Abstract
Platelet transfusions were introduced in the early sixties. However they have only been developed when plastic bags could be used as blood containers. Another important step was achieved when cell separators have permit to obtain large amount from one blood donor. Platelet transfusions are now a common therapeutical approach of primary thrombocytopenia or cytopenia secondary to chemotherapy. Their development has pointed out two aspects: first the role of platelet alloantigen, second the importance of the technique used to collect platelet and the conditions of platelet storage.
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References
von dem Borne, A.E.G.Kr. and Decary, F., ‘ICSH/ISBT Working party on platelet serology’, Vox. Sang. 1990, 58: 176.
van Loghem, J.J., Dorfmeyer, H. and van den Hart, M., ‘Serological and genetical studies on a platelet antigen (Zw)’, Vox Sang. 1959, 4: 161–169.
Shulman, N.R., Aster, R.H., Leitner A. and Hiller, M., ‘Immun-reaction involving platelets. V: post transfusion purpura due to a complement fixing antibody against a genetically controlled platelet antigen. A proposed mechanism for thrombocytopenia and its relevance in “autoimmunity”’, J. Clin. Invest. 1961, 40: 1597–1620.
Mueller-Eckhardt, C., Kroll, H., Kiefel, V. and the members of the european PTP group, ‘Post transfusion purpura’, in: Platelet Immunology: Fundamental and Clinical Aspects 1990, Edited by Editions Inserm, John Lilley Eurotext; Paris, Londres; 206: 249–255.
Gruel, Y., Boizard, B., Daffos, F., Forestier, F., Caen, J. and Wautier, J.L., ‘Determination of platelet antigens and glycoproteins in the human fetus’, Blood 1986, 68: 488–492.
Reznikoff-Etievant, M.F., Muller, J.Y., Julien, F. and Patereau, C., ‘An immune response gene linked to MHC in man’, Tissue Antigens 1983, 22: 312–314.
Kieffer, N., Boizard, B., Didry, D., Wautier, J.L. and Nurden, A.T., ‘Immunochemical characterization of the platelet specific alloantigen Leka. A comparison study with the P1A1 alloantigen’, Blood 1984, 64: 1212–1219.
Newman, P.J., Derbes, R.S. and Aster, R.H., ‘The human platelet alloantigens, PLA1 and PLA2, are associated with a leucine 33/ proline 33 aminoacid polymorphism in membrane glycoprotein IIIa, and are distinguishable by DNA typing’, J. Clin. Invest. 1989, 83: 1778–1781.
van der Weerdt, C.M., van de Wiel-Dorfmeyer, H., Engelfriet, C.P. and van Loghem, J.J., ‘A new platelet antigen’, Proc. 8th Congr. Europ. Soc. Haemat. Wien 1961, 379, Karger, Basel.
Kuijpers, R.W.A.M., Ouwehand, W.H., Bleeker, P.M.M., Christie, D. and von dem Borne A.E.G.Kr., ‘Localization of the platelet-specific HPA-2 (Ko) alloantigens on the N-terminal globular fragment of platelet glycoprotein Ib alpha’, Blood1992, 79: 283–288.
Kuijpers, R.W.A.M., Faber, N.M., Cuypers, H.TH., Ouwehand, W.H. and von dem Borne, A.E.G.Kr., ‘NH2-terminal globular domain of human platelet glycoprotein Ib alpha has a methionine 145/threonine 145 amino acid polymorphism, which is associated with the HPA-2 (Ko) alloantigens’, J. Clin. Invest. 1992, 89: 381–384.
von dem Borne, A.E.K.Kr., von Riesz, E., Vergheught, F.W.A., ten Cate, J.W., Koppe, J.G., Engelfriet, C.P. and Nijenhuis, L.E., ‘Baka, a new platelet-specific antigen involved in neonatal allo-immune thrombocytopenia’, Vox Sang. 1980, 39: 113–120.
