1. bookTom 16 (2016): Zeszyt 1 (January 2016)
Informacje o czasopiśmie
Pierwsze wydanie
25 Nov 2011
Częstotliwość wydawania
4 razy w roku
Otwarty dostęp

Physiological Threshold of Somatic Cell Count in Milk of Polish Heath Sheep and Polish Lowland Sheep

Data publikacji: 23 Jan 2016
Tom & Zeszyt: Tom 16 (2016) - Zeszyt 1 (January 2016)
Zakres stron: 155 - 170
Otrzymano: 30 Sep 2014
Przyjęty: 22 Oct 2015
Informacje o czasopiśmie
Pierwsze wydanie
25 Nov 2011
Częstotliwość wydawania
4 razy w roku

Albenzio M., Santillo A., Caroprese M., Ruggieri D., Ciliberti M., Sevi A. (2012). Immune competence of the mammary gland as affected by somatic cell and pathogenic bacteria in ewes with subclinical mastitis. J. Dairy Sci., 95: 3877-3887.Search in Google Scholar

Asai K.I., Komine Y., Kozutsumi T., Yamaguchi T., Komine K.I., Kumagai K. (2000). Predominant subpopulations of Tlymphocytes in the mammary gland secretions during lactation and intraepithelial Tlymphocytes in the intestine of dairy cows. Vet. Immunol. Immunopathol., 73: 233-240.Search in Google Scholar

Banos G., Wall E., Coffey M.P., Bagnall A., Gillespie S., Russell G.C., Mc Neil - ly T.N. (2013). Identification of immune traits correlated with dairy cow health, reproduction and productivity. PLo S ONE 8(6): e65766. doi:10.1371/journal.pone.0065766.10.1371/journal.pone.0065766368046323776543Search in Google Scholar

Benić M., Habrun B., Kompes G., MihaljevićŽ., CvetnićŽ., Cergolj M., Maće- šić N. (2012). Cell content in milk from cows with S. aureus intramammary infection. Vet. Arhiv., 82: 411-422.Search in Google Scholar

Bergonier D., Berthelot X. (2003). New advances in epizootiology and control of ewe mastitis. Livest. Prod. Sci., 79: 1-16.Search in Google Scholar

Bonelli P., Dimauro C., Re R., Pilo G., Dore S., Cannas A.E., Nicolussi P.S. (2013). Peripheral blood and milk leukocytes subsets of lactating Sarda ewes. Ital. J. Anim. Sci., 12: 208-212.Search in Google Scholar

Boulanger J.D., Bureau F., M.E., Lotte D., Mainil J., Lekeux P. (2003). Increased nuclear factorκBactivity in milk cells of mastitis-affected cows. J. Dairy Sci., 86: 1259-1267.Search in Google Scholar

Burton J.L., Kehrli J.R. (1996). Effects of dexamethasone on bovine circulating Tlymphocyte populations. J. Leukoc. Biol., 59: 90-99.Search in Google Scholar

Chaffer M., Leitner G., Winkler M., Glickman A., Krifucks O., Ezra E., Sa - ran A. (1999). Coagulase-negative staphylococci and mammary gland infections in cows. Zentralbl. Vetmed. B, 46: 707-712.Search in Google Scholar

Concha C., Saad A., Holmberg O. (1995). Comparison of mammary gland T-cell proliferative responses and proportions of three T-lymphocyte populations (CD, CD4 and CD8) between late lactation and mid-involution. IDF International Mastitis Seminar, Tel-Aviv Israel, 28 May - 1 June, 1995, pp. 91-94.Search in Google Scholar

De La Cruz M., Serrano E., Montoro V., Marco J., Romeo M., Baselga R., Albi - zu L., Amorena B. (1994). Etiology and prevalence of subclinical mastitis in the Manchega sheep at mid-lactation. Small Rumin. Res., 14: 175-180.Search in Google Scholar

Fawcett T. (2006). An introduction to ROCanalysis. Pattern Recogn. Lett., 27: 861-874.Search in Google Scholar

