Scientific Publications - Work Done by Microbiology Reader Bioscreen C

Veterinary Microbiology

1. Taina Kutila,
   Role of Lactoferrin in Treatment of Bovine Mastitis, Academic Dissertation, Faculty of Veterinary Medicine, University of Helsinki, Hämeentie 57, Helsinki, on March 12th, 2004, 57 pp. (Abstract).

    

2. Janaina dos Santos Nascimento, Maria do Carmo de Freire Bastos, Morten Skaugen and Ingolf F. Nes,
   Role of the operon orf12 13 14 in the immunity to aureocin A53, a bacteriocin with a potencial use against bovine mastitis pathogens, Norwegian Society for Microbiology, Meeting of Winter 2004, Poster (Abstract).

    

3. Litterio NJ, Rubio MR, Formentini EA, Diaz DC, Picco EJ, Encinas T, Boggio JC.,
   Pharmacokinetics of miocamycin following intravenous administration to cattle, Journal of Veterinary Medicine. A, Physiology, Pathology, Clinical Medicine, 2000, Feb, 47(1), 37-41 (Abstract).

    

4. Frost, A.J. and Mattila, T.,
   The effect on inflammation of the bovine mammary gland of vaccination with a cell wall extract of Staphylococcus aureus, [Summary in Ger.: Die Wirkung einer Impfung mit einem Zellwandextrakt von Staphylococcus aureus auf die Mastitis beim Rind], Journal of Veterinary Medicine, B, 1988, vol. 35, pp. 688-694

    

5. Grieve, P.A. and Mattila, T.,
   Non-oxidative antibacterial activity of bovine neutrophil granule proteins towards mastitis pathogens, [Summary in Ger.: Nicht-oxidative antibakterielle Aktivität bei bovinen neutrophilen Granulaproteinen gegen Mastitiserreger], Journal of Veterinary Medicine, B, 1989, vol. 36, pp. 500-508 (Abstract)

    

6. Kaartinen, L. and Pyörälä, S.,
   Changes in milk plasminogen, plasmin and in vitro bacterial growth in whey during early lactation, Journal of Dairy Research, 1989, vol. 56, (5), pp. 719-725 (Abstract)

    

7. Kaartinen, L. and Sandholm, M.,
   Regulation of plasmin activation in mastitic milk. Correlation with inflammatory markers and growth of Streptococcus agalactiae, [Summary in Ger.: Regulation der Plasminaktivierung in Mastitis-Milch Korrelation mit Entzündungsindikatoren und dem Wachstum von Streptococcus agalactiae], Journal of Veterinary Medicine, Series B, Infectious Diseases, Immunology, Food Hygiene, Veterinary Public Health, 1987, vol. 34, pp. 42-50

    

8. Kaartinen, L., Alivehmas, T., Larsen, B., Jensen, N.E. and Sandholm, M.,
   Relation of the bovine M blood group system with growth of Streptococcus agalactiae and Staphylococcus aureus in whey, [Summary in Ger.: Zusammenhang des bovinen M Blutgruppensystems mit dem Wachstum von Streptococcus agalactiae und Staphylococcus aureus in der Molke], Journal of Veterinary Medicine, B, 1988, vol. 35, (2), pp. 77-83

    

9. Kaartinen, L., Alivehmas, T., Mattila, T. and Sandholm, M.,
   Bacterial growth in mastitic whey in relation to bacterial association with Mastitis, Veterinary Microbiology, 1989, vol. 21, (2), 155-163 (Abstract)

    

10. Louhi, M., Inkinen, K., Myllys, V. and Sandholm, M.,
    Relevance of Sensitivity Testings (MIC) of Staphylococcus aureus to predict the antibacterial action in milk, Journal of Veterinary Medicine, B, 1992, vol. 39, (4), pp. 253-262 (Abstract)

     

11. Mattila, T., Syväjärvi, J. and Sandholm, M.,
    Milk antitrypsin, Nag-ase, plasmin and bacterial replication rate in whey; Effect of lactation stage, parity and daily milk yield, [Summary in Ger.: Milch- Antitrypsin, NAGase, Plasmin und bakterielle Replikationsrate in Molke EinfluB des Laktationsstadiums, derAnzahl der Geburten (Parität) und des täglichen Milchertrags], Journal of Veterinary Medicine, Series B, Infectious Diseases, Immunology, Food Hygiene, Veterinary Public Health, 1986, vol. 33, pp. 462-470

