Abstract
The objective of this study was to evaluate the association between cow-specific risk factors and the lactational incidence risks of retained placenta (RP), metritis (MET) and clinical mastitis (CM) in 57,301 dairy cows on 20 large dairy herds in Iran between January 2005 and June 2009. A multivariable logistic regression model was used to identify risk factors for MET, RP and CM and quantify their odds ratio (OR). The lactational incidences of MET, RP and CM were 8%, 5.2% and 18.9%, respectively, and significant risk factors for MET were dystocia (OR = 4.32), stillbirth (OR = 6.26), RP (OR = 27.74), twin births (OR = 6.57), primiparity (OR = 1.68), calving during winter season (OR = 2.45) and male calves (OR = 2.41). Significant risk factors for RP were dystocia (OR = 3.17), stillbirth (OR = 3.18), abortion (OR = 8.46), milk fever (OR = 3.66), twin births (OR = 2.76), pluriparity (OR = 2.69), calving during winter season (OR = 1.86) and shorter gestation length of dairy cows (OR = 3.82). Also, significant risk factors for CM were RP (OR = 9.45), milk fever (OR = 12.36), pluriparity (OR = 2.83), calving during winter season (OR = 1.68) and the first months of lactation (P < 0.001)) and SCC concentrations at previous lactation (OR = 1.82). The current study indicates that differentiation can be made among cows in the risk of having MET, RP and CM based on a combination of cow factors. These differences among cows could be useful to aid the better detection of these diseases in the dairy herds.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Barkema HW, Schukken YH, Lam TJGM, Beiboer ML, Wilmink H, Benedictus G, Brand A (1998) Incidence of clinical mastitis in dairy herds grouped in three categories by bulk milk somatic cell counts. J Dairy Sci 81:411–419
Bartlett PC, Kirk JH, Wilke MA, Kaneene JB, Mather EC (1986) Metritis complex in Michigan Holstein–Friesian cattle: incidence, descriptive epidemiology and estimated economic impact. Prev Vet Med 4:235–248
Beaudeau F, Seegers H, Fourichon C, Hortet P (1998) Association between milk somatic cell counts up to 400,000 cells/ml and clinical mastitis in French Holstein cows. Vet Rec 143:685–687
Bendixen PH, Vilson B, Ekesbo I (1987) Disease frequencies in dairy cows in Sweden. II. Retained placenta. Prev Vet Med 4:377–387
Bennett RM, Christiansen K, Clifton-Hadley RS (1999) Estimating the costs associated with endemic diseases of dairy cattle. J Dairy Res 66:455–459
Bruun J, Ersbøll AK, Alban L (2002) Risk factors for metritis in Danish dairy cows. Prev Vet Med 54:179–190
Chassagne M, Barnouin J, Faye B (1996) Descriptive epidemiology of placental retention in intensive dairy herds in Brittany. Vet Res 27:491–501
Coleman DA, Thayne WV, Dailey RA (1985) Factors affecting reproductive performance of dairy cows. J Dairy Sci 68:1793–1803
Correa MT, Curtis CR, Erb HN, Scarlett JM, Smith RD (1990) An ecological analysis of risk factors for postpartum disorders of Holstein–Friesian cows from thirty-two New-York farms. J Dairy Sci 73:1515–1524
Correa MT, Erb H, Scarlett J (1993) Path analysis for seven postpartum disorders of Holstein cows. J Dairy Sci 76:1305–1312
Curtis CR, Erb HN, Sniffen CH, Smith RD, Kronfeld DS (1985) Path analysis of dry period nutrition, postpartum metabolic and reproductive disorders, and mastitis in Holstein cows. J Dairy Sci 68:2347
Emanuelson U, Oltenacu PA, Gröhn YT (1993) Nonlinear mixed model analyses of five production disorders of dairy cattle. J Dairy Sci 76:2765–2772
Erb HN, Martin SW, Ison N, Swaminathan S (1981) Interrelationships between production and reproductive diseases in Holstein cows. Path analysis. J Dairy Sci 64:282–289
Esslemont RJ, Kossaibati MA (1996) Incidence of production diseases and other health problems in a group of dairy herds in England. Vet Rec 139:486–490
Etherington WG, Martin SW, Dohoo IR, Bosu WTK (1985) Interrelationships between ambient temperature, age at calving, postpartum reproductive events and reproductive performance in dairy cows: a path analysis. Can J Comp Med 49:254–260
Fishwick JC (1997) Endometritis: a review of the post-parturient uterus. Cattle Practice 5:89–91
Fourichon C, Seegers H, Malher X (2000) Effect of disease on reproduction in the dairy cow: a meta-analysis. Theriogenology 53:1729–1759
Ghavi Hossein-Zadeh N (2010) The effect of twinning on milk yield, dystocia, calf birth weight and open days in Holstein dairy cows of Iran. J Anim Physiol Anim Nutr 94:780–787
Ghavi Hossein-Zadeh N, Nejati-Javaremi A, Miraei-Ashtiani SR, Kohram H (2008) An observational analysis of twin births, calf stillbirth, calf sex ratio, and abortion in Iranian Holsteins. J Dairy Sci 91:4198–4205
Green MJ, Bradley AJ, Medley GF, Browne WJ (2007) Cow, farm, and management factors during the dry period that determine the rate of clinical mastitis after calving. J Dairy Sci 90:3764–3776
Gröhn YT, Rajala-Schultz PJ (2000) Epidemiology of reproductive performance in dairy cows. Anim Reprod Sci 60(61):605–614
Gröhn YT, Erb HN, McCulloch CE, Saloniemi HS (1990) Epidemiology of reproductive disorders in dairy cattle: associations among host characteristics, disease and production. Prev Vet Med 8:25–39
