Red Blood Cell Alloimmunization in Transfused Patients With Sickle Cell Disease in Sub-Saharan Africa; a Systematic Review and Meta-Analysis

Sickle cell disease (SCD) is the most common monogenic disorder in sub-Saharan Africa (SSA). Blood transfusion to increase the oxygen carrying capacity of blood is vital in the management of many patients with SCD. However, red blood cell (RBC) alloimmunization is a major challenge to transfusions in these patients. Commonly in SSA, pretransfusion tests only involve ABO D grouping and compatibility without RBC antibody testing. Data on the frequency of RBC alloimmunization in patients with SCD in SSA are limited. We performed a systematic review and meta-analysis on available data on alloimmunization in transfused patients with SCD to determine the published prevalence of RBC alloimmunization in SCD patients in SSA. Six databases were systematically searched to identify relevant studies, without year or language restrictions. In all, 249 articles were identified and 15 met our selection criteria. The overall proportion of alloimmunization was 7.4 (95% confidence interval: 5.1-10.0) per 100 transfused patients. Antibodies against E, D, C, and K antigens accounted for almost half of antibody specificities, and antibodies to low- and high-frequency antigens were also common and represented almost 30% (20% to low-frequency antigens and 9% to high-frequency antigens) of specificities. Heterogeneity between studies was moderate, and meta-analysis found region of Africa as the major contributor to the heterogeneity. We also observed inconsistencies across studies in reporting of factors that may influence alloimmunization. This review provides an overview of the extent of the alloimmunization problem in SSA and provides a baseline against which to compare the effect of any interventions to reduce the alloimmunization risk.     

Clinical significance of RBC alloantibodies and autoantibodies in sickle cell patients who received transfusions

BACKGROUND: The clinical significance of alloimmunization to RBC antigens in sickle cell patients was analyzed by a retrospective review of the records of pediatric and adult sickle cell patients who received transfusions and who were followed over a 10-year period. STUDY DESIGN AND METHODS: Charts of pediatric and adult sickle cell patients followed at Schneider Children's Hospital (SCH) and Long Island Jewish Medical Center between 1989 and 1999 were retrieved. Patients followed at SCH were classified as pediatric, regardless of age. Data on transfusion history, alloimmunization, and transfusion reactions from 1990 were retrieved from computerized blood bank records. Transfusion history, development of alloantibodies and autoantibodies, and transfusion reactions were correlated with clinical evidence of hemolysis or other adverse reactions from the charts. All patients received ABO- and Rh-compatible blood transfusions for which a partial or extended antigen match was not performed. RESULTS: Among pediatric patients, 29 percent developed clinically significant alloantibodies, and 8 percent developed autoantibodies. Seven patients developed delayed hemolytic and/or serologic transfusion reactions, two with hyperhemolysis, two with clinical evidence of hemolysis, and three with serologic evidence only. The two patients with hyperhemolysis had received extended antigen-matched RBC transfusions to provide blood compatible with their existing antibodies. Among adult patients, 47.0 percent developed significant alloantibodies, and 9.7 percent developed autoantibodies. Five incidences of delayed hemolytic and/or serologic transfusion reactions occurred, one with hyperhemolysis and four with serologic evidence only. CONCLUSION: The alloimmunization rate is 29 percent in pediatric and 47 percent in adult sickle cell patients when partial or extended RBC antigen match is not performed. However, the delayed serologic and/or hemolytic transfusion reactions did not result in severe clinical outcome in most instances. The most important adverse event was hyperhemolysis, which may be triggered by a transfusion, but was not prevented by matching for RBC antigens. In most instances, the cause of hyperhemolysis was multifactorial.     

Extended red blood cell antigen matching for transfusions in sickle cell disease: a review of a 14-year experience from a single center (CME)

