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Research Article

AN OVERVIEW OF THE USE OF FLOW CYTOMETRY IN THE ANALYSIS OF MIXED RED CELL POPULATIONS

Pages 191-198 | Published online: 06 Jul 2009

  • Coulter WH. High speed automatic blood cell counter and cell size analyser. Proc Natl Electron Conf 1956; 12: 1034-42.
  • Jennings CD, Foon KA. Recent advances in flow cytometry: application to the diagnosis of hematologic malignancy. Blood 1997; 90: 2863-92.
  • Banerjee D. Flow cytometry related to hematopoietic malignancy. Transfus Sci 1995; 16: 315-20.
  • Wright JF, Lazarus AH, Freedman J. Applications of flow cytometry in the analysis of blood leukocytes. Transfus Sci 1995; 16: 333-41.
  • Garratty G, Arndt P. Applications of flow cytofluorometry to transfusion science. Transfusion 1995; 35: 157-78.
  • Michelson AD. Flow cytometry: a clinical test of platelet function. Blood 1996; 87: 4925-36.
  • van der Meulen FW, de Bruin HG, Goosen PC, et al. Quantitative aspects of the destruction of red cells sensitized with IgG1 autoantibodies: an applications of flow cytofluorometry. Br J Haematol 1980; 46: 47-56.
  • Freedman J, Lazarus AH. Applications of flow cytometry in transfusion medicine. Transfus Med Rev 1995; IX: 87-109.
  • Nelson M, Popp H, Forsyth C, Gibson J. Rapid quantitation of mixed red cell populations using flow cytometry. Clin lab Haematol 1996; 18:207-13.
  • Langlois RG, Bigbee WL, Jensen RH. Flow cytometric characterization of normal and variant cells with monoclonal antibodies specific for glycophorin A. J Immunol 1985; 134: 4009-17.
  • Cartron JP, Bailly P, Le Van Kim C, et al. Insights into the structure and function of membrane polypeptides carrying blood group antigens. Vox Sang 1998; 74 (Suppl 2): 29-64.
  • Pirofsky B, Rosner ER. DTT test: a new method to differentiate IgM and IgG erythrocyte antibodies. Vox Sang 1974; 27: 480-8.
  • Thorpe SJ, Thein SL, Sampietro M, et al. Immunochemical estimation of haemoglobin types in red blood cells by FACS analysis. Br J Haematol 1994; 87: 125-32.
  • Bigelow NC, Davis BH, Olsen SH, et al. Flow cytometric detection of fetal hemoglobin (HbF) containing red blood cells. Oral presentation #606. Int J Hematol 1996; 64 (Suppl 1): Sl 57.
  • Davis BH, Olsen S, Bigelow NC, Chen JC. Detection of fetal red cells in fetomaternal hemorrhage using a fetal hemoglobin monoclonal antibody by flow cytometry. Transfusion 1998; 38: 749-56.
  • Nelson M, Zarkos K, Popp H, Gibson J. A flow-cytometric equivalent of the Kleihauer text. Vox Sang 1998; 75: 234-41.
  • Old JM, Ludlam CA. Antenatal diagnosis. In: Hann IM, Gibson BES, editors. Ballière's Clinical Haematology. International Practice and Research. VoI 4. no 2, Paediatric Haematology. London: Ballière Tindall, 1991; 391-428.
  • Nelson M, Popp H, Horky K, etal. Development of a flow cytometric test for the detection of D-positive fetal cells after fetomaternal hemorrhage and a survey of the prevalence in D-negative women. Immunohematology 1994; 1: 55-9.
  • Polesky HF, Sebring ES. Evaluation of methods for detection and quantitation of fetal cells and their effect on RhIgG usage. Am J Clin Pathol 1981; 76 (Suppl): 525-9.
  • National Health and Medical Research council of Australia Guidelines for the use of RhD immunoglobulin (anti-D) in obstetrics. Canberra: Commonwealth Department of Human Services and Health, 1996.
  • Clarke CA. Prevention of Rh-haemolytic disease: results of the clinical trial a combined study from centres in England and Baltimore. Br med J 1966; 2: 907-14.
  • Clarke CA. Prevention of RH haemolytic disease. A method based on the post-delivery injection of the mother with anti-D antibody. Vox Sang 1966; 11:641-55.
  • McConnell RB. The prevention of Rh haemolytic disease. Anna Rev Med 1966; 17: 291-306.
  • Duguid JKM, Bromilow IM, Eggington J, et al. Kleihauer testing and flow cytometry. A comparative study for assessment of fetomaternal haemorrhage. Hematology 1996; 1: 79-83.
  • Bromilow IM, Duguid JKM. Measurement of feto-maternal haemorrhage: a comparative study of three Kleihauer techniques and two flow cytometry methods. Clin Lab Haem 1997; 19: 137-42.
  • Kuhns WJ, Oliver RTD, Watkins WM, Greenwell P. Leukemiainduced alterations of serum glycosyltransferase enzymes. Cancer Res 1980; 40: 268-75.
  • Popp HJ, Nelson M, Forsyth C, et al. Quantifying the loss of ABO antigenicity in a patient with acute myeloid leukemia by flow cytometric analysis. Immunohematology 1995; 11: 5-7.
  • Vengelen-Ty1er V. The Rh blood group system and its association with disease. In: Vengelen-Taylor V, Pierce SR, editors. Blood Group Systems: Rh. Arlington VA: American Association of Blood Banks, 1987; Chapter 4, pp 77-99.