Boizard, B. and Wautier, J.L., ‘Leka, a new platelet antigen absent in glanzmann thrombasthenia’, Vox. Sang. 1984, 46: 47–54.
Lyman, S., Aster, R.H., Visentin, G.P. and Newman P.J., ‘Polymorphism of human platelet membrane glycoprotein IIb associated with the BaKa/BaKb alloantigen system’, Blood 1990, 75: 2343–2348.
Friedman, J.M. and Aster, R.H., Neonatal alloimune thrombocytopenic purpura and congenital porencelophaly in two siblings associated with a “new” maternal antiplatelet antibody’, Blood 1985, 65: 1412–1415.
Shibata, Y., Miyayi, Y., Ichikawa, Y. and Matsuda, I., ‘A new platelet antigen system, Yuka/Yukb’, Vox Sang. 1986, 51: 334–336.
Furihata, K., Nugent, D.J., Bissonette, A. and Aster, R.H., ‘On the association of the platelet specific alloantigen Pena with glycoprotein IIIa. Evidence for heterogeneity of glycoprotein IIIa’, J. Clin. Invest. 1987, 80: 1624–1630.
Kiefel, V., Santoso, S., Katzmann, B. and Mueller-Eckhardt C., ‘A new platelet specific alloantigen Bra. Report of 4 cases with neonatal alloimune thrombocytopenia’, Vox Sang. 1988, 54: 101–106.
Woods, V.L., Pischel, K.D., Avery, E.D. and Bluestein, M.G., ‘Antigenic polymorphism of human very late activation protein-2 (platelet glycoprotein la-IIa). Platelet alloantigen Hca’, J. Clin. Invest. 1989, 83: 978–985.
Santoso, S., Kiefel, V., Kroll, H. and Mueller-Eckardt, C., ‘Immunochemical charactherization of the new platelet alloantigen system Bra/Brb’, Br. J. Haematol. 1989, 72: 191–198.
Mueller-Eckhardt, C., Kiefel, V., Kroll, H., Mueller-Eckhardt, G., ‘HLA-DRw6, a new immune response marker for inmmunization against the platelet alloantigen Bra’, Vox Sang. 1989, 57: 90–91.
Moulinier, J., ‘Iso-immunisation maternelle anti plaquettaire et purpura neo natal. Le systeme de groupe plaquettaire “DUZO”’, Proc. 6th Cong. Europ. Soc. Haematol. Copenhagen 1957, 236: 817–820, Karger, Basel.
Furihata, K., Hunter, J., Aster, R.H., Koewing, G.R., Shulman, N.R. and Kunicki, T.J., ‘Human anti P1E1 antibody recognizes epitopes associated with the alpha subunit of platelet glyprotein Ib’, Br. J. Haematol. 1988, 68: 103–110.
Tomiyama, Y., Take, H., Ikeda H., etal. , ‘Identification of the platelet-specific alloantigen, Naka, on platelet membrane glycoprotein IV’, Blood1990, 75: 684–687.
Kelton, J.G., Smith, J.W., Horsewood, P., Humbert, J.R., Hayward, C.P.M. and Warkentin, T.E.: Gova/Govb alloantigen system on human platelets. Blood, 1990; 75, 2172–2176.
Kroll, H., Kiefel, V., Santoso, S. and Mueller-Eckhardt, C., ‘Sra, a private platelet antigen on glycoprotein IIIa associated with neonatal alloimmune thrombocytopenia’, Blood 1990, 76: 2296–2302.
von dem Borne, A.E.G.Kr. and Kuipjers, R.W.A.M., ‘Platelet antigens, new aspects’, in: Platelet Immunology: Fundamental and Clinical Aspects. Colloque Inserm/John Libbey Eurotext. 1991, 206: 219–240.
Bertholf, M.F. and Mintz, P.D., ‘Comparison of plateletpheresis using two cell separators and identical donors’, Transfusion 1989, 29: 521–523.