BACKGROUND: Alloimmunization to red blood cell (RBC) blood group antigens is a major complication for patients with sickle cell disease (SCD), which limits the usefulness of RBC transfusion. Here, we report our experiences with extended RBC antigen matching for SCD patients. STUDY DESIGN AND METHODS: Records for 99 SCD patients transfused only with the extended matching protocol between 1993 and 2006 were reviewed. Patients and donors were phenotyped for 20 blood group antigens and RBC units that were negative for antigens not expressed by the recipient were provided. When necessary, mismatches were allowed at Le^a, Le^b, Fy^b, and MNSs to meet requirements for antigens regarded as the most clinically significant. Matched RBC units (6946) were provided to 99 patients (mean, 70 units/patient; range, 1‐519 units/patient). Eliminating mismatches, 90% of the transfusions matched all other negative antigens. RESULTS: Seven alloantibodies were detected in seven patients resulting in 7% alloimmunized at a rate of 0.1 antibodies per 100 units transfused. Three recipients who developed antibodies were D mosaic and would have been mistyped with serologic techniques. Alloimmunization was decreased compared to ABO and/or D matching at our institution and others. Twelve autoantibodies and no severe hemolytic transfusion reactions were reported. CONCLUSION: Exact matching for ABO, Rhesus, Kell, Kidd, and Fy^a and extending this match whenever possible is an effective strategy to reduce alloimmunization to RBC antigens. Consideration should be given to exploring this conclusion further with a controlled, multi‐institutional trial to determine efficacy, cost‐benefit analysis, and reproducibility of this approach.     

Red blood cell alloimmunization in sickle cell disease patients in Uganda

BACKGROUND: Blood transfusion is an integral part in the management of sickle cell disease (SCD) patients. Alloimmunization is a recognized complication of red blood cell (RBC) transfusions with consequences including delayed hemolytic transfusion reactions and difficulties in getting compatible blood for future transfusions. The objective of this study was to determine the frequency of RBC alloimmunization in SCD patients in Uganda where pretransfusion screening for alloantibodies is not practiced.
STUDY DESIGN AND METHODS: In a cross-sectional study, SCD patients at Mulago Hospital Sickle Cell Clinic, Kampala, Uganda, were investigated. The demographic characteristics and transfusion history were recorded. Blood samples were drawn from consenting, previously transfused patients and RBC alloimmunization was demonstrated using immunohematologic techniques.
RESULTS: There were 428 patients (median age, 12 years; female/male ratio, 1.0) and they had received a median of 3 units in a median of three transfusion episodes. Twenty-six patients (6.1%) possessed RBC alloantibodies and 21 (80.7%) of them had received up to 10 transfusions. A total of 30 alloantibodies was found; 20 (66.7%) and 5 (16.6%) belonged to Rh and MNS blood groups, respectively. Five of the alloimmunized patients had multiple antibodies.
CONCLUSIONS: The rate of RBC alloimmunization in Ugandan SCD patients was 6.1%. The homogeneity between donors and SCD patients plus the low transfusion load may explain this immunization frequency. Nevertheless, our study confirms the significance of RBC alloimmunization as a complication in Ugandan SCD patients. Therefore, there is need to improve immunohematologic testing in Uganda so that RBC alloimmunization and its consequences may be prevented.     

Autoantibody formation after alloimmunization: are blood tranfusions a risk factor for autoimmune hemolytic anemia?

BACKGROUND: The development of RBC autoantibodies resulting from or associated with allogeneic blood transfusions (i.e., RBC autoimmunization) is not a well-recognized complication of RBC transfusions. STUDY DESIGN AND METHODS: T: he presentation, laboratory evaluation, clinical course, and management of two patients whose autoimmune hemolytic anemia followed allogeneic blood transfusion and occurred in association with the development of one or more alloantibodies is described. A retrospective analysis was performed of our blood-bank records over 1 year to determine the frequency of RBC autoimmunization associated with alloimmunization. RESULTS: Out of 2618 patients who had a positive DAT or IAT, 121 were identified with RBC autoantibodies; 41 of these patients had both allo- and autoantibodies to RBC antigens, whereas the remainder, 80, had only autoantibodies. At least 34 percent (12/41) of these patients (none with hemoglobinopathy) developed their autoantibodies in temporal association with alloimmunization after recent blood transfusion(s). CONCLUSION: RBC autoimmunization and the development of autoimmune hemolytic anemia should be recognized as a complication of allogeneic blood transfusion. The need for additional blood transfusion was successfully avoided in one patient by treatment with recombinant human EPO and corticosteroid therapy. Once RBC autoimmunization is identified, subsequent management should incorporate a strategy that minimizes subsequent exposure to allogeneic blood.     

