Bibliografia
1. Beagley, J.C., Whitman, K.J., Baptiste, K.E., Scherzer, J. (2010). “Physiology and treatment of retained fetal membranes in cattle”, Journal of Veterinary Internal Medicine, 24: 261-268.
2. Dervishi, E., Zhang, G., Hailemariam, D., Dunn, S.M., Ametaj, B.N. (2016). “Occurrence of retained placenta is preceded by an inflammatory state and alterations of energy metabolism in transition dairy cows”, Jounal of Animal Science and Biotechnology,7(26): 1-13. DOI: 10.1186/s40104-016-0085-9
3. Hanzen, C., Rahab, H. (2024). “Propaedeutic and therapeutic practices used for retained fetal membranes by rural European veterinary practitioners”, Animals, 14: 1042.
4. Hopper, R M. (2021). “Breeding and Health Management: Retained Fetal Membranes. Bovine Reproduction”, Wiley Blackwell: Oxford, UK. 629-639.
5. Iversen, M.B., Gottfredsen, R.H., Larsen, U.G., Enghild, J.J., Praetorius, J., Borregaard, N., Petersen, S.V. (2016). “Extracellular superoxide dismutase is present in secretory vesicles of human neutrophils and released upon stimulation”. Free Radical Biology and Medicine, 97: 478-488.
6. LeBlanc, S.J. (2013). “Managing transition period health for reproductive performance in dairy cows”, Cattle Pract., 21: 209-215.
7. Liang, D., Arnold, L.M., Stowe, C.J.,Harmon, R.J., Bewley, J.M. (2017). “Estimating US dairy clinical disease costs with a stochastic simulation model”, Journal of Dairy Science, 100: 1472-1486.
8. Mahnani, A., Sadeghi-Sefidmazgi, A., Ansari-Mahyari, S., Ghorbani, G.-R., Keshavarzi, H. (2021). “Farm and cow factors and their interactions on the incidence of retained placenta in holstein dairy cows”, Theriogenology; 159: 87-97.
9. Mordak, R., Stewart, P A. (2015). “Periparturient stress and immune suppression as a potential cause of retained placenta in highly productive dairy cows: examples of prevention”, Acta Veterinaria Scandinavica; 57-84.
10. Mordak, R., Nicpon, J., Illek, J. (2017). “Metabolic and mineral conditions of retained placenta in highly productive dairy cows: pathogenesis, diagnostic and prevention - a review”, Acta Vet. Brno, 86: 239-248.
11. Qu, Y., Fadden, A.N., Traber, M.G., Bobe, G. (2014). “Potential risk indicators of retained placenta and other diseases in multiparous cows”, Journal of Dairy Science, 97: 4151-4165.
12. Retnawati, D.W., Setiadi, M.A., Supriatna, I., Tumbelaka, L.I. (2024). “Blood biochemical indicators in predicting retained placenta in Friesian Holstein dairy cows”, Adv. Anim. Vet. Sci. 12: 2008-2014.
13. Ribeiro, D., Astiz, S., Fernandez-Novo, A., Margatho, G., Simoes, J. (2024). “Retained placenta as a potential source of mamitis pathogens in dairy cows”, Appl. Sci. 14: 4986.
14. Zobel, R., Tkalčić, S. (2013). “Efficacy of ozone and other treatment modalities for retained placenta in dairy cows”, Reproduction in Domestic Animals, 48: 121-125.
TORNA INDIETRO
Eradicazione di M. hyopneumoniae nel suino: gli strumenti ci sono
I metodi storicamente impiegati per ridurre l’incidenza delle infezioni da M. hyopneumoniae non sembrano attualmente funzionare adeguatamente. I programmi di controllo per questo microrganismo si dividono in due macrocategorie: i programmi che prevedono l’eradicazione dell’agente patogeno e quelli che non la prevedono; a quest’ultima categoria appartengono le strategie che si basano su tre concetti: gestione, prevenzione e trattamento.
