Reducing Transfusion-Related Acute Lung Injury Risk: Evidence for and Approaches to Transfusion-Related Acute Lung Injury Mitigation

Weak D phenotype in transfusion medicine and obstetrics: Challenges and opportunities

The Rh blood group system, especially the D antigen, is crucial in transfusion medicine and obstetrics. Weak D phenotypes, caused by mutations in the Rhesus D antigen (RhD) blood group (RHD) gene, result in reduced antigen expression, posing challenges in serological testing and clinical management. Variability in detection methods leads to inconsistent results, making accurate classification difficult. Molecular techniques like polymerase chain reaction and DNA sequencing have significantly improved the identification of weak D variants, offering more reliable transfusion strategies and reducing the risk of alloimmunization. However, challenges such as lack of standardized protocols, cost constraints, and population-specific variations remain. In obstetrics, proper management of pregnant women with weak D is essential to prevent hemolytic disease of the fetus and newborn. Non-invasive prenatal testing using cell-free fetal DNA shows promise in predicting RhD incompatibility and minimizing unnecessary Rh immune globulin administration. Future advancements in high-throughput genotyping and discovery of novel RHD alleles could enhance RhD testing accuracy and efficiency. Standardizing RHD genotyping and adopting genotype-based management strategies for Rh immune globulin therapy and red blood cell transfusions will improve patient safety and clinical outcomes. This review examines the molecular basis, challenges, and future prospects in weak D phenotype management.

Donor characteristics do not influence transfusion-related acute lung injury incidence in a secondary analysis of two case-control studies

OBJECTIVE

To investigate the relation between donor characteristics and TRALI incidence.

BACKGROUND

Transfusion-related acute lung injury (TRALI) is a potentially fatal complication of transfusion. In pre-clinical studies and several clinical studies, TRALI has been related to loss of product quality during red blood cell (RBC) storage, called the "storage lesion". Donor characteristics, as for example age, genetics and life style choices influence this "storage lesion". We hypothesized that donor sex, age and blood type is related to TRALI incidence.

METHODS/MATERIALS

We performed a secondary analysis of two cohort studies, designed to identify TRALI risk factors by matching TRALI patients to transfused controls. We obtained donor sex, age and blood type from the Dutch Blood Bank Sanquin and investigated TRALI incidence in patients who were exposed to a certain donor characteristic. We used Kruskal-Wallis testing to compare the number of transfused products and Chi² testing to compare proportions of TRALI patients and transfused control.

RESULTS

After implementation of the male-donor only plasma strategy, patients received more transfusion products from male donors. However, we did not detect a relation between TRALI incidence and donor sex. Both TRALI patients and transfused controls received mainly products from donors over 41 years old, but donor age did not influence TRALI risk. Donor blood type, the transfusion of blood type-compatible and blood type-matched products also had no influence on TRALI incidence.

CONCLUSION

We conclude that in two cohorts of TRALI patients, donor age, donor sex and donor blood type are unrelated to TRALI.

Antibody-mediated transfusion-related acute lung injury; from discovery to prevention

Transfusion-related acute lung injury (TRALI), a syndrome of respiratory distress caused by blood transfusion, is the leading cause of transfusion-related mortality. The majority of TRALI cases have been related to passive infusion of human leucocyte antigen (HLA) and human neutrophil antigen (HNA) antibodies in donor blood. In vitro, ex vivo and in vivo animal models have provided insight in TRALI pathogenesis. The various classes of antibodies implicated in TRALI appear to have different pathophysiological mechanisms for the induction of TRALI involving endothelial cells, neutrophils, monocytes and, as very recently has been discovered, lymphocytes. The HLA and HNA-antibodies are found mainly in blood from multiparous women as they have become sensitized during pregnancy. The incidence of TRALI has decreased rapidly following the introduction of a male-only strategy for plasma donation. This review focuses on pre-clinical and clinical studies investigating the pathophysiology of antibody-mediated TRALI.

Transfusion medicine as of 2014

Transfusion of blood components is one of the most common medical treatments, and in spite of the time that has evolved since we started to transfuse blood routinely in the 1930s, there are issues associated with its use that we are still trying to improve. Issues such as when to transfuse and adverse effects associated with the transfusion are fields where new evidence is being generated that ideally should help us to indicate when and what to transfuse to the patients. The recognition that the evidence generated in randomized control trials was not widely applied to guide the indication of the transfusion of blood components has provoked the development of initiatives that try to reduce its unnecessary usage. Those initiatives, grouped under the name of patient blood management, have represented a significant paradigm change, and a growing number of activities in this field are performed in health-care facilities around the world. This article tries to summarize the latest publications in those fields.

