SciELO - Scientific Electronic Library Online

SciELO - Scientific Electronic Library Online

Article References

MENDOZA, Julio C. et al. Eficacia experimental de anticuerpos IgY producidos en huevos, contra el veneno de la serpiente peruana Bothrops atrox. Rev Peru Med Exp Salud Publica [online]. 2012, vol.29, n.1, pp. 69-75. ISSN 1726-4634.  http://dx.doi.org/10.1590/S1726-46342012000100010.

    1. Loja D, Aviles R, Necochea Y, Vilca M, Castro J. Ofidismo por Bothrops atrox: estúdio clínico-epidemiológico. Diagnóstico. 2000;39(5):261-5. [ Links ]

    2. Araújo AS, Lobato ZI, Chávez-Olórtegui C, Velarde DT. Brazilian IgY-Bothrops antivenom: Studies on the development of a process in chicken egg yolk. Toxicon. 2010;55(4):739-44. [ Links ]

    3. Zhang WW. The use of gene-specific IgY antibodies for drug target discovery. Drug Discovery Today. 2003;8(8):364-71. [ Links ]

    4. Thalley BS, Carroll SB. Rattlesnake and scorpion antivenoms from the egg yolks of immunized hens. Biotechnology (N Y). 1990;8(10):934-8. [ Links ]

    5. Almeida CM, Kanashiro MM, Rangel Filho FB, Mata MF, Kipnis TL, da Silva WD. Development of snake antivenom antibodies in chickens and their purification from yolk. Vet Rec. 1998;143(21):579-84. [ Links ]

    6. Kumar AV, Growda TV. Novel non-enzymatic toxic peptide of Daboia russelii (Eastern region) venom renders commercial polyvalent antivenom ineffective. Toxicon. 2006;47(4):398- 408. [ Links ]

    7. Paul K, Manjula J, Deepa EP, Selvanayagam ZE, Ganesh KA, Subba Rao PV. Anti-Echis carinatus venom antibodies from chicken egg yolk: isolation, purification and neutralization efficacy. Toxicon. 2007;50(7):893-900. [ Links ]

    8. Meenatchisundaram S, Parameswari G, Michael A, Ramalingam S. Neutralization of the pharmacological effects of Cobra and Krait venoms by chicken egg yolk antibodies. Toxicon. 2008;52(2):221-7. [ Links ]

    9. de Almeida CM, da Silva CL, Couto HP, Escocard Rde C, da Rocha DG, Sentinelli Lde P, et al. Development of process to produce polyvalent IgY antibodies anti-African snake venom. Toxicon. 2008;52(2):293-301. [ Links ]

    10. Maya Devi C, Vasantha Bai M, Krishnan LK. Development of viper-venom antibodies in chicken egg yolk and assay of their antigen binding capacity. Toxicon. 2002;40(7):857-61. [ Links ]

    11. Brunda G, Sashidhar RB, Sarin RK. Use of egg yolk antibody (IgY) as an immunoanalytical tool in the detection of Indian cobra (Naja naja naja) venom in biological samples of forensic origin. Toxicon. 2006;48(2):183-94. [ Links ]

    12. F inney DJ. Probits Analysis. Cambridge: Cambridge University Press; 1971. [ Links ]

    13. Laemmli UK. Clevage of structural proteins during the assembly of the head of bacteriophage T4. Nature. 1970;227(5259):680-5. [ Links ]

    14. Warburg O, Christian W. Isrdienmg und Kristallisation des Giirungsfermerrts Enolase (Isolation and crystallization of the enzyme enolase). Biochem Z. 1941;310:384-421. [ Links ]

    15. Lowry OH, Rosebrough NJ, Farr AL, Randall R. Protein measurement with the folin phenol reagent. J Biol Chem. 1951;193(1):265-75. [ Links ]

    16. McLaren RD, Prosser CG, Grieve RC, Borissenko M. The use of caprylic acid for the extraction of the immunoglobulin fraction from egg yolk of chickens immunized with ovine alphalactalbumin. J Immunol Methods. 1994;177(1-2):175-84. [ Links ]

