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#Normal hemoglobin and hematocrit levels in neonates trial
The trial was registered under the clinical trial registry of India (CTRI/11,063).Ībout 85% of extremely low birth weight newborns receive a transfusion by the end of their hospital stay. The study needed huge sample size to establish a difference in the number of re-transfusions required across two groups. Post transfusion rise in Hct of the patient in group B was significant as compared to group A. Secondary outcomes were comparable in two groups. Group B transfusions had a statistically significant change in 24 h post-transfusion hematocrit. Baseline variables (birth weight, gestation age, APGAR score and score of neonatal acute physiology) pre-transfusion hemodynamics and hematocrit of the bag were comparable in both groups.
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The secondary outcome was the effect of transfusion on neonatal morbidities in terms of retinopathy of prematurity, bronchopulmonary dysplasia, intraventricular hemorrhage, necrotizing enterocolitis, and death. The primary outcome of interest was post-transfusion rise in hematocrit. Neonates were randomized using block randomization, to receive 15 ml/kg of PRBC transfusion (group A) or transfusion based on the formula (group B). This prospective study included a total of 68 preterm neonates requiring transfusion for the first time having ≤ 34 weeks of gestational age. The study was done to compare the rise in Hct after transfusing PRBC volume calculated either based on body weight or using formula considering Hct of blood bag and Hct of preterm neonates. The weight-based formulae underestimate the volume of PRBC required to achieve a target hematocrit (Hct) in preterm neonates. Enteral iron intake should be increased to 6 mg/kg/d during EPO treatment.Conventionally the packed red blood cell (PRBC) transfusion volume given to neonates is 10 ml/kg to 20 ml/kg. If EPO is to be used, the dose is 200-300 U s.q./kg/d every other day. Thus, if EPO therapy is considered this needs to be discussed with the staff attending. and European VLBW clinical trial results indicate that EPO therapy is of marginal clinical benefit as it is currently being administered. Assuming a packed cell hematocrit of 80-90% and a blood volume of 80 mL/kg: Erythropoietin (EPO): The blood bank routinely screens all blood for other viral pathogens including HIV, hepatitis B, hepatitis C, and HTLV I/II. Transfuse using irradiated (only infants with birth weights <1.5 kg) filtered to reduce CMV risk, packed red blood cells (Hct ≈ 85%). Hence for 15 mL of PRBC/kg, a pre-transfusion hct of 32% should rise to approximately 47% when checked several hours after transfusing. As a "rule of thumb," for each 1 mL of PRBC’s transfused (Hct of ≈ 85%)/kg, anticipate a 1% increase in the patient’s hematocrit. Transfuse to achieve a calculated hematocrit of approximately 45%, or give a maximum volume of 15 mL/kg. Good clinical practice dictates and regulatory agencies advise that chart documentation of the reason that the transfusion is being administered should be recorded.
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Transfusion with packed red blood cells (PRBCs): This is especially true in the first weeks of life when sick infants have the greatest amount of blood drawn due to their often tenuous condition. Keep laboratory testing to only those tests which are needed. Treatment and prevention of anemia: Mimimize phlebotomy losses: Instead, as shown in the Table, a combination of the patient's clinical condition (primarily his/her respiratory status) and the presence of peripherial hematocrit values below levels specified for the various degrees of illness are used. Infants should not be treated to replace phlebotomy losses alone. See UI NICU Guidelines for Administering 15mL/kg Erythrocyte Transfusions to Neonates for our NICU's transfusion guidelines for preterm infants.
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Defining when clinically significant anemia is present is an area of active research. This void is in part due to the difficulty in studying patients who are unable to communicate how they feel ("symptoms") and the fact that objective clinical "signs" of neonatal anemia are non-specific and thus frequently are indicators of problems other than anemia, e.g., sepsis, apnea, seizures, growth failure ("failure to thrive"), etc. Well established, scientifically founded criteria for the diagnosis of anemia in the neonate are not available at present. Peer Review Status: Internally Peer Reviewed Diagnosis of anemia: