First two cases of immune hemolytic anemia associated with ceftizoxime.

BACKGROUND: Second- and third-generation cephalosporins have been associated with immune-mediated hemolytic reactions. This report discusses two patients who developed clinically significant extravascular hemolysis while receiving the third-generation cephalosporin ceftizoxime (Ceftizox). This is believed to be the first time hemolysis has been described in patients receiving this drug. STUDY DESIGN AND METHODS: Immunologic workup of drug-dependent antibodies was performed on blood samples using drug-coated and immune complex methodologies. Antibody classes and titers were analyzed. RESULTS: Both the patients' sera contained anti-ceftizoxime that reacted with red cells only when ceftizoxime was added to the sera ("immune complex" method). The patients recovered without complications following discontinuation of the drug. Each patient had IgM and IgG drug-dependent antibodies. The drug-induced antibodies from each patient cross-reacted with cefotaxime, which is structurally similar to ceftizoxime, but cross-reacted either weakly or not at all with ceftriaxone, which has a more complex side chain. CONCLUSION: This report describes the first cases of immune hemolytic anemia associated with ceftizoxime. In drug-induced hemolytic reactions, prompt recognition and discontinuation of the drug may be important factors in reducing the chance of serious sequelae.

Ceftizoxime-induced hemolysis due to immune complexes: case report and determination of the epitope responsible for immune complex-mediated hemolysis.

BACKGROUND: Several occurrences of immune complex-mediated, cephalosporin-induced intravascular hemolysis have been reported. This report describes the first case of hemolytic anemia caused by an immune-complex mechanism associated with ceftizoxime and delineates the epitope responsible for hemolysis. CASE REPORT: The patient's serum was tested for antibody that reacted with five penicillins and 30 cephems (all types of cephalosporins) by using protocols to detect drug-adsorption and immune-complex mechanisms. The patient's antibody that formed immune complexes with ceftizoxime reacted with 10 of 30 cephems. These 10 drugs were classified as oxime-type cephalosporins, which have a common structural formula consisting of [(Z)-2-(2-amino-4-thiazolyl)-2-methoxyiminoacetoamido] at the C7 position on 7-aminocephalosporinic acid with or without substitution at the C3 position. CONCLUSION: The patient's antibody recognized a common structure in 10 oxime-type cephalosporins, and immune complexes formed by the antibody specifically or nonspecifically bound to red cell membranes. Therefore, when intermittent antibiotic therapy is required, as in this case, care should be taken in antibiotic selection to avoid drug-induced hemolytic anemia. In addition, when this type of hemolysis is observed, tests for antibody that reacts by adsorption and immune-complex mechanisms should be performed against penicillins and cephems to select antibiotics not showing a cross-reaction.