Low-Titer Type O Whole Blood for Transfusing Perinatal Patients after Acute Hemorrhage: A Case Series.

Objective Acute and massive blood loss is fortunately a rare occurrence in perinatal/neonatal practice. When it occurs, typical transfusion paradigms utilize sequential administration of blood components. However, an alternative approach, transfusing type O whole blood with low anti-A and anti-B titers, (LTOWB) has recently been approved and utilized in trauma surgery. Study Design Retrospective analysis of all perinatal patients who have received LTOWB after acute massive hemorrhage at the Intermountain Medical Center. Results LTOWB was the initial transfusion product we used to resuscitate/treat 25 women with acute and massive postpartum hemorrhage and five infants with acute hemorrhage in the first hours/days after birth. We encountered no problems obtaining or transfusing this product and we recognized no adverse effects of this treatment. Conclusion Transfusing LTOWB to perinatal patients after acute blood loss is feasible and appears at least as safe a serial component transfusion. Its use has subsequently been expanded to multiple hospitals in our region as first-line transfusion treatment for acute perinatal hemorrhage. Key Points Low-titer type O whole blood (LTOWB) was our initial transfusion product for 30 perinatal patients with acute hemorrhage. Twenty-five of these were obstetrical patients and five were neonatal patients. We encountered no problems with, or adverse effects from LTOWB in any of these patients. LTOWB transfusions to women were ten days since donor draw (interquartile range, 8-13) and to neonates was six days (5-8).

Can Red Blood Cell and Platelet Transfusions Have a Pathogenic Role in Bronchopulmonary Dysplasia?

OBJECTIVE: To evaluate whether transfusions in infants born preterm contribute to the pathogenesis of bronchopulmonary dysplasia (BPD). STUDY DESIGN: We conducted a multihospital, retrospective study seeking associations between red blood cell or platelet transfusions and BPD. We tabulated all transfusions administered from January 2018 through December 2022 to infants born ≤29 weeks or <1000 g until 36 weeks postmenstrual age and compared those with BPD grade. We performed a sensitivity analysis to assess the possibility of a causal relationship. We then determined whether each transfusion was compliant with restrictive guidelines, and we estimated effects fewer transfusions might have on future BPD incidence. RESULTS: Eighty-four infants did not develop BPD and 595 did; 352 developed grade 1 (mild), 193 grade 2 (moderate), and 50 grade 3 (severe). Transfusions were given at <36 weeks to 7% of those who did not develop BPD, 46% who did, and 98% who developed severe BPD. For every transfusion the odds of developing BPD increased by a factor of 2.27 (95% CI, 1.59-3.68; P < .001). Sensitivity analyses suggested that transfusions might contribute to BPD. Fifty-seven percent of red blood cell transfusions and 68% of platelet transfusions were noncompliant with new restrictive guidelines. Modeling predicted that complying with restrictive guidelines could reduce the transfusion rate by 20%-30% and the moderate to severe BPD rate by ∼4%-6%. CONCLUSIONS: Transfusions were associated with BPD incidence and severity. Lowering transfusion rates to comply with current restrictive guidelines might result in a small but meaningful reduction in BPD rates.

Diagnosing Anemia in Neonates: An Evidence-Based Approach.

It is important for clinicians who render neonatal care to precisely and reproducibly diagnose anemia; however, confusion arises from various definitions. For the simplicity and consistency of detection, we advocate defining neonatal anemia as a hemoglobin level or hematocrit below the 5th percentile of the reference population, which is highly dependent on gestational and postnatal ages. Thus, a newborn infant delivered at 24 weeks' gestation will have anemia with a blood hemoglobin concentration much lower than a hemoglobin concentration defining anemia at term. Moreover, a hemoglobin concentration defining anemia at term birth is higher than that defining anemia in the same infant 60 days after birth. Diagnosing neonatal anemia can be evidence-based and consistent by using reference intervals derived from large neonatal databases. To do this, we advocate defining anemia as a hemoglobin level that plots below the 5th percentile lower reference interval, defining moderately severe anemia as a hemoglobin value between the 1st and 5th percentile, and defining severe anemia as a hemoglobin level that plots below the 1st percentile. The information provided in this review can easily be adopted by clinical laboratories and individual neonatal care units, thereby fostering application of these definitions for all infants whose hemoglobin levels are measured. Additional normative values included in this review describing various other erythrocyte metrics can likewise be easily adopted. Doing so will codify and standardize the diagnosis of neonatal anemia and will facilitate identifying the cause of the anemia, thus pointing the way to proper additional diagnostic testing and treatment.

Associations between blood donor sex and age, and outcomes of transfused newborn infants.

BACKGROUND: It is controversial whether the sex or age of red blood cell (RBC) donors affects mortality or morbidities of transfused newborn infants. We assessed these issues using a multi-year, multi-hospital database linking specific outcomes of neonatal transfusion recipients with RBC donor sex and age. STUDY DESIGN AND METHODS: We performed retrospective analyses of all neonates receiving ≥ one RBC transfusion during a 12-year period in all Intermountain Healthcare hospitals, matching mortality and specific morbidities of each transfusion recipient with the sex and age of each donor. RESULTS: There were 6396 RBC transfusions administered to 2086 infants in 15 hospitals. A total of 825 infants were transfused exclusively with RBC from female donors, 935 infants were transfused exclusively with RBC from male donors, and 326 infants were transfused with RBC from both female and male donors. No differences in baseline characteristics were identified among the three groups. Infants who received blood from both male and female donors had more RBC transfusions (5.3 ± 2.9 transfusions if received both male and female donor blood vs. 2.6 ± 2.2 if received blood from only one sex, mean ± SD, p < .001). We identified no significant differences in mortality or morbidities associated with the sex or the age of blood donors. Similarly, an analysis of matched vs. mismatched donor/recipient sex revealed no associations with death or neonatal morbidities. CONCLUSION: These data support the practice of transfusing newborn infants with RBC obtained from donors of either sex and regardless of donor age.

Placental abruption and neonatal anemia.

OBJECTIVE: Placental abruption can cause maternal blood loss and maternal anemia. It is less certain whether abruption can cause fetal blood loss and neonatal anemia. STUDY DESIGN: Retrospective multi-hospital 24-month analysis of women with placental abruption and their neonates. RESULTS: Of 55,111 births, 678 (1.2%) had confirmed abruption; 83% of these neonates (564) had one or more hemoglobins recorded in the first day. Four-hundred-seventy (83.3%) had a normal hemoglobin (≥5th% reference interval) while 94 (16.7%) had anemia, relative risk 3.26 (95% CI, 2.66-4.01) vs. >360,000 neonates from previous reference interval reports. The relative risk of severe anemia (<1st% interval) was 4.96 (3.44-7.16). When the obstetrician identified the abruption as "small" or "marginal" the risk of anemia was insignificant. CONCLUSIONS: Most abruptions do not cause neonatal anemia but approximately 16% do. If an abruption is not documented as small, it is important to surveille the neonate for anemia.