

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“…Breast-fed full-term infants showed high positive balances in the first collection period caused by a high Cu intake. Kleinbaum (1962) and Cavell & Widdowson (1964) found, under comparable daily intakes of lOOpg/kg or more, that 50% of the balances were negative. In both studies, however, the infants were somewhat younger: the infants of Cavell & Widdowson (1964) were studied at the end of the first week and Kleinbaum (1962) studied infants in the second week of life.…”

Section: Term Infantsmentioning

confidence: 87%

“…Whereas little information is available from the literature on Cu balances in full-term infants, preterm infants have been more widely studied, because deficiency states (on the basis of low stores) are more likely when intake is insufficient. If the daily intake is 5CL100 ,ug/kg, retentions in the young newborn infants are generally negative (Kleinbaum, 1962;Dauncey et al 1977;Mendelson et al 1982). The deficiency decreases when newborn infants get older.…”

Section: Preterm Infantsmentioning

confidence: 99%

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Longitudinal manganese and copper balances in young infants and preterm infants fed on breast-milk and adapted cow's milkformulas

et al. 1989

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I . Mn and Cu intake and retention in twenty full-term infants and six preterm infants were studied on the basis of 72 h balances. The age of the infants was 2-16 weeks and the gestational age of the preterm infants (triplets) 34 and 36 weeks. Three nutrition schemes were pursued : breast-fed, formula-fed with unsupplemented adapted formula and formula-fed with trace element supplementation.2. The mean M n concentration of all breast-milk samples (n 2339) was 6.2 pg/l. The two formulas had similar Mn concentrations (77 and 99 pg/I) but had different Fe, Cu (121 and 619 ,ug/l), Zn and I contents. The mean Cu concentration in mother's milk was 833 yg/l.3 . The following mean daily Mn intakes and retentions (pg/kg) respectively were measured: breast-fed fullterm 1.06 (SD 0.43) and 0.43 (SD 0.65), formula-fed full-term 14.2 (SD 3.1) and 2.8 (SD 4%), formula-fed preterm 15.0 (SD 2.2) and 0.06 (SD 5.87). The results for Cu were 114.5 (SD 22.3) and 88.0 (SD 46.5) pg/kg in breast-fed, 19-8 (SD 4.2) and 4.6 (-11.5-9.6) in the unsupplemented formula-fed and 106.4 (SD 18.9) and 55.5 (SD 20.3) in the supplemented formula full-term infant group. No significant influence of the trace element contents of the formulas on the relative retention of Mn or Cu was found.4. Young preterm infants, and to some degree young full-term infants, often had negative Mn balances caused by a high faccal excretion. The formulas with a Mn concentration below 100 pg/l gave a sufficient supply of Mn. Preterm infants fed on the unsupplemented formula had a marginal Cu supply and their first balances were negative (-3.8 (SD 1.8) pglkg).5. In accordance with the estimated safe and adequate daily dietary intakes (recommended dietary allowances), formula-fed infants receive much more Mn than breast-fed infants and their absolute retention is higher.6. Cu from breast-milk had a significantly better biological availability than that from cow's milk formula. If retentions similar to those in breast-fed infants are intended, we conclude, therefore, that cow's milk formula should be fortified with Cu up to a level of at least 600 pg/l.The biological relevance of Mn was noted in poultry and rats showing defective calcification of the otoliths (resulting in ataxia) and the skeleton and other defects based on a depressed mucopolysaccharide synthesis (Hurley, 1985). Furthermore, Mn-deficient rats have second-generation offspring which show an abnormal glucose tolerance test, possibly caused by decreased insulin output (Hurley, 1985). Mn deficiency in man has been observed only once in a patient under parenteral nutrition (Doisy, 1974). He suffered from a prolonged prothrombin clotting time. In newborns and infants no symptoms of deficiency have yet been identified. The vitamin K-dependent coagulopathy in breast-fed infants, however, could be hypothetically connected to Mn deficiency by low Mn intake in these children. At this age it should be relatively easy to diagnose a deficiency, as body-weightrelated increase of tissues and the need for nutrients are highe...

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