     

12. Mattila-Sandholm, T., Alivehmas, T., Kaartinen, L., and Honkanen-Buzalski, T.,
    Growth characteristics of Staphylococcus aureus and Escherichia coli in whey from sequentially infected milk, Acta Vet. Scand., 1990, vol. 31, (2), pp. 169-174 (Abstract)

     

13. Mattila, T., O'Boyle, D. and Frost, A.J.,
    The effect of a staphylococcal cell wall factor on endotoxin mastitis in dairy cows, [Summary in Ger.: Wirkung eines Zellwandfaktors von Staphylokokken auf die Endotoxin ausgelöste Mastitis bei Milchkühen], Journal of Veterinary Medicine, 1987, vol. 34, (10), 743-748

     

14. Mattila, T., O'Boyle, D. and Frost, A.J.,
    The growth of compact and diffuse variants of Staphylococcus aureus in bovine mastitic and normal whey, Microbiol. Immunol., 1988, vol. 32, (7), pp. 667-673 (Abstract)

     

15. Mattila, T., O'Boyle, D. and Frost, A.J.,
    Specificity of the anti-inflammatory effect of a staphylococcal cell wall extract in the bovine udder, Australian Veterinary Journal, 1988, vol. 65, (4), pp. 110-114 (Abstract)

     

16. Mattila, T., Frost, A.J. and O'Boyle, D.,
    The growth of Salmonella in rumen fluid from cattle at slaughter, Epidemiol. Infect., 1988, vol. 101, (2), pp. 337-345 (Abstract)

     

17. Raekallio, M.,
    Enhanced growth of E.coli in whey from sows with agalactia syndrome, Acta Vet. Scand., 1987, vol. 28, pp. 177-180

     

18. Pares i Oliva, Dolors,
    Characteristics and treatment of pork blood of Escorxadors industry, [Caracteritzacio i revaloracio de la fraccio plasmatica de la sang de porc procedent d'escorxadors industrials] (Catalan), Theses and Dissertations Online, University of Girona, Institute of Food and Agricultural Technology, Spain, ISBN 84-8458-109-8, 1998, 213 pp (Abstract).

     

19. Kajszczak A., Cymerys J., Winnicka A., Niemiałtowski M.,
    Kinetics of bacterial growth and neutrophil oxidative burst activity of bovine milk, Medycyna Weterynaryjna, Publication of the Polish Society of Veterinary Sciences (PSVS), vol. 58 (10), 739-824, 2002 pages 780-783 (Abstract)

     

20. Amandus P. Muhairwa, Jens P. Christensen, Magne Bisgaard,
    Serum resistance of Pasteurella multocida in avian and porcine sera, and comparative virulence investigations of selected serum-sensitive and resistant strains in chickens, Avian Pathology, Volume 31, Number 2, April 01, 2002, p. 183-191 (Abstract);

     

21. Sandholm, M., Alivehmas, T., Kaartinen, L. and Junnila, M.,
    Glucose oxidase (GOD) as a source of hydrogen peroxide for the lactoperoxidase (LPO) system in milk: antibacterial effect of the GOD-LPO system against mastitis pathogens, [Summary in Ger.: Glukose-Oxydase (GOD) als Quelle von Wasserstoffperoxyd für das Laktoperodasesystem (LPO) in der Milch: Die antibakterielle Wirkung des GOD-LPO-Systems gegen Mastitiserreger], Journal of Veterinary Medicine, Series B, Infectious Diseases, Immunology, Food Hygiene, Veterinary Public Health, 1988, vol. 35, pp. 346-352

© 2005 Transgalactic Ltd (manufacturer of Bioscreen C software) | Privacy Statement | P.O. Box 1393, 00101 Helsinki, Finland, phone: +358 9 85172920, fax: +358 9 8749481, e-mail: microbiology@bionewsonline.com
 

Last modified: May 25, 2005