Storage after gamma irradiation affects in vivo oxygen delivery capacity of transfused red blood cells in preterm infants

Thresholds for Red Blood Cell Transfusion in Preterm Infants: Evidence to Practice

Rapid blood loss with circulatory shock is dangerous for the preterm infant as cardiac output and oxygen-carrying capacity are simultaneously imperilled. This requires prompt restoration of circulating blood volume with emergency transfusion. It is recommended that clinicians use both clinical and laboratory responses to guide transfusion requirements in this situation. For preterm infants with anemia of prematurity, it is recommended that clinicians use a restrictive algorithm from one of two recently published clinical trials. Transfusion outside these algorithms in very preterm infants is not evidence-based and is actively discouraged.

Blood Donor Sex and Outcomes in Transfused Infants

Red blood cell transfusion is common in neonatal intensive care. Multiple trials have evaluated different thresholds for when to administer red blood cell transfusion. In contrast, there has been less focus on studies of the characteristics of red blood cells transfused into neonates. In this review, the authors summarize the emerging literature on the potential impact of the sex of blood donors on outcomes in transfused neonates using a systematic search strategy. The authors review the uncertainty generated from studies with conflicting findings and discuss considerations regarding the impact of blood donor sex and other characteristics on neonatal outcomes.

Demographics and appropriateness of cellular blood component irradiation practices: Ambispective analysis from a tertiary care center

BACKGROUND

Transfusion-associated graft versus host disease (TA-GVHD) is often underreported. There may also be lapses in TA-GVHD prevention practices due to lack of revision of some of the existing clinical guidelines as well as limited audits on practices of blood component irradiation. This study was undertaken to highlight these shortcomings, and generate data for development of institutional guidelines.

METHODS/MATERIALS

Study cohort was selected from patients requiring transfusion support during June 2019 to May 2020. Transfusion history of these patients were followed, both retrospectively and prospectively till July 2021. Transfusion requisitions were categorized as IR (with request for irradiation) or NIR (with no request for irradiation) and justified or unjustified according to published international guidelines.

RESULTS

Total 6963 requisitions for cellular blood components were received from 255 patients included in the study cohort. Of these, 3690 (54.9 %) were IR requisitions, while remaining 3029 (45.1 %) requisitions were NIR. Overall, 4242 (63.1 %) requisition were justified for their irradiation status as per published guidelines and 1595 (23.8 %) were found to be Unjustified while justification could not be assessed for remaining 882 (13.1 %) of the requisitions. The highest proportion of Unjustified demands in NIR requisitions was observed in patients with Severe Aplastic anemia (59.4 %).

CONCLUSION

Many units were unnecessarily irradiated (7.7 %) while irradiation was missed in 16 % of the requisitions included in analysis which may be attributed to lack of institutional guidelines. We recommend that every centre should adopt a published well-researched guideline including amendments based on review of practices at their center.

X- and gamma-irradiation have similar effects on the in vitro quality of stored red cell components

BACKGROUND

Blood components are irradiated to inactivate lymphocytes to prevent transfusion-associated graft versus host disease. As there are little data regarding the effects of X-irradiation on red blood cell components (RBCs), the in vitro quality of stored red cells (standard, pediatric, washed, and intra-uterine transfusion [IUT]) following X- or gamma-irradiation was compared.

STUDY DESIGN AND METHODS

RBCs were pooled, split, and processed to produce standard (<14 days and < 5 days post-collection), pediatric (<5 days post-collection), washed (<14 days post-collection), or IUT RBCs (<5 days post-collection). Standard RBCs were either X- or gamma-irradiated (n = 10 pairs). A further 10 replicates were prepared by pooling and splitting three matched RBCs (X-, gamma-, and non-irradiated). All other RBCs were either X- or gamma-irradiated (n = 20 pairs). Red cell indices, hemolysis, potassium release, metabolism, microparticles, ATP, and 2,3-DPG were measured pre-irradiation and 6 h, 1, 2, 3, 7, 10, and 14 days post-irradiation, depending on the component type. Data were analyzed using two-way repeated measures ANOVA.

RESULTS

There were no significant differences in any in vitro quality measurements, with the exception of marginally higher potassium release in washed, IUT, and RBCs <5 days old (p < .0001) following X-irradiation. Both irradiation types increased generation of microvesicles, particularly in components that were older at the time of irradiation or stored for longer post-irradiation.

CONCLUSION

X- and gamma-irradiation have similar effects on the in vitro quality of RBCs, indicating that either technology is suitable for blood component irradiation.

Transfusion-related Gut Injury and Necrotizing Enterocolitis

Necrotizing enterocolitis (NEC) accounts for 10% of deaths in neonatal intensive care units. Several causal mechanisms are likely to lead to a final common disease phenotype. This article summarizes recent data on NEC following red blood cell (RBC) transfusion, with a focus on the most recent literature and ongoing trials. It highlights potential mechanisms from preclinical and human physiologic studies. It also discusses the role of feeding during RBC transfusion and the risk of NEC. Ongoing randomized trials will provide important data on how liberal or conservative approaches to RBC transfusion influence the risk of NEC.

Management of anaemia in pre-term infants

Pre-term infants have one of the highest transfusion requirements within the hospital-setting. The vast majority of blood transfusions performed in Neonatal Intensive Care Units (NICUs) are for medically stable pre-term infants with anaemia of prematurity, with the aim of improving oxygen delivery to the vital organs during the crucial phase of growth and development. However, despite the frequency of transfusion in this population, the potential benefits and harms of 'top up' transfusion are not fully understood, leading to practice variation between clinicians, institutions and countries. Significant advances have been made in the prevention of anaemia of prematurity, with recent emphasis on optimising infants' circulatory volume at birth via placental transfusion and preserving infants' own blood volume through innovative minimal sampling techniques. More research is urgently needed to establish optimal transfusion thresholds for these high-risk pre-term infants, for whom benefits as well as adverse outcomes may have consequences that extend for decades throughout the recipients' life-course. In this review, we will discuss some of the consensus and controversies regarding optimal management of anaemia in pre-term infants and highlight potential areas for future research.