Red Blood Cell Antigen Genotyping for Sickle Cell Disease,Thalassemia, and Other Transfusion Complications

Since the discovery of the ABO blood group in the early 20th century, more than 300 blood group antigens have been categorized among 35 blood group systems. The molecular basis for most blood group antigens has been determined and demonstrates tremendous genetic diversity, particularly in the ABO and Rh systems. Several blood group genotyping assays have been developed, and 1 platform has been approved by the Food and Drug Administration as a “test of record,” such that no phenotype confirmation with antisera is required. DNA-based red blood cell (RBC) phenotyping can overcome certain limitations of hemagglutination assays and is beneficial in many transfusion settings. Genotyping can be used to determine RBC antigen phenotypes in patients recently transfused or with interfering allo- or autoantibodies, to resolve discrepant serologic typing, and/or when typing antisera are not readily available. Molecular RBC antigen typing can facilitate complex antibody evaluations and guide RBC selection for patients with sickle cell disease (SCD), thalassemia, and autoimmune hemolytic anemia. High-resolution RH genotyping can identify variant RHD and RHCE in patients with SCD, which have been associated with alloimmunization. In the future, broader access to cost-efficient, high-resolution RBC genotyping technology for both patient and donor populations may be transformative for the field of transfusion medicine.     

Is Female Sex a Risk Factor for Red Blood Cell Alloimmunization After Transfusion? A Systematic Review

Large scale red blood cell (RBC) antigen genotyping of donors is currently well developed. There is scarce information, however, to select patients who might benefit from preemptive extended RBC antigen-matched transfusions. Female sex has been proposed as a risk factor for RBC alloimmunization after transfusion. To asses whether females respond differently to RBC alloantigens compared with males, we conducted a literature review on RBC alloimmunization. Clinical studies on RBC alloimmunization incidence were searched for in databases from 1950 through 2011. Studies were included when data were available to calculate the female-to-male risk ratio for alloimmunization. Based on the reported age, adult patients (>18 years) were distinguished from pediatric patients (≤18 years), and articles were analyzed according to disease categories. Thirty articles fulfilled the inclusion criteria. The Mantel-Haenszel risk ratio estimate of combined adult studies showed that women with sickle cell disease had an increased relative risk (27%) on RBC alloantibodies compared with men. Other groups showed equal alloimmunization risk in women and men. Women slightly more often than men possess RBC antibodies. This is likely explained by more exposure to immunizing events through pregnancy and/or transfusions in females with sickle cell disease. The results support the current policy implemented in many countries for Rhesus/Kell matching in patients with a hemoglobinopathy irrespective of sex. Thus, based solely on sex difference, the results do not justify recommending additional matching for women, besides preemptive K and c antigen matching for women during the (pre-) fertile age, as already applied in many European countries for the prevention of fetal morbidity.     

Red blood cell alloimmunization in sickle cell disease: prevalence in 2010

BACKGROUND: Transfusion of red blood cells (RBCs) is frequently required for care of individuals with sickle cell disease (SCD). Alloimmunization rates are high and may be reduced by matching for RBC antigens that can cause alloimmunization. STUDY DESIGN AND METHODS: During the PROACTIVE Feasibility Study, patients with SCD age 2 years or older admitted for pain without acute chest syndrome were enrolled for possible randomization to preventive blood transfusion or standard care. Transfusion and antibody histories were obtained at each site, and antibody screening was done, to assess transfusion burden and alloimmunization prevalence. Participating sites were surveyed regarding antigen matching practice. RESULTS: A total of 237 patients (169 SS, 42 SC, 15 Sβ⁰‐thalassemia, 11 Sβ⁺‐thalassemia), 118 males and 119 females, were enrolled. Mean age was 19.3 years (range, 2.0‐68.0); there were 122 children and 115 adults. A total of 75.8% had received at least a single transfusion of RBCs before the study. Thirty‐four patients (14.4%) had a history of at least one alloantibody and 17 of these had more than one. When surveyed, 19 sites (83% of responders) reported antigen matching to at least include C, E, and K for transfusion of all patients with SCD. CONCLUSION: Though antigen typing before transfusion of people with SCD and providing antigen‐negative units is now widely employed by sickle cell centers, the alloimmunization rate remains quite high in contemporary sickle cell populations and may be due in large part to transfusions received at institutions not providing extended matching.     

