BACKGROUND: Biotin-labeled (biotinylated) red cells (B-RBCs) offer a technique by which to study RBC volume and circulating kinetics without in vivo radiation. The immunogenicity of B-RBCs is undefined. STUDY DESIGN AND METHODS: To determine if biotinylation renders RBCs immunogenic, autologous B-RBCs were transfused to 20 healthy subjects, and plasma samples were obtained before transfusion and serially for up to 6 months after transfusion. These serial samples, plus plasma from 20 normal control subjects not given B-RBCs, were screened for antibodies to B-RBCs by use of an antiglobulin technique against aliquots of group O RBCs from a single donor-one aliquot biotinylated and one aliquot not biotinylated (i.e., test and control RBCs). Posttransfusion recovery and survival of B-RBCs were also determined. RESULTS: Plasma from none of 20 normal nontransfused subjects reacted with B-RBCs. Similarly, none of the 20 subjects given autologous B-RBC transfusions exhibited antibodies before transfusion. However, 3 of the 20 subjects transiently produced antibodies to B-RBCs after transfusion. Antibodies disappeared within 6 months in 2 of these 3 subjects and within 12 months in the third. Antibody reactivity was not reduced by dithiothreitol, but in 2 of the 3 subjects, B-RBC antibodies were neutralized by incubation with biotin solution. Circulating RBC kinetics were not altered in the 3 subjects with antibody. The significance of these observations is unclear, because antibodies were just beginning to emerge during the studies. CONCLUSIONS: Biotinylation does not render RBCs reactive with normal human plasma (i.e., presumably does not evoke neoantigens). Transfused B-RBCs occasionally provoke IgG antibodies in healthy subjects. Because the biologic effects of B-RBC antibodies currently are unknown, testing for them is recommended when multiple B-RBC transfusions are given to study RBC volume or circulating kinetics.
BACKGROUND:Biotin-labeled (biotinylated) red cells (B-RBCs) offer a technique by which to study RBC volume and circulating kinetics without in vivo radiation. The immunogenicity of B-RBCs is undefined. STUDY DESIGN AND METHODS: To determine if biotinylation renders RBCs immunogenic, autologous B-RBCs were transfused to 20 healthy subjects, and plasma samples were obtained before transfusion and serially for up to 6 months after transfusion. These serial samples, plus plasma from 20 normal control subjects not given B-RBCs, were screened for antibodies to B-RBCs by use of an antiglobulin technique against aliquots of group O RBCs from a single donor-one aliquot biotinylated and one aliquot not biotinylated (i.e., test and control RBCs). Posttransfusion recovery and survival of B-RBCs were also determined. RESULTS: Plasma from none of 20 normal nontransfused subjects reacted with B-RBCs. Similarly, none of the 20 subjects given autologous B-RBC transfusions exhibited antibodies before transfusion. However, 3 of the 20 subjects transiently produced antibodies to B-RBCs after transfusion. Antibodies disappeared within 6 months in 2 of these 3 subjects and within 12 months in the third. Antibody reactivity was not reduced by dithiothreitol, but in 2 of the 3 subjects, B-RBC antibodies were neutralized by incubation with biotin solution. Circulating RBC kinetics were not altered in the 3 subjects with antibody. The significance of these observations is unclear, because antibodies were just beginning to emerge during the studies. CONCLUSIONS: Biotinylation does not render RBCs reactive with normal human plasma (i.e., presumably does not evoke neoantigens). Transfused B-RBCs occasionally provoke IgG antibodies in healthy subjects. Because the biologic effects of B-RBC antibodies currently are unknown, testing for them is recommended when multiple B-RBC transfusions are given to study RBC volume or circulating kinetics.
Authors: Robert L Schmidt; Donald M Mock; Robert S Franco; Robert M Cohen; Anne K North; José A Cancelas; Christof Geisen; Ronald G Strauss; Alexander P Vlaar; Demet Nalbant; John A Widness Journal: Transfusion Date: 2017-03-05 Impact factor: 3.157
Authors: Donald M Mock; Demet Nalbant; Svetlana V Kyosseva; Robert L Schmidt; Guohua An; Nell I Matthews; Alexander P J Vlaar; Robin van Bruggen; Dirk de Korte; Ronald G Strauss; José A Cancelas; Robert S Franco; Peter Veng-Pedersen; John A Widness Journal: Transfusion Date: 2018-05-16 Impact factor: 3.157
Authors: Donald M Mock; John A Widness; Peter Veng-Pedersen; Ronald G Strauss; Jose A Cancelas; Robert M Cohen; Christopher J Lindsell; Robert S Franco Journal: Transfus Med Rev Date: 2014-04-05
Authors: Donald M Mock; Nell I Matthews; Ronald G Strauss; Leon F Burmeister; Robert Schmidt; John A Widness Journal: Transfusion Date: 2009-02-10 Impact factor: 3.157
Authors: John A Widness; Denison J Kuruvilla; Donald M Mock; Nell I Matthews; Demet Nalbant; Gretchen A Cress; Robert L Schmidt; Ronald G Strauss; M Bridget Zimmerman; Peter Veng-Pedersen Journal: J Pediatr Date: 2015-09-09 Impact factor: 4.406