  • Cherif-Zahar B, Bony V, Steffensen R, et al. Shift from Rh-positive to Rh-negative phenotype caused by a somatic mutation within the RHD gene in a patient with chronic myelocytic leukaemia. Br J Haematol 1998; 102: 1263-70.
  • Packman CH. Pathogenesis and management of paroxysmal nocturnal haemoglobinuria. Blood Rev 1998; 12: 1-11.
  • Rosse WF, Dacie JV. Immune lysis of normal human and paroxysmal nocturnal hemoglobinuria red blood cells. I. The sensitivity of PNH red cells to lysis by complement and specific antibody. J Clin Invest 1966; 45: 736-48.
  • Ham TH. Chronic hemolytic anemia with paroxysmal nocturnal hemoglobinuria. A study of the mechanism of hemolysis in relation to acid-base equilibrium. New Engl J Med 1937; 217: 915-7
  • Ham TH, Dingle JH. Studies on destruction of red blood cells. II. Chronic hemolytic anemia with paroxysmal nocturnal hemoglobinuria: certain immunological aspects of hemolytic mechanism with special reference to serum complement. J Clin Invest 1939; 18: 657-72.
  • Navenot JM, Bernard D, Harousseau JL, et al. Expression of glycosy 1phosphatidylinositol-linked glycoproteins in blood cells from paroxysmal nocturnal haemoglobinuria patients. A flow cytometry study using CD55, CD58 and CD59 monoclonal antibodies. Leak Lymphoma 1996; 21: 143-51.
  • Arnold R, Schmeiser T, Heith W, et al. Haematopoietic reconstitution after bone marrow transplantation. Exp Haematol 1986; 18: 271-2.
  • Lazarus HM, Chahine A, Lacema K, et al. Kinetics of erythrogenesis after bone marrow transplantation. Am J Clin Pathol 1992; 97: 574-83.
  • d'Onofrio G, Tichelli A, Foures C, Theodorsen L. Indicators of haematopoietic recovery after bone marrow transplantation: the role of reticulocyte measurements. Clin Lab Haematol 1996; 18 (Suppl 1): 45-53.
  • Perry ES, Moore RH, Berger TA, et al. In vitro and in vivo persistence of reticulocytes from donor red cells. Transfusion 1996; 36: 318-21.
  • Klumpp TR. Immunohematologic complications of bone marrow transplantation. Bone Marrow Transplant 1991; 8: 159-70.
  • Bär BMAM, Van Dijk BA, Schattenberg A, et al. Erythrocyte repopulation after major ABO incompatible transplantation with lymphocyte-depleted bone marrow. Bone Marrow Transplant 1995; 16: 793-9.
  • Blanchard D, Bruneau V, Bernard D, et al. Flow cytometry analysis of dual red blood cell populations after bone marrow transplantation. Br J Haematol 1995; 89: 741-7.
  • Forsyth C, Nelson M, Popp H, et at. Autologous red cell recovery and relapse of multiple myeloma after bone marrow transplantation: is this a graft-versus-myeloma effect? Bone Marrow Transplant 1996; 17: 457-9.
  • Nelson M, Popp H, Forsyth C, Gibson J. Determination of fetal red cell antigens in chorionic villi samples using flow cytometry. Transfus Med 1995; 5: 151-6.
  • Bennett PR, Le Van Kim C, Colin Y, et al. Prenatal determination of fetal RhD by DNA amplification. New Engl J Med 1993; 239: 607-10.
  • Redman CM, Lee S. The KeIl blood group system. Transfus Clin Biol 1995; 2: 243-9.
  • Hyland CA, Woher LC, Liew Y-W, Saul A. A southern analysis of Rh blood group genes: association between restriction fragment length polymorphism patterns and Rh serotypes. Blood 1994; 83: 566-72.
  • Andrews KT, Woher LC, Saul A, Hyland CA. The RhD trait in a white patient with the RhCCee phenotype attributed to a four-nucleotide deletion in the RHD gene. Blood 1998; 92: 1839-40.
  • Avent ND. Antenatal genotyping of the blood groups of the fetus. Vox Sang 1998; 74 (Suppl 2): 365-74.
  • Hyland CA, Woher LC, Saul A. Three unrelated Rh D genepolymorphisms identified among blood donors with Rhesus Ccee (r' r') phenotypes. Blood 1994; 84: 321-4.
  • Oien L, Nance S, Arndt P, Garratty G. Determination of zygosity using flow cytometric analysis of red cell antigen strength. Transfusion 1988; 28: 541-4.
  • Nance SJ. Flow cytometry related to red cells. Transfus Sci 1995; 16: 343-52.
  • Garratty G, Nance SJ. Correlation between the in vivo hemolysis and the amount of red cell-bound IgG measured by flow cytometry. Transfusion 1990; 30: 617-21.
  • Christensson M, Bremme K, Shanwell A, et al. Flow cytometric quantitation of serum anti-D in pregnancy. Transfusion 1996; 18: 207-13.
  • Austin EB, Mclntosh Y, Hodson C, Lee D. Anti-D quantification by flow cytometry: an alternative to the AutoAnalyser? Transfus Med 1995; 5: 203-8.
  • Hilden J-O, Backteman K, Nilsson I, Emerudh I. Flow-cytometric quantitation of anti-D antibodies. Vox Sang 1997; 72: 172-6.
  • Lynen R, Neuhaus R, Schwarz DWM, et al. Flow cytometric analyses of the subclasses of red cell IgG antibodies. Vox Sang 1995; 69: 126-30.
  • Hadley AG. A comparison of in vitro tests for predicting the severity of haemolytic disease of the fetus and newborn. Vox Sang 1998; 74 (Suppl 2): 375-83.

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