Red blood cell alloimmunization among sickle cell Kuwaiti Arab patients who received red blood cell transfusion

BACKGROUND: Sickle cell disease (SCD) is common in the Arabian Gulf region. Most cases require a red blood cell (RBC) transfusion, increasing the potential for RBC alloantibody development. The incidence of RBC alloimmunization among Kuwaiti Arab SCD patients is not yet known. This study retrospectively assessed the effect of using two different matching protocols on the incidence of alloimmunization among multiply transfused Kuwaiti Arab SCD patients.
STUDY DESIGN AND METHODS: A total of 233 Kuwaiti Arab SCD patients were divided into two groups: Group 1 (n = 110) received RBC transfusion through standard ABO- and D-matched nonleukoreduced blood; Group 2 (n = 123) received RBCs matched for ABO, Rh, and K1 poststorage-leukoreduced blood. Multivariate analysis was performed on the factors associated with RBC alloimmunization and antibody specificity.
RESULTS: Sixty-five percent of patients in Group 1 developed clinically significant RBC alloantibody with an increased prevalence in females; in patients in Group 2, 23.6% developed RBC alloantibodies (p = 0.01). In Group 1, 72 patients (65.5%) had alloantibodies directed against Rh and Kell systems (p = 0.01). Multivariate analysis further confirmed the results, showing that blood transfusion type and sex have significant effects on the rate of alloimmunizations.
CONCLUSION: This study confirms the importance of selecting RBCs matched for Rh and Kell to reduce the risk of alloimmunizations among Kuwaiti Arab SCD patients.     

Red Blood Cell Alloimmunization Mitigation Strategies

Hemolytic transfusion reactions due to red blood cell (RBC) alloantibodies are a leading cause of transfusion-associated death. In addition to reported deaths, RBC alloantibodies also cause significant morbidity in the form of delayed hemolytic transfusion reactions. These alloantibodies may also cause morbidity in the form of anemia, with compatible RBC units at times being unable to be located for highly alloimmunized patients, or in the form of hemolytic disease of the newborn. Thus, preventing RBC alloantibodies from developing in the first place, or mitigating the dangers of existing RBC alloantibodies, would decrease transfusion-associated morbidity and mortality. A number of human studies have evaluated the impact on RBC alloimmunization rates of providing partially phenotypically or genotypically matched RBCs for transfusion, and a number of animal studies have evaluated the impact of single variables on RBC alloimmunization. The goal of this review is to take a comprehensive look at existing human and animal data on RBC alloimmunization, focusing on strategies that may mitigate this serious hazard of transfusion. Potential factors that impact initial RBC alloimmunization, on both the donor and recipient sides, will be discussed. These factors include, but are not limited to, exposure to the antigen and an ability of the recipient's immune system to present that antigen. Beyond these basic factors, coexisting “danger signals,” which may come from the donor unit itself or which may be present in the recipient, also likely play a role in determining which transfusion recipients may become alloimmunized after RBC antigen exposure. In addition, to better understanding factors that influence the development of RBC alloantibodies, this review will also briefly discuss strategies to decrease the dangers of existing RBC alloantibodies.     

Transfusion management of sickle cell patients during bone marrow transplantation with matched sibling donor

BACKGROUND: Sickle cell disease (SCD) patients have unique transfusion considerations during bone marrow transplantation (BMT), including prophylaxis against stroke and alloimmunization. Characterization of transfusion requirements is important for blood bank and clinician patient management.
STUDY DESIGN AND METHODS: A retrospective analysis of red blood cell (RBC) and platelet (PLT) transfusion of SCD patients during myeloablative matched sibling donor (MSD) BMT at one institution from 1993 to 2007 was performed. Patient characteristics (RBC blood group antibodies, ABO-incompatible donor, BMT-related morbidity) and transfusion practices (RBC phenotype matching, transfusion threshold, and blood age) were assessed for effect on total RBC transfusion volumes.
RESULTS: Twenty-seven patients received MSD BMT with 96% survival and 0% rejection. Six alloimmunized patients received RBCs with extended phenotype matching (C, c, E, e, K, Fy^a, Jk^b), 14 nonalloimmunized received limited matching (C, c, E, e, K), and 7 did not have phenotype matching. Among 26 survivors, a median seven RBC transfusions (range, 3-15) and 13.5 PLT transfusions (range, 4-48) per patient were administered, equivalent to 64 mL/kg RBCs (range, 22-122 mL/kg) and 106 mL/kg PLTs (range, 26-343 mL/kg). BMT-related morbidity predicted increased RBC transfusions (p = 0.006). Venoocclusive disease was associated with greater RBC (p = 0.016) and PLT transfusion volumes (p = 0.016). Greater phenotype matching was associated with decreased RBC transfusions (p = 0.0247).
CONCLUSIONS: SCD patients have high transfusion support during MSD BMT. Communication of BMT complications to the blood bank is essential for transfusion inventory management. Phenotype matching decreased RBC transfusions in this cohort and warrants further investigation in SCD transfusion therapy.     