Han YK, Kim IH (2005) Risk factors for retained placenta and the effect of retained placenta on the occurrence of postpartum diseases and subsequent reproductive performance in dairy cows. J Vet Sci 6(1):53–59
Heringstad B, Klemetsdal G, Ruane J (2000) Selection for mastitis resistance in dairy cattle-A review with focus on the situation in the Nordic countries. Livest Prod Sci 64:95–106
Hosmer D, Lemeshow S (2000) Applied Logistic Regression. 2nd ed. Wiley-Interscience, John Wiley & Sons, New York, NY
Huzzey JM, Veira DM, Weary DM, von Keyserlingk MAG (2007) Prepartum behavior and dry matter intake identify dairy cows at risk for metritis. J Dairy Sci 90:3220–3233
Kaneene JB, Miller R (1995) Risk factors for metritis in Michigan dairy cattle using herd- and cow-based modeling approaches. Prev Vet Med 23:183–200
Kelton D, Lissemore KD, Martin RE (1998) Recommendations for recording and calculating the incidence of selected clinical diseases of dairy cattle. J Dairy Sci 81:2502–2509
Kim IH, Kang HG (2003) Risk factors for postpartum endometritis and the effect of endometritis on reproductive performance in dairy cows in Korea. J Reprod Dev 49:485–491
Kimura K, Goff JP, Kehrli ME, Reinhardt TA (2002) Decreased neutrophil function as a cause of retained placenta in dairy cattle. J Reprod Dev 85:544–550
Klerx HJ, Smolders EAA (1997) Herd and cow random variation in models of interrelationships between metabolic and reproductive disorders in high yielding multiparous Holstein dairy cattle in The Netherlands. Livest Reprod Sci 52:21–29
Larson LL, Ishak MA, Owen FG, Erickson ED, Lowry SR (1985) Relationship of physiological factors to placental retention in dairy cattle. Anim Reprod Sci 9:31–43
LeBlanc SJ (2008) Postpartum uterine disease and dairy herd reproductive performance: a review. Vet J 176:102–114
Markusfeld O (1984) Factors responsible for post-parturient metritis in dairy cattle. Vet Rec 114:539–542
Markusfeld O (1987) Periparturient traits in seven high dairy herds. Incidence rates, association with parity, and interrelationships among traits. J Dairy Sci 70:158–166
Muller LD, Owens MJ (1974) Factors associated with the incidence of retained placentas. J Dairy Sci 57:725–728
Neave FK, Dodd FH, Kingwill RG, Westgarth DR (1969) Control of mastitis in the dairy herd by hygiene and management. J Dairy Sci 52:696–707
Oltenacu PA, Frick A, Lindhè B (1990) Epidemiological study of several clinical diseases, reproductive performance and culling in primiparous Swedish cattle. Prev Vet Med 9:59–74
Østergaard S, Sorensen JT, Houe H (2003) A stochastic model simulating milk fever in a dairy herd. Prev Vet Med 58:125–143
Peters AR, Laven RA (1996) Treatment of bovine retained placenta and its effects. Vet Rec 139:535–539
Potter TJ, Guitian J, Fishwick J, Gordon PJ, Sheldon IM (2010) Risk factors for clinical endometritis in postpartum dairy cattle. Theriogenology 74:127–134
Rupp R, Boichard D (1999) Genetic parameters for clinical mastitis, somatic cell score, production, udder type traits, and milking ease in first-lactation Holsteins. J Dairy Sci 82:2198–2204
Sandals WCD, Curtis RA, Cote JF, Martin SW (1979) The effect of retained placenta and metritis complex on reproductive performance in dairy cattle: a case control study. Can Vet J 20:131–135
SAS (2002) SAS User’s guide v. 9.1: Statistics. SAS Institute, Inc, Cary
Schukken YH, Erb HN, Smith RD (1988) The relationship between mastitis and retained placenta in a commercial population of Holstein dairy cows. Prev Vet Med 5:181–190
Sheldon IM, Lewis GS, LeBlanc S, Gilbert RO (2006) Defining postpartum uterine disease in cattle. Theriogenology 65:1516–1530
Sheldon IM, Williams EJ, Miller ANA, Nash DM, Herath S (2008) Uterine diseases in cattle after parturition. Vet J 176:115–21
Smith BI, Risco CA (2002) Therapeutic and management options for postpartum metritis in dairy cattle. Comp Cont Educ Pract 24:S92–S100
Steeneveld W, Hogeveen H, Barkema HW, van den Broek J, Huirne RBM (2008) The influence of cow factors on the incidence of clinical mastitis in dairy cows. J Dairy Sci 91:1391–1402
Suriyasathaporn W, Schukken YH, Nielen M, Brand A (2000) Low somatic cell count: a risk factor for subsequent clinical mastitis in a dairy herd. J Dairy Sci 83:1248–1255
Svensson C, Nyman AK, Waller KP, Emanuelson U (2006) Effects of housing, management, and health of dairy heifers on first-lactation udder health in Southwest Sweden. J Dairy Sci 89:1990–1999
Wetherill GD (1965) Retained placenta in the bovine - a brief review. Can Vet J 6:290–294
Zadoks RN, Allore HG, Barkema HW, Sampimon OC, Wellenberg GJ, Gröhn YT, Schukken YH (2001) Cow- and quarter-level risk factors for Streptococcus uberis and Staphylococcus aureus mastitis. J Dairy Sci 84:2649–2663
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Ghavi Hossein-Zadeh, N., Ardalan, M. Cow-specific risk factors for retained placenta, metritis and clinical mastitis in Holstein cows. Vet Res Commun 35, 345–354 (2011). https://doi.org/10.1007/s11259-011-9479-5
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11259-011-9479-5