Background: Warm autoimmune hemolytic anemia (WAIHA) is characterized by the development of autoantibodies that react with red blood cells (RBCs) optimally at physiologic temperature, classically resulting in a positive direct antiglobulin test (DAT) for IgG and a panreactive eluate. Babesiosis has been described as a potentiator of WAIHA, and all cases have shown classic blood bank findings. Only rare reports have described autoantibodies, both secondary to babesiosis and overall, with specificity for Kidd antigens.Methods: Antibody detection and identification were performed using IgGspecific column agglutination technology. Jk a antigen phenotyping was assessed using monoclonal reagents and genotypic analysis was performed at an immunohematology reference laboratory. DATs were performed via standard tube methods. The elution was performed using the ELUclear glycine acid red cell elution kit. Results: We report a case of WAIHA induced by Babesia microti infection with an autoantibody with Jk a specificity, originally believed to be a delayed hemolytic transfusion reaction, given the detection of an RBC antibody in close proximity to numerous RBC transfusions. Determination of autoantibody status with anti-Jk a -like reactivity was only confirmed after Kidd antigen genotyping predicted expression of the Jk a antigen.Discussion: Healthcare providers should be cognizant of the potential for babesiosis-induced WAIHA, particularly in individuals who continue to hemolyze despite undetectable parasitemia. Furthermore, this case highlights the possibility for warm autoantibodies to demonstrate Kidd antigen specificity. Though Kidd antigen variants are rare, antigen genotyping may be beneficial, particularly in the context of recent RBC transfusions, which typically preclude accurate serological phenotypic assessment.
Background
Red blood cell (RBC) alloimmunization can occur secondary to transfusion or pregnancy. It is observed most frequently among patients with hemoglobinopathies and myeloid neoplasms. Although previous antigen exposure is generally required for alloimmunization, some alloantibodies may develop naturally without prior exposure. Other alloantibodies may become evanescent, only to reemerge at a detectable titer following a stimulatory event. In a minute fraction of cases, ‘non‐naturally occurring’ alloantibodies may appear without a known antigenic stimulus.
Methods and Materials
All testing (antibody detection tests and identification, antigen phenotyping, and crossmatching) was performed using the same method and reagents, but occurred at two hospitals within the Yale New Haven Hospital delivery network, and was performed by technologists utilizing different instruments and reagent lots.
Results
We present two cases of seemingly de novo alloimmunization (anti‐E and anti‐K), and one case of re‐emergence of a known, previously evanescent alloantibody (anti‐K) following transfusion of RBCs that were antigen‐negative for the corresponding antibodies.
Conclusion
While the exact mechanism underlying the development and/or re‐emergence of RBC alloantibodies in the absence of antigenic stimulation remains unclear, these cases highlight this unusual phenomenon, underscoring the general immunogenicity, as well as the potential consequences, of RBC transfusion and reiterates the importance of concluding an alloantibody specificity, even in the absence of known transfusion of RBCs with a particular antigen.
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