Alloantigen Copy Number as a Critical Factor in RBC Alloimmunization

RBC alloimmunization remains a significant barrier to ongoing transfusion therapy leading to morbidity, and in extreme cases mortality, due to delayed or insufficient units of compatible RBCs. In addition, the monitoring and characterization of alloantibodies, often with multiple specificities in a single patient, consumes substantial health care resources. Extended phenotypic matching has mitigated, but not eliminated, RBC alloimmunization and is only logistically available for specialized populations. Thus, RBC alloimmunization remains a substantial problem. In recent decades it has become clear that mechanisms of RBC alloimmunization are distinct from other antigens and lack of mechanistic understanding likely contributes to the fact that there are no approved interventions to prevent RBC alloimmunization from transfusion. The combination of human studies and murine modeling have identified several key factors in RBC alloimmunization. In both humans and mice, immunogenicity is a function of alloantigen copy number on RBCs. Murine studies have further shown that copy number not only changes rates of immunization but the mechanisms of antibody formation. This review summarizes the current understanding of quantitative and qualitative effects of alloantigen copy number on RBC alloimmunization.     

The role of molecular typing and perfect match transfusion in sickle cell disease and thalassaemia: An innovative transfusion strategy

Chronic red blood cell transfusions remain an essential part of supportive treatment in patients with thalassaemia and sickle cell disease (SCD).Red blood cell (RBC) transfusions expose patients to the risk of developing antibodies: RBC alloimmunization occurs when the immune system meets foreign antigens.We created a register of extensively genotyped donors to achieve a better matched transfusion in order to reduce transfusion alloimmunization.Extended RBC antigen typing was determined and confirmed by molecular biology techniques using Human Erythrocyte Antigen (HEA) BeadChip (BioArray Solutions Ltd., Warren, NJ) in periodic blood donors and in patients with thalassaemia and SCD.During 3 years, we typed extensively 1220 periodic blood donors, 898 male and 322 female.We also studied 10 hematologic patients affected by thalassaemia and sickle cell disease referred to our institution as candidate to periodic transfusions.Our patients (8 females and 2 males with a median age of 48 years, range 24–76 years), extensively typed using molecular techniques and screened for RBC alloantibodies, were transfused with a median of 33.5 RBC units.After three years of molecular typing, the “perfect match” transfusion strategy avoided new alloantibodies development in all studied patients.     

Adverse events of red blood cell transfusions in patients with sickle cell disease

Blood transfusion is a common medical intervention for patients with sickle cell disease (SCD) and disease related complications. While patients with SCD are at risk for all transfusion related adverse events defined by the National Healthcare Safety Network (NHSN) Biovigilance Component Hemovigilance Module Surveillance Protocol, they are uniquely susceptible to certain adverse events. This review discusses risk factors, mitigation strategies, and management recommendations for alloimmunization, hemolytic transfusion reactions, hyperviscosity and transfusion-associated iron overload in the context of SCD.     