Murphy, S., Sayar, S.N. and Gardner, F.H., ‘Storage of platelet concentrates at 22 degrees C’, Blood 1970, 35: 547–549.
Slichter, S.J., ‘Optimum platelet concentrate preparation and storage’, in: Current Concepts in Tranfusion Therapy. Arlington, VA: American Association of Blood banks. 1985, 1–26.
Slichter, S.J. and Harker, L.A., ‘Preparation and storage of platelet concentrates’, Br. J. Haematol. 1976, 34: 395–402.
Fijnheer, R., Piertersz, R.N.I., de Korte, D., Gouwerok, C.W., Dekker, W.J., Reesink, H.W. and Roos, D., ‘Platelet activation during preparation of platelet concentrates: a comparison of the platelet-rich plasma and the buffy coat methods’, Transfusion 1990, 30: 634–638.
Pamphilon, D.H., Potter, M., Cutts, M., Meenaghan, M., Rogers, W., Slade, R.R., Saunders, J., Tandy, N.P. and Fraser, I.D.,‘Platelet concentrates irradiated with ultraviolet light retain satisfactory in vitro storage characteristics and in vivo survival’, Br. J. Haematol. 1990, 75: 240–244.
Sturk, A., Burt, L.M., Hakvoort, T., ten Cate, J.W. and Crawford, N., ‘The effect of storage on platelet morphology’, Transfusion 1882, 22: 115–120.
Gottschall, J.L., Rzad L. and Aster, R.H., ‘Studies of the minimum temperature at which human platelets can be stored with full maintenance of viability’, Transfusion 1986, 26: 460–462.
Simon, T.L., Nelson, E.J., Carmen, R. and Murphy, S., ‘Extension of platelet concentrate storage’, Transfusion 1983, 23: 207–212.
Wallvik, J., Stenke, L. and Akerblom, O., ‘The effect of different agitation modes on platelet metabolism, thromboxane formation, and alpha granular release during platelet storage’, Transfusion1990, 30: 639–643.
Grode, G., Miripol, J., Gerber J. and Buchholz, D.H., ‘Extensed storage of platelets in a new plastic container’, Transfusion 1985, 25: 204–208.
Hogge, D.E., Thompson, B.W. and Schiffer, C.A., ‘Platelet storage for 7 days in second generation blood bags’, Transfusion 1986, 26: 131–135.
Stack, G. and Snyder, E.L., ‘Storage of platelet concentrate’, in: Blood Separaration and Plasma Fractionnation 1991, 99–125, Wiley-Liss Inc.
Rinder, H.M., Murphy, M., Mitchell, J.G., Stocks, J., Ault, K.A. and Hillman, R.S., ‘Progressive platelet activation with storage: evidence for shortened survival of activated platelets after transfusion’, Transfusion 1991, 31: 409–414.
Xi, T.F., Wang, C.R., Lei, X.H. and Tian, W.H., ‘Deformation and classification of the adhesive platelets on the surface of biomaterials’, Transactions of 3rd World Biomaterials Congress 1988, 315–316.
Bowry, S.K., Courtney, J., Prentice, C.R. and Douglas, J.T., ‘Utilisation of the platelet release reaction in the blood compatibility assessment of polymers’, Biomaterials 1984, 5: 289–292.
Cazenave, J.P., Blondowska, D., Richardson, M., Kinlough-Rathbone, R., Packam, M.A. and Mustard, J.F., ‘Quantitative radioisotopic measurement and scanning electron microscopic study of platelet adherence to collagen-coated surface and to subendothelium with a rotating probe device’, J. Lab. Clin. Med. 1979, 93: 60–70.
Xi, T.F., Zhang, J.C., Tian, W.H., Wang, C.R., Lei, X.H., Wai, H.Y. and Ruan, C.G., ‘New method to quantitate platelets adhered on biomaterials using monoclonal antibodies to human platelet membrane glycoprotein SZ 21’, Biomater. Artif. Cells Artif. Organs 1990, 18: 423–435.
