References
- Thomas M L. The leukocytes common antigen family. Annual Review of Immunology 1989; 7: 339–369
- Thomas M L. The regulation of B-and T-lymphocyte activation by the transmembrane protein tyrosine phosphates CD45. Current Opinion in Cell Biology 1994; 6: 247–252
- Caldwell C. W., Patterson W P. Relationship between T200 antigen expression and stages of B cell differentiation in resurgent hyperplasia of bone marrow. Blood 1987; 70: 1165–1172
- Shah V. O., Civin C. I., Loken M R. Flow cytometric analysis of human bone marrow, IV. Differential quantitative expression of T-200 common leukocyte antigen during normal hematopoiesis. The Journal of Immunology 1988; 140: 1861–1867
- Caldwell C. W., Patterson W P. Relationship between CD45 antigen expression and putative stages of differentiation in B-cell malignancies. American Journal of Hematology 1991; 36: 111–115
- Lavabre-Bertrand T., Duperray C., Brunei C., Poncelet P., Exbrayat C., Bourquard P., Lavabre-Bertrand C., Brocbier J., Navarro M., Janossy G. Quantification of CD24 and CD45 antigens in parallel allows a precise determination of B-cell maturation stages: relevance for the study of B-cell neoplasias. Leukemia 1994; 8: 402–408
- Dworzak M. N., Fritsch G., Printz C. D., Froschl G., Buchinger P., Mann G., Gadner H. Comparative phenotype mapping of normal, VS. malignant pediatric B-lymphopoiesis unveils leukemia-associated aberrations. Experimental Hematology 1988; 26: 305–313
- Behm F. G., Raimondi S. S., Schell M. J., Look A. T., Rivera G. K., Pui C H. Lack of CD45 antigen on blast cells in childhood acute lymphoblastic leukemia is associated with chromosome hyperdiploidy and other favorable prognostic features. Blood 1992; 79: 1011–1016
- Borowitz M. J., Shuster J., Carroll A. J., Nash M., Look A. T., Camilla B., Mahoney D., Lauer S. J., Puüen D J. Prognostic significance of fluorescence intensity of surface marker expression in childhood B-precursor acute lymphoblastic leukemia. A Pediatric Oncology Group study. Blood 1997; 89: 3960–3966
- Ralei R., Sperling C., Karawajew L., Schotl G., Schrappe M., Harbott J., Reihm H., Ludwig W D. Immunophenotype and clinical characteristics of CD45-negative and CD45-positive childhood acute lymphoblastic leukemia. Ann Hematol 1998; 77: 107–114
- Tsurusawa M., Katano N., Yamamolo Y., Hirota T., Koizumi S., Watanabe A., Takeda T., Hatae Y., Yatabe M., Mimaya M., Gushiken T., Nishi K., Anami K., Kikuta A., Kanegane H., Asami K., Nishikawa K., Sekine I., Kawano Y., Iwai A., Furuyama T., Ijichi O., Miyake M., Mugishima H., Ota S., Fujimoto T. Improvement in CNS protective treatment in non-high-risk childhood acute lymphoblastic leukemia: Report from the Japanese Children's Cancer and Leukemia Study Group. Medical and Pediatric Oncology 1999; 32: 259–266
- Borowitz M. J., Guenther K. L., Shulls K. E., Stelzer G T. Immunophenotyping of acute leukemia by flow cytometric analysis. Use of CD45 and right-angle light scatter lo gate on leukemia blasts in three-color analysis. American Journal of Clinical Pathology 1993; 100: 534–540
- Caldwell C. W., Patterson W. P., Hakami N. CD45 expression and prognosis in acute lymphoblastic leukemia. Blood 1993; 81: 562, (letter)
- Bikoue A., George F., Poncelet P., Mutin M. M, Janossy G., Sampol J. Quantitative analysis of leukocyte membrane antigen expression: normal adull values. Cytometry 1993; 26: 137–147