Transfusion support for patients with sickle cell disease

Red blood cell (RBC) transfusion is an essential treatment for many patients with sickle cell disease (SCD), whose RBCs express hemoglobin S (HbS), a mutated form of hemoglobin A (HbA). Transfusion goals include increasing blood oxygen carrying capacity and decreasing the relative amount of HbS to HbA to mitigate vaso-occlusion in small blood vessels. In situations where correction of severe anemia and reduction in HbS may be achieved without removal of RBCs, simple transfusion may be utilized. Partial manual RBC exchange, which removes blood containing HbS by phlebotomy and replaces with donor blood transfusion sequentially allows for larger changes in the ratio of HbS to HbA when compared to simple transfusion. Automated RBC exchange by apheresis is useful in situations where a rapid and drastic HbS reduction is indicated. Vascular access is an important consideration for transfusion. Although peripheral access may be sufficient, central venous catheters and implantable venous access devices may be necessary for adequate access over time. Blood bank considerations include adequate RBC antigen matching to mitigate the risk of RBC alloimmunization, of which patients with SCD are at risk of developing. Transfusion may be utilized in efforts to intervene in the evolution of potentially life-threatening complications of SCD such as acute stroke, severe acute anemia and acute chest syndrome. Transfusion is also useful in several non-acute settings, such as stroke prevention, pregnancy, pre-surgery, and transfusion support for curative therapies. Individualized treatment plans are an essential component of patient care. Continuous evaluation of clinical indications and evolution of guidelines will continue to optimize care for patients with SCD.     

Prospective RBC phenotype matching in a stroke-prevention trial in sickle cell anemia: a multicenter transfusion trial

BACKGROUND: Most sickle cell anemia patients undergo transfusion therapy to prevent complications. The Stroke Prevention Trial in Sickle Cell Anemia showed that transfusion therapy is effective in the primary prevention of stroke. Despite its efficacy, transfusion therapy is limited by alloimmunization. The purpose of this study was to determine if a multicenter trial could implement a transfusion program utilizing phenotypically matched blood to reduce alloimmunization. STUDY DESIGN AND METHODS: One hundred thirty children underwent RBC phenotyping and antibody screening with review of blood bank records. The protocol required use of WBC-reduced RBCs, which were matched for E, C, and Kell. Monthly alloantibody testing and review of transfusion forms were performed to determine compliance and the occurrence of any adverse events. RESULTS: Patient RBCs expressed a low frequency of Kell (2%), E (20%), and C (25%) antigens. Sixty-one patients received 1830 units. Ninety-seven percent of all units were WBC reduced. Only 29 units were inadvertently not matched for E, C, and Kell. Five patients (8%) developed a clinically significant alloantibody. Four developed a single antibody to E or Kell. Three patients (5%) developed a warm autoantibody. There were 11 transfusion reactions and 8 transfusion-associated events. Transfusion reactions included 6 febrile reactions (0.33%/unit), 3 allergic (0.16%/unit), and 2 hemolytic (0.11%/unit). Associated events included 4 episodes of hypertension (0.22%/unit), 3 crises (0.16%/unit), and 1 transient ischemic attack (0.05%/unit). CONCLUSION: This is the first multicenter study to show that extended RBC phenotyping can be implemented nationwide. Compared to studies, the alloimmunization rate dropped from 3 percent to 0.5 percent per unit, and hemolytic transfusion reactions dropped by 90 percent. It is recommended that all transfused sickle cell anemia patients be antigen matched for E, C, and Kell. Patients should be closely monitored during transfusions to avoid preventable risks.     

Red blood cell alloimmunization in transfusion-dependent Egyptian patients with thalassemia in a limited donor exposure program

BACKGROUND: Thalassemia is considered the most common hemoglobinopathy in Egypt and is one of its major health problems. Lifelong red blood cell (RBC) transfusion remains the main treatment for severe forms; however, RBC alloimmunization results as a complication of regular transfusions due to repeated exposure to foreign antigens. The objective was to compare the frequency of alloantibodies in a group of patients in a limited donor exposure program (LDEP) with those receiving RBCs from multiple donors in Egyptian transfusion‐dependent patients with thalassemia. STUDY DESIGN AND METHODS: A total of 235 regularly transfused patients with thalassemia were studied, 36 of which were on LDEP. All patients were investigated for the presence of RBC autoantibodies and alloantibodies, followed by antibody identification for positive patients. RESULTS: Forty‐six (19.5%) patients developed RBC alloantibodies. The most common clinically significant alloantibodies were directed against antigens in the Kell and Rh systems. Development of alloantibodies was associated with older age, higher transfusion frequency, and splenectomy. A trend toward lower alloimmunization was elicited in the LDEP group, where 8.3% (3/36) patients were alloimmunized compared to 21.6% (43/199) in the non‐LDEP one (p = 0.057). CONCLUSIONS: Examination of donor RBCs for presence of Kell and Rh(E) antigens before transfusion can help decrease RBC alloimmunization. Further larger studies are required to assess the frequency of alloantibody production in patients on LDEP.     