    17. Ouchterlony O, Nilsson LA. Immunodiffusion and immunoelectrophoresis. En: Weir DM, Herzerberg LA, Blackwell C, Herzerberg LA, editors. Handbook of Experimental Immunology. 4th ed. Oxford, UK: Blackwell Science Inc; 1986. p. 32.1-32.50. [ Links ]

    18. Warr GW, Magor KE, Higgins DA. IgY: clues to the origins of modern antibodies. Immunol Today. 1995;16(8):392-8. [ Links ]

    19. Mendoza J, Vivas D, Inga R, Arbaiza E, Rodríguez E, Yarlequé A. Patrones electroforéticos de los venenos de serpientes peruanas de los géneros Bothrops y Lachesis. Rev Soc Quím Perú. 2009;75(2):235-42. [ Links ]

    20. Akita E, Nakai S. Immunoglobulins form egg yolk isolation and purification. J Foof Sci. 1992;57(3):629-34. [ Links ]

    21. Mendoza J, Sandoval G, Vivas D, Inga R, Severino R, Yarlequé A, et al. Obtención y purificación de IgY aviares contra el veneno de Bothrops atrox por cromatografía de afinidad. En: Libro de Resúmenes del XVIII Reunión Científica del ICBAR. Lima, Perú. Instituto de Investigación de Ciencias Biológicas “Antonio Raymondi”, Facultad de Ciencias Biológicas de la Universidad Nacional Mayor de San Marcos. 2009. p. T17. [ Links ]

    22. Chávez E, Mendoza J, Martínez E, Bonilla-Ferreyra C, Ale N, Yarlequé A. Producción de anticuerpos policlonales IgY contra la bacteria cariogénica Streptococcus mutans. En: Libro de Resúmenes del XVIII Reunión Científica del ICBAR. Lima, Perú. Instituto de Investigación de Ciencias Biológicas “Antonio Raymondi”, Facultad de Ciencias Biológicas de la Universidad Nacional Mayor de San Marcos. 2009. p. T17. [ Links ]

    23. Ruan GP, Ma L, Meng XJ, Meng MJ, Wang XN, Lin Y, et al. Quantification of antibody (IgY) titers in hen eggs following immunization and their use in detecting cell surface molecules on nitrocellulose membranes. J Immunoassay Immunochem. 2007;28(1):35-45. [ Links ]

    24. Van Dong L, Quyen Le K, Eng KH, Gopalakrishnakone P. Immunogenicity of venoms from four common snakes in the South of Vietnam and development of ELISA kit for venom detection. J Immunol Methods. 2003;282(1-2):13-31. [ Links ]

    25. García P, Yarlequé A, Bonilla-Ferreyra C, Pessah S, Vivas D, Sandoval G, et al. Características bioquímicas y evaluación preclínica de un antiveneno botrópico liofilizado contra el veneno de la serpiente Bothrops atrox. Rev Peru Med Exp Salud Publica. 2008;25(4):386-90. [ Links ]

    26. Y arlequé A, Vivas D, Inga R, Rodríguez E, Sandoval G, Pessah S, et al. Acción del antiveneno botrópico polivalente sobre las actividades proteolíticas presentes en los venenos de serpientes peruanas. Rev Peru Med Exp Salud Publica. 2008;25(2):169-73. [ Links ]

    27. Tu A. Phospholipases A2 . En: Venoms: Chemistry and molecular biology. Hoboken, NJ: Edit Wiley-Interscience; 1977. [ Links ]

    28. Sandoval G. Inmunogenicidad del veneno de Bothrops atrox (Ophidia: Viperidae) y su evaluación por métodos inmunoenzimáticos. Rev peru biol. 2011;18(3):335-41. [ Links ]

    29. Segura A, Castillo MC, Núñez V, Yarlequé A, Gonçalves LR, Villalta M. et al. Preclinical assessment of the neutralizing capacity of antivenoms produced in six Latin American countries against medically-relevant Bothrops snake venoms. Toxicon. 2010;56(6):980-9. [ Links ]