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Journal Abstract Search


121 related items for PubMed ID: 16423596

  • 21. Reticulocyte enrichment of zinc protoporphyrin/heme discriminates impaired iron supply during early development.
    Blohowiak SE, Chen ME, Repyak KS, Baumann-Blackmore NL, Carlton DP, Georgieff MK, Crenshaw TD, Kling PJ.
    Pediatr Res; 2008 Jul; 64(1):63-7. PubMed ID: 18360311
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  • 22. Vitamin E levels during early iron supplementation in preterm infants.
    Arnon S, Regev RH, Bauer S, Shainkin-Kestenbaum R, Shiff Y, Bental Y, Dolfin T, Litmanovitz I.
    Am J Perinatol; 2009 May; 26(5):387-92. PubMed ID: 19263337
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  • 23. Zinc-iron, but not zinc-alone supplementation, increased linear growth of stunted infants with low haemoglobin.
    Fahmida U, Rumawas JS, Utomo B, Patmonodewo S, Schultink W.
    Asia Pac J Clin Nutr; 2007 May; 16(2):301-9. PubMed ID: 17468087
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  • 24. Comparison of two markers of iron sufficiency and neurodevelopmental outcomes.
    German KR, Vu PT, Neches S, Juul SE.
    Early Hum Dev; 2021 Jul; 158():105395. PubMed ID: 34082259
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  • 27. Zinc protoporphyrin/haem ratio and plasma ferritin in preterm infants.
    Griffin IJ, Reid MM, McCormick KP, Cooke RJ.
    Arch Dis Child Fetal Neonatal Ed; 2002 Jul; 87(1):F49-51. PubMed ID: 12091292
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  • 28. Auxologic, biochemical and clinical (ABC) profile of low birth weight babies- a 2-year prospective study.
    Elizabeth KE, Krishnan V, Zachariah P.
    J Trop Pediatr; 2007 Dec; 53(6):374-82. PubMed ID: 17595203
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  • 29. Iron supplementation in preterm infants: a study comparing the effect and tolerance of a Fe2+ and a nonionic FeIII compound.
    Naude S, Clijsen S, Naulaers G, Daniels H, Vanhole C, Devlieger H.
    J Clin Pharmacol; 2000 Dec; 40(12 Pt 2):1447-51. PubMed ID: 11185665
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  • 30. Randomized trial of early versus late enteral iron supplementation in infants with a birth weight of less than 1301 grams: neurocognitive development at 5.3 years' corrected age.
    Steinmacher J, Pohlandt F, Bode H, Sander S, Kron M, Franz AR.
    Pediatrics; 2007 Sep; 120(3):538-46. PubMed ID: 17766527
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  • 33. The efficacy of micronutrient supplementation in reducing the prevalence of anaemia and deficiencies of zinc and iron among adolescents in Sri Lanka.
    Hettiarachchi M, Liyanage C, Wickremasinghe R, Hilmers DC, Abrams SA.
    Eur J Clin Nutr; 2008 Jul; 62(7):856-65. PubMed ID: 17522609
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  • 36. Double-blind, placebo-controlled trial comparing effects of supplementation of two micronutrient sprinkles on fatty acid status in Cambodian infants.
    Agostoni C, Giovannini M, Sala D, Usuelli M, Livio L, Francescato G, Braga M, Riva E, Martiello A, Colombo C, Marangoni F, Galli C.
    J Pediatr Gastroenterol Nutr; 2007 Jan; 44(1):136-42. PubMed ID: 17204967
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  • 38. Screening for iron deficiency in surgical patients based on noninvasive zinc protoporphyrin measurements.
    Füllenbach C, Stein P, Glaser P, Triphaus C, Lindau S, Choorapoikayil S, Schmitt E, Zacharowski K, Hintereder G, Hennig G, Homann C, Stepp H, Spahn GH, Kaserer A, Schedler A, Meybohm P, Spahn DR.
    Transfusion; 2020 Jan; 60(1):62-72. PubMed ID: 31758575
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  • 39. Sex differences in prevalence of anaemia and iron deficiency in infancy in a large multi-country trial in South-East Asia.
    Wieringa FT, Berger J, Dijkhuizen MA, Hidayat A, Ninh NX, Utomo B, Wasantwisut E, Winichagoon P.
    Br J Nutr; 2007 Nov; 98(5):1070-6. PubMed ID: 17537292
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  • 40. Iron supplementation maintains ventilatory threshold and improves energetic efficiency in iron-deficient nonanemic athletes.
    Hinton PS, Sinclair LM.
    Eur J Clin Nutr; 2007 Jan; 61(1):30-9. PubMed ID: 16835600
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