Prevention of D sensitization after mismatched transfusion of blood components: toward optimal use of RhIG

Transfusion of D+ red blood cells (RBCs) into D- recipients, whether through whole blood, RBC, or platelet (PLT) transfusion, can lead to alloimmunization with associated risks of hemolytic reactions from subsequent mismatched transfusion. The incidence of D alloimmunization in various transfused patient populations may be different from that reported in normal subjects or in pregnancy, but prevention of D alloimmunization after mismatched transfusion can be achieved using RhIG. An optimal approach to the use of RhIG, however, has not been identified for the United States. Case histories and studies of volunteers reported over the past 40 years have established that alloimmunization to mismatched RBC transfusion can be successfully prevented with a dose of 20 microg of RhIG per 1 mL of D+ RBCs (per 2 mL of whole blood) when given within a window of opportunity that extends to at least 72 hours. Evidence from prospective studies of RhIG as a therapy for immune thrombocytopenic purpura suggests that such doses can be tolerably given by intravenous injections over short periods, with adverse event rates minimized when pretransfusion medication is given. For mismatched PLT transfusions, the lowest dose of standard preparations of RhIG (e.g., 125 or 300 microg) should be sufficient to prevent alloimmunization given the small D+ RBC volumes involved. This article reviews how our understanding of prevention of alloimmunization in mismatched transfusion has progressed over the years and outlines some practical considerations based on the currently available evidence.     

High frequency of autoimmunization among transfusion-dependent Tunisian thalassaemia patients

Background

Limited data are available on the frequency of RBC alloimmunization and autoimmunization in transfusion-dependant Tunisian β thalassaemia patients.

Materials and methods

We analyzed the clinical and transfusion records of 130 patients (57 females and 73 males; mean age 119 months; range 12–11 months) with β thalassaemia major and who had regular blood transfusions for periods ranging from 12 to 311 months.

Results

Of the 130 patients, ten (7.7%) developed RBC alloantibodies. The most common alloantibodies were directed against antigens in the Rh systems. Erythrocyte-autoantibodies as determined by a positive direct antiglobulin Coombs test, developed in 52(40%) patients with and without underlying RBC alloantibodies, thereby causing autoimmune haemolytic anaemia in eleven patients (21%).

Conclusions

Autoimmunization to erythrocyte antigens is a frequent complication in patients with β thalassaemia major. Several factors might have contributed to the high autoimmunization rate observed in this study, including non phenotypic blood exposure and alloantibody formation prior to positive Coombs test.     

Red blood cell alloimmunization in transfused patients with myelodysplastic syndrome or chronic myelomonocytic leukemia

BACKGROUND: Red blood cell (RBC) alloimmunization is a major problem in chronically transfused patients because of the risk of hemolytic reactions and limited availability of compatible blood. This study was aimed at determining the characteristics of RBC alloimmunization in transfusion‐dependent patients with myelodysplastic syndrome or chronic myelomonocytic leukemia (MDS/CMML). STUDY DESIGN AND METHODS: The transfusion and clinical records of all patients with MDS/CMML seen at our hospital from 1990 to 2009 were reviewed. The cumulative incidence of RBC alloimmunization was calculated by taking death as a competing risk. Incidence rates were compared by Poisson multivariate regression. RESULTS: A total of 272 patients were included. Median age was 74 years; 55% were men and had received a median of 33 (range, 4‐421) RBC units. Forty‐two (15%) patients formed 81 alloantibodies and seven autoantibodies. Three additional patients developed autoantibodies without alloantibodies. The incidence rate of RBC alloimmunization was 1 per 10.5 person‐years and was independent of sex, age, and MDS diagnostic category. The cumulative incidence of alloimmunization increased with the number of RBC transfusions, reaching a plateau at 19.5% after 130 RBC units. The most common antibody specificities were Kell (26 cases), E (19), c (5), and Jk^a (5). In 26 (62%) of the 42 alloimmunized patients, only the Rh system and Kell were involved. CONCLUSION: RBC alloimmunization occurs in 15% of MDS/CMML patients on chronic transfusion support and mostly involves the Rh system and Kell. Transfusing these patients with extended antigen‐matched blood, including Kell and CcEe antigens, would presumably reduce the RBC immunization rate.