Filev F. (1972). Microbiologicni proucvania na ovceto mljako. VII. Elektronen metod zaopredeljane broja kletkie. Vet. Med. Nauk., 9: 33-36.Search in Google Scholar

Fruganti G., Ranucci S., Tesei B., Valente C. (1985). Valutazione dello stato sanitario della mammella di pecore durante un intero ciclo di lattazione. Clin. Vet., 108: 286-296.Search in Google Scholar

Fthenakis G.C., El-Masannt E.T.S., Booth J.M., Jones J.E.T. (1991). Somatic cell counts of ewes’milk. Br. Vet. J., 147: 575-581.Search in Google Scholar

Gonzalez-Rodriguez M.C., Gonzalo C., San Primitivo F., Carmenes P. (1995). Relationship between somatic cell count and intramammary infection of the half udder in dairy ewes. J. Dairy Sci., 78: 2753-2759.Search in Google Scholar

Gonzalo C., Carriedo J.A., Baro J.A., Primitivo F. (1994). Factors influencing variation of test day milk-yield, somatic cell count, fat and protein in dairy sheep. J. Dairy Sci., 77: 1537-1542.Search in Google Scholar

Green T.J. (1984). Use of somatic cell counts for detection of subclinical mastitis in ewes. Vet. Res., 114, p. 43.10.1136/vr.114.2.436719806Search in Google Scholar

Hurley D.J., Kensinger M.H., Mastro A.M., Wilson R.A. (1990). An evaluation of the mononuclear cells derived from bovine mammary gland dry secretions using leukocyte antigen specific monoclonal antibodies, light scattering properties and non-specific esterase staining. Vet. Immunol. Immunopathol., 25: 177-193.Search in Google Scholar

Jones J.E.T. (1991). Mastitis in Sheep. Breeding for Disease Resistance in Farm Animals. Owen J.B., Axford R.F.E. (eds). CAB Int., Wallingford, UK, pp. 412-423.Search in Google Scholar

Lafi S.Q., Al Majali A.M., Rousan M.D., Alaweneh J.M. (1998). Epidemiological studies of clinical and subclinical ovine mastitis in Awassi sheep in northern Jordan. Prev. Vet. Med., 33: 171-181.Search in Google Scholar

Lascelles J. (1979). Heme-deficient mutants of Staphylococcus aureus. Meth. Enzymol., 56: 172-178.Search in Google Scholar

Le Roux Y., Laurent F., Moussaoui F. (2003). Polymorphonuclear proteolytic activity and milk composition change. Vet. Res., 34: 1-17.Search in Google Scholar

Lee J.W., O’ Brien C.N., Guidry A.J., Paape M.J., Shafer-Weaver K.A., Zhao X. (2005). Effect ofatrivalent vaccine against Staphylococcus aureus mastitis lymphocyte subpopulations, antibody production, and neutrophil phagocytosis. Can. J. Vet. Res., 69: 11-18.Search in Google Scholar

Leitner G., Shoshani E., Krifucks O., Chaffer M., Saran A. (2000). Milk leukocyte population patterns in bovine udder infection of different etiology B. Infect. Dis. Public. Heath., 47: 581-589.Search in Google Scholar

Leitner G., Chaffer M., Zamir S., Mor T., Glickman A., Winkler M., Weisblit L., Saran A. (2001). Udder disease etiology, milk somatic cell count and NAGase activity in Israeli Assaf sheep throughout lactation. Small Rumin. Res., 39: 107-112.Search in Google Scholar

Leitner G., Eligulashvily R., Krifucks O., Perl S., Saran A. (2003). Immune cell differentiation in mammary gland tissues and milk of cows chronically infected with Staphylococcus aureus. B Infect. Dis. Vet. Pub. Health, 50: 45-52.Search in Google Scholar

Mavrogenis A.P., Koumas A., Kakoyiannis C.K., Taliotis C.H. (1995). Use of somatic cell count for the detection of subclinical mastitis in sheep. Small Rumin. Res., 17: 79-84.Search in Google Scholar

