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Issue
Vet. Res.
Volume 35, Number 6, November-December 2004
Page(s) 625 - 633
DOI https://doi.org/10.1051/vetres:2004041
How to cite this article Vet. Res. (2004) 625-633
References of Vet. Res. 35 625-633
  1. Allavena P., Dejana E., Bussolino F., Vecchi A., Mantovani A., Cytokine regulation of endothelial cells, in: Balkwill F.R. (Ed.), Cytokines. A Practical Approach, 2nd ed., Oxford University Press, Oxford, 1995, pp. 225-245.
  2. Bach F.H., Hancock W.W., Ferran C., Protective genes expressed in endothelial cells: a regulatory response to injury, Immunol. Today 18 (1997) 483-486 [CrossRef] [PubMed].
  3. Bensaude E., Turner J.L.E., Wakeley P.R., Sweetman D.A., Pardieu C., Drew T.W., Wileman T., Powell P.P., Classical swine fever virus induces proinflammatory cytokines and tissue factor expression and inhibits apoptosis and interferon synthesis during the establishment of long-term infection of porcine vascular endothelial cells, J. Gen. Virol. 85 (2004) 1029-1037 [CrossRef] [PubMed].
  4. Boyle E.M. Jr., Verrier E.D., Spiess B.D., Endothelial cell injury in cardiovascular surgery: the procoagulant response, Ann. Thorac. Surg. 62 (1996) 1549-1557 [CrossRef] [PubMed].
  5. Carrasco L., Ruiz-Villamor E., Gomez- Villamandos J.C., Salguero F.J. , Bautista M.J., Macia M., Quezada M., Jover A., Classical swine fever: morphological and morphometrical study od pulmonary intravascular macrophages, J. Comp. Pathol. 125 (2001) 1-7 [CrossRef] [PubMed].
  6. Carrillo A., Rodríguez-Gago M., Alvarez B., Molina M.J., Rodríguez Barbosa J.I., Sánchez A., Ramirez P., Muñoz A., Domínguez J., Parrilla P., Yélamos J., Isolation and characterization of immortalized porcine aortic endothelial cell lines, Vet. Immunol. Immunopathol. 89 (2002) 91-98 [PubMed].
  7. Chang C.H., Huang Y., Anderson R., Activation of vascular endothelial cells by IL-1$\alpha$ released by epithelial cells infected with respiratory syncytial virus, Cell. Immunol. 221 (2003) 37-41 [CrossRef] [PubMed].
  8. Cheville N.F., Mengeling W.L., The pathogenesis of hog cholera (swine fever). Histologic immunofluorescent and electronic microscopic studies, Lab. Invest. 20 (1969) 261-274 [PubMed].
  9. Chomczynski P., Sacchi N., Single-step method of RNA isolation by acid guanidinium thiocyanate-phenol-chlorophorm extraction, Anal. Biochem. 162 (1987) 156-159 [CrossRef] [PubMed].
  10. Francki R.I.B., Fauquet C.M., Knudson D.L., Brown F., Family Flaviviridae, in: Virus Taxonomy. Fifth Report of the International Committee on Taxonomy of viruses, Arch. Virol. Suppl. 2, 1991, pp. 223-233.
  11. Gómez del Moral M., Ortuño E., Fernandez-Zapatero P., Alonso F., Alonso C., Ezquerra A., Dominguez J., African swine fever virus infection induces tumor necrosis factor alpha production: implications in pathogenesis, J. Immunol. 73 (1999) 2173-2180.
  12. Greiser-Wilke I., Moenning V., Coulibaly C.O., Dahle J., Lider L., Liess B., Identification of a conserved epitope on a hog cholera virus protein, Arch. Virol. 111 (1990) 213-225 [PubMed].
  13. Knoetig S.M., Summerfield A., Spagnuolo-Weaver M., McCullough K.C., Immunopathogenesis of classical swine fever: role of monocytic cells, Immunology 97 (1999) 359-366 [CrossRef] [PubMed].
  14. Lei H.Y., Yeh T.M., Liu H.S., Lin Y.S., Chen S.H., Liu C.C., Immunopathogenesis of dengue virus infection, J. Biomed. Sci. 8 (2001) 377-388 [CrossRef] [PubMed].
  15. Lopez-Fuertes L., Campos E., Domenech N., Ezquerra A., Castro J.M., Dominguez J., Alonso F., Porcine reproductive and respiratory syndrome (PRRS) virus down-modulates TNF-a production in infected macrophages, Virus Res. 69 (2000) 41-46 [CrossRef] [PubMed].
  16. Mantovani A., Bussolino F., Introna M., Cytokine regulation of endothelial cell function: from molecular level to the bedside, Immunol. Today 18 (1997) 231-240 [CrossRef] [PubMed].
  17. Moennig V., Plagemann G.W., The Pestivirus, Adv. Virus Res. 41 (1992) 53-98 [PubMed].
  18. Narita M., Kawashima K., Kimura K., Mikami O., Shibahara T., Yamada S., Sakoda Y., Comparative immunohistopathology in pigs infected with highly virulent or less virulent strains of hog cholera virus, Vet. Pathol. 37 (2000) 402-408 [CrossRef] [PubMed].
  19. Reed I.J., Muench R.H., A simple method to estimating fifty percent end points, Am. J. Hyg. 27 (1938) 493-497.
  20. Ruiz-Villamor E., Quezada M., Bautista M.J., Romanini S., Carrasco L., Salguero F.J., Gomez-Villamandos J.C., Classical swine fever: pathogenesis of glomerular and immunocharacterization of immunocomplex deposits, J. Comp. Pathol. 124 (2001) 246-254 [CrossRef] [PubMed].
  21. Terpstra C., Hog cholera: An update of present knowledge, Br. Vet. J. 147 (1991) 397-406 [PubMed].
  22. Trautwein G., Pathology and pathogenesis of the disease, in: Liess B. (Ed.), Classical swine fever and related viral infections, Martinus Nijhoff Publishing, Boston, 1988, pp. 27-54.
  23. Vallée I., Tait S.W.G., Powell P.P., African swine fever virus infection of porcine aortic endothelial cells leads to inhibition of inflammatory responses, activation of the thrombotic state, and apoptosis, J. Virol. 75 (2001) 10372-10382 [CrossRef] [PubMed].
  24. Van Dam-Mieras M.C.E., Muller A.D., van Hinsberg V.W.M., Mullers W.J.H.A., Bomans P.H.H., Bruggeman C.A., The procoagulant response of cytomegalovirus infected endothelial cells, Thromb. Haemost. 68 (1992) 364-370 [PubMed].
  25. Weiss E., Teredesai A., Hoffmann R., Hoffmann-Fezer G., Volume distribution and ultrastructure of platelets in acute hog cholera, Thromb. Diath. Haemorrh. 30 (1973) 371-380 [PubMed].
  26. Wu K.K., Thiagarajan P., Role of endothelium in thrombosis and hemostasis, Annu. Rev. Med. 47 (1996) 315-331 [CrossRef] [PubMed].