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References

  • 1
    Perticarari S, Presani G, Banfi E. A new flow cytometric assay for the evaluation of phagocytosis and the oxidative burst in whole blood. J Immunol Methods 1994; 170: 117 24.
  • 2
    Model M, KuKuruga M, Todd III, R. A sensitive flow cytometric method for measuring the oxidative burst. J Immunol Methods 1997; 202: 105 11.
  • 3
    Vowells S, Sekhsaria S, Malech H, Shalit M, Fleisher T. Flow cytometric analysis of the granulocyte respiratory burst: a comparison study of fluorescent probes. J Immunol Methods 1995; 178: 89 97.
  • 4
    Hirt W, Nebe T, Birr C. Phagotest und Bursttest (Phagoburst), Testkits zur Untersuchung von Phagozytenfunktionen. Wien Klin Wochenschr 1994; 106/8: 250 2.
  • 5
    Martin E & Bhakdi S. Quantitative analysis of opsono-phagocytosis and of killing of Candida albicans by human peripheral blood leukocytes by using flow cytometry. J Clin Microbiol 1991; 29: 2013 23.
  • 6
    Plasman N & Vray B. Quantification of bacterial phagocytosis by flow cytometry and spectrofluorimetry. J Immunol Methods 1994; 174: 195 202.
  • 7
    Rothe G & Valet G. Flow cytometric assays of oxidative burst activity in phagocytes. Methods Enzymol 1994; 233: 539 48.
  • 8
    Husfeld L. Entwicklung einer durchflusszytometrischen Methode zur Messung der Phagozytose-, Burst- und Killingfaehigkeit humaner Phagozyten. Thesis, Ludwig-Maximilians-University of Munich, 1996.
  • 9
    Böhmer R, Trinkle L, Staneck J. Dose effects of LPS on neutrophils in whole blood. Flow cytometric assay of phagocytosis and oxidative burst. Cytometry 1992; 13: 525 31.
  • 10
    Metcalf J, Gallin J, Nauseef W, Root R. Laboratory manual of neutrophil function. New York: Raven Press, 1986.
  • 11
    Martin E & Bhakdi S. Flow cytometric assay for quantifying opsonophagocytosis and killing of staph. aur. by peripheral blood leukocytes. J Clin Microbiol 1992; 30: 2246 55.
  • 12
    Freischlag J, Colburn M, Quinnones-Baldrich W, Moore W. Alteration of neutrophil function by heparine, dexamethasone and enalapril. J Surg Res 1992; 52: 523 9.
  • 13
    White-Owen C, Alexander JW, Sramkoski RM, Babcocck GF. Rapid whole-blood microassay using flow cytometry for measuring neutrophil phagocytosis. J Clin Microbiol 1992; 30: 2071 6.
  • 14
    Nitzan D, Pruzanski W, Saito S, Ranadive N. Modulation of locomotor activity of polymorphonuclear cells by cationic substances and cationic lysosomal fractions from human neutrophils. Inflammation 1985; 94: 375 87.
  • 15
    Stossel T. Quantitative studies of phagocytosis. Kinetic effects of cations and heat-labile opsonine. J Cell Biol 1973; 58: 346 52.
  • 16
    Salih H, Husfeld L, Adam D. Inhibitory effect of heparin on neutrophil phagocytosis and burst production using a new whole blood cytofluorometric method for determination. Eur J Med Res 1997; 2: 507 13.
  • 17
    Buffo J, Hermann M, Soll D. A characterization of pH regulated dimorphism in Candida albicans. Mycopathologica 1984; 85: 21 6.
  • 18
    Schaumann R & Shah P. Effect of amphotericin B alone and or in combination with rifampicin on phagocytosis of Candida species by human polymorphonuclear leukocytes. Methods Find Exp Clin Pharmacol 1992; 14: 753 8.
  • 19
    Nugent K & Couchot K. Effects of sublethal concentrations of amphotericin B on Candida albicans. J Infect Dis 1986; 154: 665 9.
  • 20
    Cantinieaux B, Hariga C, Courtoy P, Hupin J, Fondu P. Staphylococcus aureus phagocytosis. J Immunol Methods 1989; 121: 203 8.
  • 21
    Bandres J, Trial T, Musher D, Rossen R. Increased phagocytosis and generation of reactive oxygen products by neutrophils and monocytes of men with stage 1 human immunodeficiency virus infection. J Infect Dis 1993; 168: 75 83.
  • 22
    Sawyer R. Experimental pulmonary candidiasis. Mycopathologica 1990; 109: 99 109.
  • 23
    Smail E, Cronstein B, Meshulam V, Esposito A, Ruggeri R, Diamond R. In vitro, Candida albicans releases the immune modulator adenosine and a second, high molecular weight agent that blocks neutrophil killing. J Immunol 1992; 148: 3588 95.
  • 24
    Papp-Szabo E, Sutherland C, Josephy P. Superoxide dismutase and the resistance of Escherichia coli to phagocytic killing by human neutrophils. Infect Immun 1993; 49: 1442 6.
  • 25
    Raith L, Csato M, Doboz A. Decreased Candida albicans killing activity of granulocytes from patients with diabetes mellitus. Mycopathologica 1983; 26: 557 63.
  • 26
    Dent G, Leglise M, Pryzwandsky K, Ross D. Simultaneous paired analysis by flow cytometry of surface markers, cytoplasmatic antigens, or oncogene expression with DNA content. Cytometry 1989; 4: 192 8.
  • 27
    Fabrizi S & Robins-Browne R. Elimination of extracellular bacteria by antibiotics in quantitative assays of bacterial ingestion and killing by phagocytes. J Immunol Methods 1993; 37: 201 6.
  • 28
    Phillips W, Shelton M, Hosking C. A simple micro-assay for neutrophil bacterial activity. J Immunol Methods 1992; 26: 187 91.
  • 29
    Bjerknes R. Flow cytometric assay for combined measurement of phagocytosis and intracellular killing of Candida albicans. J Immunol Methods 1984; 72: 229 41.
  • 30
    Haugland R. Handbook of fluorescent probes and research chemicals, 5th edn. Eugene: Molecular Probes, 1992.
  • 31
    Andoh A, Fujiyama Y, Kitoh K, Hodohara K, Bamba T, Hosoda S. Flow cytometric assay for phagocytosis of human monocytes mediated via Fcy-receptors and complement receptor CR1 (CD 35). Cytometry 1991; 12: 677 86.
  • 32
    Leijh PCJ, Van Den Barselaar MT, Van Furth R. Kinetics of phagocytosis and intracellular killing of Candida albicans by human granulocytes and monocytes. Infect Immun 1977; 3: 3 8.
  • 33
    Ganz T, Selset M, Szklarek D et al. Defensins: natural peptide antibiotics of human neutrophils. J Clin Invest 1985; 76: 1427 35.
  • 34
    Sasada M & Johnston R. Macrophage microbicidal activity: correlation between phagocytosis associated oxidative metabolism and the killing of Candida by macrophages. J Exp Pathol 1980; 152: 85 9.
  • 35
    Shimokawa O & Nakayama H. Increased sensitivity of Candida albicans cells accumulating 14-α-methylated sterols to active oxygen: possible relevance to in vitro efficacies of azole antifungal agents . Antimicrob Agents Chemother 1992; 31: 1626 9.