• 1
    Burnier L, Fontana P, Kwak BR, Angelillo-Scherrer A. Cell-derived microparticles in haemostasis and vascular medicine. Thromb Haemost 2009; 101: 43951.
  • 2
    Castellana D, Kunzelmann C, Freyssinet JM. Pathophysiologic significance of procoagulant microvesicles in cancer disease and progression. Hamostaseologie 2009; 29: 517.
  • 3
    Horstman LL, Ahn YS. Platelet microparticles: a wide-angle perspective. Crit Rev Oncol Hematol 1999; 30: 11142.
  • 4
    Tesselaar ME, Romijn FP, Van Der Linden IK, Prins FA, Bertina RM, Osanto S. Microparticle-associated tissue factor activity: a link between cancer and thrombosis? J Thromb Haemost 2006; 5: 5207.
  • 5
    Hron G, Kollars M, Weber H, Sagaster V, Quehenberger P, Eichinger S, Kyrle PA, Weltermann A. Tissue factor-positive microparticles: cellular origin and association with coagulation activation in patients with colorectal cancer. Thromb Haemost 2007; 97: 11923.
  • 6
    Bidot L, Jy W, Bidot C Jr, Jimenez JJ, Fontana V, Horstman LL, Ahn YS. Microparticle-mediated thrombin generation assay: increased activity in patients with recurrent thrombosis. J Thromb Haemost 2008; 6: 91319.
  • 7
    Habib A, Kunzelmann C, Shamseddeen W, Zobairi F, Freyssinet JM, Taher A. Elevated levels of circulating procoagulant microparticles in patients with beta-thalassemia intermedia. Haematologica 2008; 93: 9412.
  • 8
    VanWijk MJ, VanBavel E, Sturk A, Nieuwland R. Microparticles in cardiovascular diseases. Cardiovasc Res 2003; 59: 27787.
  • 9
    Zwaal RF, Comfurius P, Bevers EM. Surface exposure of phosphatidylserine in pathological cells. Cell Mol Life Sci 2005; 62: 97188.
  • 10
    Hugel B, Martinez MC, Kunzelmann C, Freyssinet JM. Membrane microparticles: two sides of the coin. Physiology (Bethesda) 2005; 20: 227.
  • 11
    Jy W, Horstman LL, Jimenez JJ, Ahn YS, Biro E, Nieuwland R, Sturk A, Dignat-George F, Sabatier F, Camoin-Jau L, Sampol J, Hugel B, Zobairi F, Freyssinet JM, Nomura S, Shet AS, Key NS, Hebbel RP. Measuring circulating cell-derived microparticles. J Thromb Haemost 2004; 2: 18423.
  • 12
    Enjeti AK, Lincz LF, Seldon M. Detection and measurement of microparticles: an evolving research tool for vascular biology. Semin Thromb Hemost 2007; 33: 7719.
  • 13
    Furie B, Furie BC. Cancer-associated thrombosis. Blood Cells Mol Dis 2006; 36: 17781.
  • 14
    Robert S, Poncelet P, Lacroix R, Arnaud L, Giraudo L, Hauchard A, Sampol J, Dignat-George F. Standardization of platelet-derived microparticle counting using calibrated beads and a Cytomics FC500 routine flow cytometer: first step towards multi-center studies? J Thromb Haemost 2008; 7: 1907.
  • 15
    Parot P, Dufrene YF, Hinterdorfer P, Le Grimellec C, Navajas D, Pellequer JL, Scheuring S. Past, present and future of atomic force microscopy in life sciences and medicine. J Mol Recognit 2007; 20: 41831.
  • 16
    Klein DC, Stroh CM, Jensenius H, Van Es M, Kamruzzahan AS, Stamouli A, Gruber HJ, Oosterkamp TH, Hinterdorfer P. Covalent immobilization of single proteins on mica for molecular recognition force microscopy. Chemphyschem 2003; 4: 136771.
  • 17
    Radmacher M, Tillmann RW, Fritz M, Gaub HE. From molecules to cells – imaging soft samples with the atomic force microscope. Science 1992; 257: 19005.
  • 18
    Muller DJ, Amrein M, Engel A. Adsorption of biological molecules to a solid support for scanning probe microscopy. J Struct Biol 1997; 119: 17288.
  • 19
    Zwicker JI. Tissue factor-bearing microparticles and cancer. Semin Thromb Hemost 2008; 34: 1958.
  • 20
    Harrison P, Dragovic R, Albanyan A, Lawrie AS, Murphy M, Sargent I. Application of dynamic light scattering to the measurement of microparticles. J Thromb Haemost 2009; 7 (Suppl. 2): OC-TU-056.
  • 21
    Siedlecki CA, Wang IW, Higashi JM, Kottke-Marchant K, Marchant RE. Platelet-derived microparticles on synthetic surfaces observed by atomic force microscopy and fluorescence microscopy. Biomaterials 1999; 20: 15219.
  • 22
    Horstman LL, Jy W, Minagar A, Bidot CJ, Jimenez JJ, Alexander JS, Ahn YS. Cell-derived microparticles and exosomes in neuroinflammatory disorders. Int Rev Neurobiol 2007; 79: 22768.
  • 23
    Thery C, Zitvogel L, Amigorena S. Exosomes: composition, biogenesis and function. Nat Rev Immunol 2002; 2: 56979.
  • 24
    Heijnen HF, Schiel AE, Fijnheer R, Geuze HJ, Sixma JJ. Activated platelets release two types of membrane vesicles: microvesicles by surface shedding and exosomes derived from exocytosis of multivesicular bodies and alpha-granules. Blood 1999; 94: 37919.