Your search keyword '"Procter Jl"' showing total 3 results

1. Delayed donor red cell chimerism and pure red cell aplasia following major ABO-incompatible nonmyeloablative hematopoietic stem cell transplantation.

Author

Bolan CD, Leitman SF, Griffith LM, Wesley RA, Procter JL, Stroncek DF, Barrett AJ, and Childs RW

Subjects

Erythrocytes physiology, Graft vs Host Disease etiology, Hemagglutinins metabolism, Humans, Immunoglobulins biosynthesis, Kinetics, Red-Cell Aplasia, Pure blood, Red-Cell Aplasia, Pure diagnosis, Transplantation Chimera, ABO Blood-Group System immunology, Blood Donors, Erythropoiesis, Hematopoietic Stem Cell Transplantation adverse effects, Red-Cell Aplasia, Pure etiology, Transplantation Conditioning

Abstract

Delayed donor red cell engraftment and pure red cell aplasia (PRCA) are well-recognized complications of major ABO-incompatible hematopoietic stem cell transplantation (SCT) performed by means of myeloablative conditioning. To evaluate these events following reduced-intensity nonmyeloablative SCT (NST), consecutive series of patients with major ABO incompatibility undergoing either NST (fludarabine/cyclophosphamide conditioning) or myeloablative SCT (cyclophosphamide/high-dose total body irradiation) were compared. Donor red blood cell (RBC) chimerism (initial detection of donor RBCs in peripheral blood) was markedly delayed following NST versus myeloablative SCT (median, 114 versus 40 days; P <.0001) and strongly correlated with decreasing host antidonor isohemagglutinin levels. Antidonor isohemagglutinins declined to clinically insignificant levels more slowly following NST than myeloablative SCT (median, 83 versus 44 days; P =.03). Donor RBC chimerism was delayed more than 100 days in 9 of 14 (64%) and PRCA occurred in 4 of 14 (29%) patients following NST, while neither event occurred in 12 patients following myeloablative SCT. Conversion to full donor myeloid chimerism following NST occurred significantly sooner in cases with, compared with cases without, PRCA (30 versus 98 days; P =.008). Cyclosporine withdrawal appeared to induce graft-mediated immune effects against recipient isohemagglutinin-producing cells, resulting in decreased antidonor isohemagglutinin levels and resolution of PRCA following NST. These data indicate that significantly delayed donor erythropoiesis is (1) common following major ABO-incompatible NST and (2) associated with prolonged persistence of host antidonor isohemagglutinins. The clinical manifestations of these events are affected by the degree and duration of residual host hematopoiesis.

Published

2001

2. Massive immune haemolysis after allogeneic peripheral blood stem cell transplantation with minor ABO incompatibility.

Author

Bolan CD, Childs RW, Procter JL, Barrett AJ, and Leitman SF

Subjects

Adult, Cyclosporine therapeutic use, Erythrocyte Transfusion, Fatal Outcome, Female, Humans, Immunosuppressive Agents therapeutic use, Leukemia blood, Leukemia complications, Leukemia, B-Cell blood, Leukemia, B-Cell complications, Leukemia, B-Cell surgery, Leukemia, Myelomonocytic, Acute blood, Leukemia, Myelomonocytic, Acute complications, Leukemia, Myelomonocytic, Acute surgery, Lymphoma, Non-Hodgkin blood, Lymphoma, Non-Hodgkin complications, Lymphoma, Non-Hodgkin surgery, Male, Middle Aged, Monitoring, Physiologic methods, Prospective Studies, Transplantation Conditioning methods, ABO Blood-Group System, Blood Group Incompatibility complications, Hematopoietic Stem Cell Transplantation adverse effects, Hemolysis, Leukemia surgery

Abstract

Immune haemolysis as a result of minor ABO incompatibility is an underappreciated complication of haematopoietic transplantation. The increased lymphoid content of peripheral blood stem cell (PBSC) transplants may increase the incidence and severity of this event. We observed massive immune haemolysis in 3 out of 10 consecutive patients undergoing HLA-identical, related-donor PBSC transplants with minor ABO incompatibility. Non-ablative conditioning had been given in 9 of these 10 cases, including two with haemolysis. Cyclosporin alone was used as prophylaxis against graft-vs.-host disease (GVHD). Catastrophic haemolysis of 78% of the circulating red cell mass led to anoxic death in the first case seen, but severe consequences were avoided by early, vigorous donor-compatible red cell transfusions in the subsequent two cases. Haemolysis began 7-11 d after PBSC infusion and all patients with haemolysis had a positive direct antiglobulin test (DAT), with eluate reactivity against the relevant recipient antigen. However, neither the intensity of the DAT, the donor isohaemagglutinin titre, nor other factors could reliably be used to predict the occurrence of haemolysis. Our data indicate that haemolysis may be frequent and severe after transplantation of minor ABO-incompatible PBSCs when utilizing cyclosporin alone to prevent GVHD. Meticulous clinical monitoring and early, vigorous donor-compatible red cell transfusions should be practiced in all instances.

Published

2001

3. Evaluation of the gel system for ABO grouping and D typing.

Author

Langston MM, Procter JL, Cipolone KM, and Stroncek DF

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Antibody Specificity, Anticoagulants, Chelating Agents, Child, Child, Preschool, Edetic Acid, Evaluation Studies as Topic, Female, Gels, Hemagglutinins immunology, Humans, Male, Middle Aged, Neoplasms blood, Neoplasms immunology, Rho(D) Immune Globulin, Sensitivity and Specificity, Temperature, ABO Blood-Group System immunology, Blood Grouping and Crossmatching methods, Hemagglutination Tests methods, Hemagglutinins blood, Isoantibodies blood, Rh-Hr Blood-Group System immunology

Abstract

Background: The gel agglutination assay has been approved by the Food and Drug Administration as an alternative to the tube assay for the detection of red cell antibodies. It has also been approved recently by the Food and Drug Administration for ABO blood grouping and D typing., Study Design and Methods: Tube and gel agglutination assays were compared for ABO grouping and D typing of 100 donor and 100 patient specimens. ABO grouping of 14 specimens of known ABO groups and D typing of 10 specimens with weak D were also compared. When antigen typing or isohemagglutinin results differed, gel testing was repeated by the use of modified incubation times, reagent or specimen volumes, and red cell concentrations., Results: ABO grouping and D typing in all patient and donor specimens concurred. B isohemagglutinins were not detected in seven group A specimens. Six of seven discrepancies were resolved when gel tests were incubated at room temperature with increased serum or plasma volume. Weak D was detected in all 10 specimens tested by both assays. When weak A and/or B were tested with monoclonal antibody reagents, the correct phenotypes were identified in 9 specimens by gel assay and in 10 by tube assay. Using human antisera, 6 specimens were correctly phenotyped by gel assay and 7 by tube assay., Conclusion: The gel assay performed as well as the tube assay in detection of A, B, and D, but the tube assay was slightly better at detecting B isohemagglutinins. The gel assay can be used in place of the tube assay for ABO blood grouping and D typing.

Published

1999