Desorption of porcine parvovirus from aluminum hydroxide adjuvant with subsequent viral immunoassay or hemagglutination assay (original) (raw)
References
Barteling, S.J., Woortmeyer, R., and Visser, N. 1983. Innocuity testing of foot-and-mouth disease vaccines. I. Formaldehyde-inactivated alhydrogel vaccines. J. Biol. Stand. 11: 297–304. Google Scholar
Cartwright, S.F., and Huck, R.A., 1967. Viruses isolated in association with herd infertility, abortions and stillbirths in pigs. Vet. Rec., 81: 196–197. Google Scholar
Davis, J.W., Angel, J.M., and Bowen, J.M., 1984. A quantitative immunobinding radioimmunoassay for antigens attached to nitrocellulose paper. J. Immunol. Meth., 67: 271–278. Google Scholar
Doel, T.R., and Staple, R.F., 1982. The elution of foot-and-mouth disease virus from vaccines adjuvanted with aluminum hydroxide and saponin. J. Biol. Stand., 10: 185–195. Google Scholar
Edelman, R., 1980. Vaccine adjuvants. Rev. Infect. Dis., 2: 370–383. Google Scholar
Glenny, A.T., Pope, C.G., Waddington, H., and Wallace, V., 1926. The antigenic value of toxoid precipitated by potassium alum. J. Pathol. Bacteriol., 29: 38–39. Google Scholar
Feldkamp, J.R., Shah, D.M., Meyer, S.L., White, J.L., and Hem, S.L., 1981. Effect of adsorbed carbonate on surface charge characteristics and physical properties of aluminum hydroxide gel. J. Pharm. Sci., 70: 638–640. Google Scholar
Furuya, K., Noro, S., Yamagishi, T., and Sakurada, N., 1984. Adsorption of influenza viruses to nitrocellulose membrane filters by filtration and their quantitative densitometric determination. J. Virol. Methods., 9: 193–199. Google Scholar
Hawkes, R., Niday, E., and Gordon, J., 1982. A dot-immunobinding assay for monoclonal and other antibodies. Anal. Biochem., 119: 142–147. Google Scholar
Hem, S.L., and White, J.L., 1984. Characterization of aluminum hydroxide for use as an adjuvant in parenteral vaccines. J. Par. Sci. and Tech., 38: 2–10. Google Scholar
Joo, H.S., Donaldson-Wood, C.R., and Johnson, R.H., 1976. Observations on the pathogenesis of porcine parvovirus infection. Arch. Virol., 51: 123–129. Google Scholar
Katz, J.B., and Van Deusen, R.A., 1985. Radioimmunoassay of adjuvant-associated porcine parvovirus using a monoclonal antibody in a nitrocellulose membrane system. J. Virol. Methods., accepted and in press.
Laemmli, V.K., 1970. Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature, 227: 680–685. Google Scholar
Markwell, M.K., Haas, S.M., Bieber, L.L., and Tolbert, N.E., 1978. A modification of the Lowry procedure to simplify protein determination in membrane and lipoprotein samples. Anal. Biochem., 87: 206–210. Google Scholar
Matheka, H.D., 1959. Ueber das Verhalten des Maul-und Klauenseuche-Virus bei Adsorption an Aluminumhydroxyd und nachfolgender Elution. Mit. 1: Untersuchung der Faktoren, die die Adsorption und Elution beeinflussen. Zent. Bakteriol. Parasit. Infek. und Hyg., 174: 473–492. Google Scholar
Mengeling, W.L., 1978. Prevalence of porcine parvovirus-induced reproductive failure: an abattoir study. J. Am. Vet. Med. Assn., 172: 1291–1294. Google Scholar
Sepelyak, R.J., Feldkamp, J.R., Moody, T.E., White, J.L., and Hem, S.L., 1984 a. Adsorption of pepsin by aluminum hydroxide I: adsorption mechanism. J. Pharm. Sci., 73: 1514–1517. Google Scholar
Sepelyak, R.J., Feldkamp, J.R., Regnier, F.E., White, J.L., and Hem, S.L., 1984 b. Adsorption of pepsin by aluminum hydroxide II: pepsin inactivation. J. Pharm. Sci., 73: 1517–1522. Google Scholar
Serna, C.J., White, J.L., and Hem, S.L., 1977. Anion-aluminum hydroxide gel interactions. Am. J. Soil Sci. Soc., 41: 1009–1013. Google Scholar
Sever, J. L., 1962. Application of a microtechnique to viral serological investigations. J. Immunol., 88: 320–329. Google Scholar
Shah, D.N., Feldkamp, J.R., White, J.L., and Hem, S.L., 1982. Effect of pH-zero point of charge relationship on the interaction of ionic compounds and polyols with aluminum hydroxide gel. J. Pharm. Sci., 71: 266–268. Google Scholar
Weeke, B., Weeke, E., and Lowenstein, H., 1975. The adsorption of serum protein to aluminum hydroxide gel examined by means of quantitative immuno-electrophoresis. Scand. J. Immunol. 4, Suppl. 2: 149–154. Google Scholar