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Neonatal Haematology. Irene Roberts
Читать онлайн.Название Neonatal Haematology
Год выпуска 0
isbn 9781119371496
Автор произведения Irene Roberts
Жанр Медицина
Издательство John Wiley & Sons Limited
45 45 Ruef P and Linderkamp O (1999) Deformability and geometry of neonatal erythrocytes with irregular shapes. Pediatr Res, 45, 114–119.
46 46 Frosali S, Di Simplicio P, Perrone S, Di Guiseppe D, Longini M, Tanganelli D and Buonocore G (2004) Glutathione recycling and antioxidant enzyme activities in erythrocytes of term and preterm newborns at birth. Biol Neonate, 85, 188–194.
47 47 Siddappa AM, Rao R, Long JD, Widness JA and Georgieff MK (2007) The assessment of newborn iron stores at birth: a review of the literature and standards for ferritin concentrations. Neonatology, 92, 73–82.
48 48 Lorenz L, Peter A, Poets CF and Franz AR (2013) A review of cord blood concentrations of iron status parameters to define reference ranges for preterm infants. Neonatology, 104, 194–202.
49 49 Rao R and Georgieff MK (2002) Perinatal aspects of iron metabolism. Acta Paediatr Suppl, 91, 124–129.
50 50 Niklasson A, Engstrom E, Hard AL, Wikland KA and Hellstrom A (2003) Growth in very preterm children: a longitudinal study. Pediatr Res, 54, 899–905.
51 51 Widness JA, Madan A, Grindeanu LA, Zimmerman MB, Wong DK and Stevenson DK (2005) Reduction in red blood cell transfusions among preterm infants: results of a randomized trial with an in‐line blood gas and chemistry monitor. Pediatrics, 115, 1299–1306.
52 52 McCarthy EK, Dempsey EM and Kiely ME (2019) Iron supplementation in preterm and low‐birth‐weight infants: a systematic review of intervention studies. Nutr Rev, 77, 865–877.
53 53 Mills RJ and Davies MW (2012) Enteral iron supplementation in preterm and low birth weight infants. Cochrane Database Syst Rev, CD005095.
54 54 Domellöf M (2017) Meeting the iron needs of low and very low birth weight infants. Ann Nutr Metab, 71 (Suppl 3), 16–23.
55 55 Bahr TM, Ward DM, Jia X, Ohls RK, German KR, and Christensen RD (2021) Is the erythropoietin‐erythroferrone‐hepcidin axis intact in human neonates? Blood Cells Mol Dis, 88, 102536.
56 56 German KR, Comstock BA, Parikh P, Whittington D, Maycock DE, Heagerty PJ et al. (2022) Do extremely low gestational age neonates regulate iron absorption via hepcidin? J Pediatr, 241, 62–67.e1.
57 57 Nemeth E and Ganz T (2021) Hepcidin‐ferroportin interaction controls systemic iron homeostasis. Int J Mol Sci, 22, 6493.
58 58 Lorenz L, Herbst J, Engel C, Peter A, Abele H, Poets CF et al. (2014) Gestational age‐specific reference ranges of hepcidin in cord blood. Neonatology, 106, 133–139.
59 59 Yapakci E, Ecevit A, Goekmen Z, Tarcan A and Ozbek N (2009) Erythrocyte transfusions and serum prohepcidin levels in premature newborns with anemia of prematurity. J Pediatr Hematol Oncol, 31, 840–842.
60 60 Wu TW, Tabangin M, Kusano R, Ma Y, Ridsdale R and Akinbi H (2013) The utility of serum hepcidin as a biomarker for late‐onset neonatal sepsis. J Pediatr, 162, 67–71.
61 61 Lorenz L, Mueller KF, Poets CF, Peter A, Olbina G, Westerman M et al. (2015) Short‐term effects of blood transfusions on hepcidin in preterm infants. Neonatology, 108, 205–210.
62 62 Lenhartova N, Ochiai M, Sawano T, Yasuoka K, Fujiyoshi J, Inoue H and Ohga S (2022) Serum erythroferrone levels during the first month of life in premature infants. J Perinatol, 42, 97–102.
63 63 Christensen R, Henry E, Jopling J and Wiedmeier S (2009) The CBC: reference ranges for neonates. Semin Perinatol, 33, 3–11.
64 64 Schmutz N, Henry E, Jopling J and Christensen RD (2008) Expected ranges for blood neutrophil concentrations of neonates: the Manroe and Mouzinho charts revisited. J Perinatol, 28, 275–281.
65 65 Christensen RD, Jensen J, Maheshwari A and Henry E (2010) Reference ranges for blood concentrations of eosinophils and monocytes during the neonatal period defined from over 63 000 records in a multihospital health‐care system. J Perinatol, 30, 540–545.