Mørk T., Waage S., Tollersrud T., Kvitle B., Sviland S. (2007). Clinical mastitis in ewes; bacteriology, epidemiology and clinical features. Acta Vet. Scand., 49, p. 23, doi:10.1186/1751-0147-49-23.10.1186/1751-0147-49-23204896817892567Search in Google Scholar

Mukasa A., Yoshida H., Kobayashi N., Matsuzaki G., Nomoto K. (1998). Gamma delta Tcells in infection-induced and autoimmune-induced testicular inflammation. Immunol., 95: 395-401.Search in Google Scholar

Ozenc E., Seker E., Baki Acar D., Birdane M.K., Darbaz I., Dogan N. (2011). The importance of staphylococci and threshold value of somatic cell count for diagnosis of sub-clinical mastitis in Pirlak sheep at mid-lactation. Reprod. Domest., Anim., 46: 970-974.Search in Google Scholar

Park Y.H., Jung S.C., Moon J.S. (1994). Asubset of mammary glandγδTlymphocytes down regulates Bo CD4 Tlymphocyte response to Staphyloccocus aureus in cattle with intramammary infection. Korean J. Immunol., 16: 19-27.Search in Google Scholar

Park Y.H., Joo Y.S., Park J.H., Moon J.S., Kim S.H., Kwon N.H., Ahn J.S., Davis W.C., Davies C.J. (2004). Characterization of lymphocyte subpopulations and major histocompatibility complex haplotypes of mastitis-resistant and susceptible cows. J. Vet. Sci., 5: 29-39.Search in Google Scholar

Pengov A. (2001). The role of coagulase-negative Staphylococcus spp. and associated somatic cell counts in the ovine mammary gland. J. Dairy Sci., 84: 572-574.Search in Google Scholar

Persson- Waller K., Colditz I.G. (1998). Expression of surface antigens on blood and mammary leukocytes in lactating and dry ewes. Vet. Immunol. Immunopathol., 62: 273-278.Search in Google Scholar

Persson- Waller K., Colditz I.G. (1999 a). The effect of experimental infectious mastitis on leukocyte subpopulations and cytokine production in non-lactating ewes. J. Vet. Med. B, 46: 289-299.10.1111/j.1439-0450.1999.tb01234.x10416363Search in Google Scholar

Persson- Waller K., Colditz I.G. (1999 b). Effect of intramammary infusion ofβ-1,3-glucan or interleukin-2 on leukocyte subpopulations in mammary glands of sheep. Am. J. Vet. Res., 60: 703-707.Search in Google Scholar

Piccinini R., Binda E., Belotti M., Casirani G., Zecconi A. (2005). Comparison of blood and milk non-specific immune parameters in heifers after calving in relation to udder health. J. Vet. Res., 36: 747-757.Search in Google Scholar

Pillai S.R., Kunze E., Sordillo L.M., Jayarao B.M. (2001). Application of differential inflammatory cell count asatool to monitor udder health. J. Dairy Sci., 84: 1413-1420.Search in Google Scholar

Riggio V., Portolano B., Bovenhuis H., Bishop S.C. (2010). Genetic parameters for somatic cell score according to udder infection status in Valle del Belice dairy sheep and impact of imperfect diagnosis of infection. Genet. Sel. Evol., doi: 10.1186/1297-9686-42-30.10.1186/1297-9686-42-30291595220659318Search in Google Scholar

Riggio V., Pesce L.L., Morreale S., Portolano B. (2013). Receiver-operating characteristic curves for somatic cell scores and California mastitis test in Valle del Belice dairy sheep. Vet. J., 196: 528-532.Search in Google Scholar

Riollet C., Rainard P., Poutrel B. (2000). Cells and cytokines in inflammatory secretions of bovine mammary gland. Adv. Exp. Med. Biol., 480: 247-258.Search in Google Scholar

Rivas A.L., Quimby F.W., Coksaygan O., Olmstead L., Lein D.H. (2000). Longitudinal evaluation of CD4+ and CD8+ peripheral blood and mammary gland lymphocytes in cows experimentally inoculated with Staphylococcus aureus. Can. J. Vet. Res., 64: 232-237.Search in Google Scholar