Anderson, J.M., Bonfield, T.L., Ziats, N.P., ‘Protein adsorption and cellular adhesion and activation on biomedical polymers’, Int. Artif. Organs 1990, 13: 375–382.
Sheppeck, R.A., Garrett, K.O., Bentz, M.L. and Johnson, P.C., ‘Platelet adhesion on polyethylene’, ASAIO Transactions 1991, 37: M260–M261.
Bode, A.P. and Miller, D.T., ‘Generation and degradation of fibrinopeptde A in stored platelet concentrates’, Vox Sang. 1986, 51: 192–196.
Michaelson, A.D. and Barnard M.R., ‘Thrombin induced changes in platelet membrane glycoproteins Ib-Ic and Ilb-Illa’, Blood 1987, 70: 1673–1678.
Mazoyer, E., Boizard-Boval, B., Pidard, D., Caen, J. and Wautier, J.L., ‘Platelet membrane glycoproteins and platelet functions during storage in the presence of a proteinase inhibitor’, Thrombosis Res. 1991, 62: 165–175.
Holme, S., Heaton, W.A. and Courtright, M., ‘Improve in vivo and in vitro viability of platelet concentrates stored for seven days in a platelet additive solution’, Br. J. Haematol. 1987, 66: 233–238.
Murphy, S., Kagen, L. and Holme, S., ‘Platelet storage in synthetic media lacking glucose and bicarbonate’, Transfusion1991, 31: 16–20.
Schiffer, C.A., Lee, E.J., Ness, P.M. and Reilly, J., ‘Clinical evaluation of platelet concentrates stored for one to five days’, Blood 1986, 67: 1591–1594.
Heaton, W.A.L., ‘111In and 51 Cr labelling of platelets. Are they comparable?’, Transfusion 1986, 26: 157–164.
Borchgrevinck, C.F., ‘A method for measuring platelet adhesiveness in vivo’, Acta Med. Scand. 1960, 168: 157–164.
Owens, M., Holme, S., Heaton A., Sawyer S. and Cardinali, S., ‘Post transfusion recovery of function of 5-day stored platelet concentrates’, Br. J. Haematol. 1992, 80: 539–544.
Becker, G.A., Tuccelli, M., Kunicki T.J., Chalos, M.K. and Aster, R.H., ‘Studies of platelet concentrates stored at 22 degrees C and 4 degrees C’, Transfusion 1975, 13: 61–65.
Bellhouse, M.A., Ross, I., Entwistle, C.C. and Bellhouse, B.J., ‘Optical measurement of the viability of stored human platelets’, Optics Laser Technol. 1985, 17: 27–30.
Bellhouse, E.L., Inskip, M.J., Davis, J.G. and Entwistle, C.C., ‘Pre-transfusion non invasive quality assessement of stored platelet concentrates’, Br. J. Haematol. 1987, 66: 503–508.
Lee, V.S., Tarassenko, L. and Bellhouse, B.J., ‘Platelet transfusion therapy: platelet concentrate preparation and storage’, J. Lab. Clin. Med. 1980, 111: 371–383.
Valerie, C.R., Feingold, H. and Marchioni, L.D., ‘The relation between response to hypotonic stress and the 51Cr recovery in vivo of preserved platelets’, Transfusion 1974, 14: 331–335.
Mazzara, R., Escolar, G., Garrido, M., Pereira, A., Castillo, R. and Ordinas, A., ‘Evaluation of the transfusion effectiveness of various platelet concentrates by means of an vitro perfusion technique’, Transfusion 1991, 31: 308–312.
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© 1993 Springer Science+Business Media Dordrecht
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Boval, B., Feugeas, J.P., Wautier, JL. (1993). Platelet immunology: allo-antigens, transfusion. In: Missirlis, Y.F., Wautier, JL. (eds) The Role of Platelets in Blood-Biomaterial Interactions. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-1745-6_3
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DOI: https://doi.org/10.1007/978-94-011-1745-6_3
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