66 66 Christensen RD, Henry E, Andres RL and Bennett ST (2011) Reference ranges for blood concentrations of nucleated red blood cells in neonates. Neonatology, 99, 289–294.
67 67 Christensen RD, Baer VL, Gordon PV, Henry E, Whitaker C, Andres RL and Bennett ST (2012) Reference ranges for lymphocyte counts of neonates: associations between abnormal counts and outcomes. Pediatrics, 129, e1165–e1172.
68 68 Roberts I, Alford K, Hall G, Juban G, Richmond H, Norton A et al.; Oxford‐Imperial Down Syndrome Cohort Study Group (2013) GATA1‐mutant clones are frequent and often unsuspected in babies with Down syndrome: identification of a population at risk of leukemia. Blood, 122, 3908–3917.
69 69 Jopling J, Henry E, Wiedmeier SE and Christensen RD (2009) Reference ranges for hematocrit and blood hemoglobin concentration during the neonatal period: data from a multihospital health care system. Pediatrics, 123, e333–e337.
70 70 Alur P, Devapatla SS, Super DM, Danish E, Stern T, Inagandla R and Moore JJ (2000) Impact of race and gestational age on red blood cell indices in very low birth weight infants. J Pediatr, 106, 306–310.
71 71 Bahr TM, Christensen TR, Henry E, Wilkes J, Ohls RK, Bennett ST et al. (2021) Neonatal reference intervals for the complete blood count parameters MicroR and HYPO‐He: sensitivity beyond the red cell indices for identifying microcytic and hypochromic disorders. J Pediatr, 239, 95–100.e2.
72 72 Warwood TL, Ohls RK, Wiedmeier SE, Lambert DK, Jones C, Scoffield SH et al. (2005) Single‐dose darbepoetin administration to anemic preterm neonates. J Perinatol, 25, 725–730.
73 73 Christensen RD, Henry E, Bennett ST and Yaish HM (2016) Reference intervals for reticulocyte parameters of infants during their first 90 days after birth. J Perinatol, 36, 61–66.
74 74 Sottiaux J, Favresse J, Chevalier C, Chatelain B, Hugues J and Mullier F (2020) Evaluation of a hereditary spherocytosis screening algorithm by automated blood count using reticulocytes and erythrocytic parameters on the Sysmex XN‐series. Int J Lab Hematol, 42, e88–e91.
75 75 Rolfo A, Maconi M, Cardaropoli S, Biolcati M, Danise P and Todros T (2007) Nucleated red blood cells in term fetuses: reference values using an automated analyzer. Neonatology, 92, 205–208.
76 76 Green DW, Hendon B and Mimouni FB (1995) Nucleated erythrocytes and intraventricular hemorrhage in preterm neonates. Pediatrics, 96, 475–478.
77 77 Buonocore G, Perrone S, Gioia D, Gatti MG, Massafra C, Agosta R and Bracci R (1999) Nucleated red blood cell count at birth as an index of perinatal brain damage. Am J Obstet Gynecol, 181, 1500–1505.
78 78 Zipursky, A (2003) Transient leukaemia – a benign form of leukaemia in newborn infants with trisomy 21. Br J Haematol, 120, 930–938.
79 79 Linderkamp O, Nelle M, Kraus M and Zilow EP (1992) The effect of early and late cord clamping on blood viscosity and other hemorheological parameters in full‐term infants. Acta Paediatr, 81, 745–750.
80 80 Kiserud T (2004) The fetal circulation. Prenat Diagn, 24, 1049–1059.
81 81 Cassady G (1966) Plasma volume studies in low birth weight infants. Pediatrics, 38, 1020–1027.
82 82 Bauer K, Linderkamp O and Versmold HT (1993) Systolic blood pressure and blood volume in preterm infants. Arch Dis Child, 69, 521–522.
83 83 Pepper MR and Black MM (2011) B12 in fetal development. Semin Cell Dev Biol, 22, 619–623.
84 84 Hinton CF, Ojodu JA, Fernhoff PM, Rasmussen SA, Scanlon KS and Hannon WH (2010) Maternal and neonatal vitamin B12 deficiency detected through expanded newborn screening – United States, 2003–2007. J Pediatr, 157, 162–163.
85 85 Scolamiero E, Villani GR, Ingenito L, Pecce R, Albano L, Caterino M et al. (2014) Maternal vitamin B12 deficiency detected in expanded newborn screening. Clin Biochem, 47, 312–317.
86 86 Reinson K, Kuennapas K, Kriisa A, Vals MA, Muru K and Ounap K (2018) High incidence of low vitamin B12 levels in Estonian newborns. Mol Genet Metab Rep, 15, 1–5.
87 87