Animal models of bronchopulmonary dysplasia. The preterm and term rabbit models

Bronchopulmonary dysplasia (BPD) is an important lung developmental pathophysiology that affects many premature infants each year. Newborn animal models employing both premature and term animals have been used over the years to study various components of BPD. This review describes some of the neonatal rabbit studies that have contributed to the understanding of BPD, including those using term newborn hyperoxia exposure models, premature hyperoxia models, and a term newborn hyperoxia model with recovery in moderate hyperoxia, all designed to emulate aspects of BPD in human infants. Some investigators perturbed these models to include exposure to neonatal infection/inflammation or postnatal malnutrition. The similarities to lung injury in human premature infants include an acute inflammatory response with the production of cytokines, chemokines, and growth factors that have been implicated in human disease, abnormal pulmonary function, disordered lung architecture, and alveolar simplification, development of fibrosis, and abnormal vascular growth factor expression. Neonatal rabbit models have the drawback of limited access to reagents as well as the lack of readily available transgenic models but, unlike smaller rodent models, are able to be manipulated easily and are significantly less expensive than larger animal models.

A cross-sectional pilot study of blood utilization in 27 hospitals in Northern California

OBJECTIVES

To gather benchmarking data on blood utilization so as to inform blood management strategies at regional hospitals.

METHODS

We conducted a cross-sectional pilot study of 40 regional hospitals in Northern California using a paper-based survey designed to capture blood component utilization and transfusion management practices. The data were analyzed based on size and complexity of the respondent hospitals.

RESULTS

Twenty-seven (68%) of 40 hospitals responded, ranging in size from 23- to 600-bed facilities. Results showed a wide range of transfusions for each component. All hospitals reported some level of blood utilization oversight in place. Overall, 88.5% had a computerized laboratory information system, of which 17% performed an electronic cross-match. Transfusion triggers for RBCs, platelets, plasma, and cryoprecipitate were in use in 61.5%, 65.4%, 57.7%, and 46.2% of hospitals, respectively.

CONCLUSIONS

There is awareness of the need for transfusion oversight. However, the findings show a wide spectrum of transfusion practice, and high-yield measures, such as electronic cross-match and transfusion triggers, have not been uniformly implemented. The results indicate that there is a role for blood centers to assist client hospitals to maximize their efficiency and reduce blood utilization.

Transfusion-related acute lung injury: advances in understanding the role of proinflammatory mediators in its genesis

Transfusion-related acute lung injury (TRALI) is the most common cause of serious morbidity and mortality due to hemotherapy. The pathogenesis is the result of two events: the first related to the recipient's clinical condition, predisposing to acute lung injury (ALI) through neutrophil or polymorphonuclear leukocyte sequestration, and the second being the infusion of antibodies or mediators that activate these adherent polymorphonuclear neutrophils, resulting in endothelial damage, capillary leak and ALI. TRALI is most prevalent in the critically ill, although many of these cases are termed ALI. Although mitigation strategies, such as the use of male-only plasma, have decreased the number of TRALI cases and deaths, TRALI still occurs. This review will detail the pathophysiology of TRALI, provide insight into newer areas of research and critically assess current practices to mitigate TRALI and improve transfusion safety.

Anti-human neutrophil antigen-3a induced transfusion-related acute lung injury in mice by direct disturbance of lung endothelial cells

OBJECTIVE

Antibodies against human neutrophil antigen-3a (HNA-3a) located on choline transporter-like protein 2 induce severe transfusion-related acute lung injury (TRALI). This study aims to identify the mechanism implicated in anti-HNA-3a-mediated TRALI.

APPROACH AND RESULTS

Our analysis shows that anti-HNA-3a recognizes 2 choline transporter-like protein 2 isoforms (P1 and P2) on human microvascular endothelial cells from lung blood vessels but reacts only with the P1 isoform on neutrophils. Direct treatment of HNA-3a-positive endothelial cells with anti-HNA-3a, but not with anti-HNA-3b, leads to reactive oxygen species production, increased albumin influx, and decreased endothelial resistance associated with the formation of actin stress filaments and loosening of junctional vascular endothelium-cadherin. In a novel in vivo mouse model, TRALI was documented by significant increase in lung water content, albumin concentration, and neutrophil numbers in the bronchoalveolar lavage on injection of human anti-HNA-3a in lipopolysaccharides-treated, as well as nontreated mice. Interestingly, although neutrophil depletion alleviated severity of lung injury, it failed to prevent TRALI in this model. Infusion of anti-HNA-3a F(ab')2 fragments caused moderate TRALI. Finally, mice lacking nicotinamide adenine dinucleotide phosphate oxidase (NOX2(y/-)) were protected from anti-HNA-3a-mediated TRALI.

CONCLUSIONS

These data demonstrate the initiation of endothelial barrier dysfunction in vitro and in vivo by direct binding of anti-HNA-3a on endothelial cells. It seems, however, that the presence of neutrophils aggravates barrier dysfunction. This novel mechanism of TRALI primarily mediated by endothelial cell dysfunction via choline transporter-like protein 2 may help to define new treatment strategies to decrease TRALI-related mortality.