Romeo M., Ziluga I., Marco J. (1998). Diagnostico in situ de la infeccion mamaria mediante palpacion, California mastitis test su seguimiento mediante recuento de celulas somaticas. Ovis, 59: 61-77.Search in Google Scholar

Saunders B.M., Frank A.A., Cooper A.M., Orme I.M. (1998). Role of gamma delta Tcells in immunopathology of pulmonary Mycobacterium avium infection in mice. Infect. Immunol., 66: 5508-5514.Search in Google Scholar

Schwarz D., Diesterbeck U.S., König S., Brügemann K., Schlez K., Zschöck M., Wolter W., Czerny C.P. (2011). Flow cytometric differential cell counts in milk for the evaluation of inflammatory reactions in clinically healthy and subclinically infected bovine mammary glands. J. Dairy Sci., 94: 5033-5044.Search in Google Scholar

Soltys J., Quinn M.T. (1999). Selective recruitment of T-cell subsets to the udder during Staphylococcal and Streptococcal mastitis: Analysis of lymphocyte subsets and adhesion molecule expression. Infection and Immunity, 67: 6293-6302.Search in Google Scholar

Sordillo L.M., Nickerson S.C., Akers R.M., Oliver S.P. (1987). Secretion composition during bovine mammary involution and the relationship with mastitis. Inter. J. Bioch., 19: 1165-1172.Search in Google Scholar

Sordillo L.M., Nickerson S.C., Akers R.M. (1989). Pathology of Staphylococcus aureus mastitis during lactogenesis: relationships with bovine mammary structure and function. J. Dairy Sci., 72: 228-240.Search in Google Scholar

Stefanakis A., Boscs C., Alaxopoulos C., Samartzi F. (1995). Frequency of subclinical mastitis and observation on somatic cell counts in ewe’s milk in northern Greece. Anim. Sci., 61: 69-76.Search in Google Scholar

Suarez V.H., Busetti M.R., Miranda A.O., Calvinho L.F., Bedotti D.O., Canave - sio V.R. (2002). Effect of infectious status and parity on somatic cell count and California mastitis test in Pampinta dairy ewes. J. Vet. Med. B Infect. Dis. Vet. Public. Health., 49: 230-234.Search in Google Scholar

Taylor B.C., Dellinger J.D., Cullor J.S., Stott J.L. (1994). Bovine milk lymphocytes display the phenotype of memory Tcells and predominantly CD8+. Cell. Immunol., 156: 245-253.Search in Google Scholar

Tolone M., Riggio V., Portolano B. (2013). Estimation of genetic and phenotypic parameters for bacteriological status of the udder, somatic cell score, and milk yield in dairy sheep using a threshold animal model. Livest. Sci., 151: 134-139.Search in Google Scholar

Travniček M., Petrik P., Balašcák J., Federic F. (1976). Vhodnost pouzitia niektorych metodikvprevencii mastitid bahnicvpodmienkach strojového dojenia. Veterinarstvi, 26: 508-509.Search in Google Scholar

Watkins G.H., Jones J.E.T. (2004). Observations on mastitis in lowland sheep at and after weaning. Proc. Sheep Vet. Soc., 27: 61-64.Search in Google Scholar

Watkins G.H., Burriel A.R., Jones J.E.T. (1991). Afield investigation of subclinical mastitis in sheep in southern England. Br. Vet. Rec., 147: 413-431.Search in Google Scholar

Winnicka A., Kluciński W., Hoser G., Sikora J., Kawiak J. (1999). Flow cytometry analysis of milk and peripheral blood cells from goats during lactation. J. Vet. Med., 46: 459-464.Search in Google Scholar

Winnicka A., Kluciński W., Kawiak J., Hoser G., Sikora J. (2000). Effect of Baypamun on blood leucocytes in normal and dexamethasone treated goats. J. Vet. Med., 47: 385-394.Search in Google Scholar

Winter P., Colditz I.G. (2002). Immunological responses of the lactating ovine udder following experimental challenge with Staphylococcus epidermidis. Vet. Immunol. Immunopathol., 89: 57-65. Search in Google Scholar

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