Heifer Mastitis Risk Post-Parturition: Management factors associated with a low rate of Subclinical Heifer Mastitis in a Herd-Level Study

Autor/innen

Schlagworte:

mastitis, heifer mastitis, risk factors

Abstract

This study focused on assessing risk factors for heifer mastitis post-parturition, with a particular emphasis on understanding the associated management factors at herd level. Through examination of on-farm practices, milking routine observation and heat-stress consideration of 77 German dairy herds, the study set out to unravel the complexities contributing to a high / low rate of subclinical mastitis in heifers. For this purpose, the annual heifer mastitis rate (HMR) was provided by the dairy herd improvement (DHI) test and farms were categorized into two groups based on their HMR: herds with a low HMR (LHMR) and herds with a high HMR (HHMR). In the final multivariable model, two variables differed significantly among the herd categories. Herds with a higher proportion of heifers with a BCS < 3 were more likely to fall into the LHMR category. Herds with a higher proportion of heifers with a lameness score of 3 were more likely to be HHMR herds. These findings offer practical implications for dairy farmers in optimizing udder health and productivity in heifers at herd level. These associations from our cross-sectional study should be verified in a prospective study.

Literaturhinweise

Puerto MA, Shepley E, Cue RI, Warner D, Dubuc J, Vasseur E. The hidden cost of disease: I. Impact of the first incidence of mastitis on production and economic indicators of primiparous dairy cows. J. Dairy Sci., 2021; 104(7): p. 7932-7943.

Huijps K, De Vliegher S, Lam T, Hogeveen H. Cost estimation of heifer mastitis in early lactation by stochastic modelling. Vet. Microbiol., 2009; 134(1-2): p. 121-127.

Rollin E, Dhuyvetter KC, Overton MW. The cost of clinical mastitis in the first 30 days of lactation: An economic modeling tool. Prev. Vet. Med., 2015; 122(3): p. 257-264.

Tho Seeth M, Krömker V. Increased somatic cell counts at first milk control are associated with decreased milk yield in the first lactation in dairy heifers. Milk Sci Int., 2021: p. 20-24.

Santos JE, Cerri RL, Ballou MA, Higginbotham GE, Kirk JH. Effect of timing of first clinical mastitis occurrence on lactational and reproductive performance of Holstein dairy cows. Anim. Reprod. Sci., 2004; 80(1-2): p. 31-45.

Grohn YT, Eicker SW, Ducrocq V, Hertl JA. Effect of diseases on the culling of Holstein dairy cows in New York State. J. Dairy Sci., 1998; 81(4): p. 966-978.

Edinger D, Tenhagen BA, Heuwieser W, Kalbe P, Klunder G, Baumgartner B. Effect of puerperal mastitis in primiparous cows on milk production, cell count and culling. Dtsch. Tierarztl. Wochenschr., 1999; 106(11): p. 470-474.

De Vliegher S, Barkema HW, Stryhn H, Opsomer G, de Kruif A. Impact of early lactation somatic cell count in heifers on somatic cell counts over the first lactation. J. Dairy Sci., 2004; 87(11): p. 3672-3682.

Bareille N, Kiebre-Toe M, Beaudeau F, Seegers H. Risk factors for elevated milk somatic cell count during early lactation in dairy heifers. Proc. 10th Intern. Congr., Anim. Hyg., Maastricht, The Netherlands, 2000: p. 509-514.

De Vliegher S, Laevens H, Opsomer G, De Muêlenaere E, de Kruif A. Somatic cell counts in dairy heifers during early lactation. Flemish Vet. J., 2001; 70: p. 212-215.

Bludau MJ, Maeschli A, Leiber F, Steiner A, Klocke P. Mastitis in dairy heifers: prevalence and risk factors. Vet. J., 2014; 202(3): p. 566-572.

De Vliegher S, Fox LK, Piepers S, McDougall S, Barkema HW. Invited review: Mastitis in dairy heifers: nature of the disease, potential impact, prevention, and control. J. Dairy Sci., 2012; 95(3): p. 1025-1040.

Fox LK. Prevalence, incidence and risk factors of heifer mastitis. Vet. Microbiol., 2009; 134(1-2): p. 82-88.

Krömker V, Friedrich J. Teat canal closure in non-lactating heifers and its association with udder health in the consecutive lactation. Vet. Microbiol., 2009; 134(1-2): p. 100-105.

Nitz J, Krömker V, Klocke D, Wente N, Zhang Y, Tho Seeth M. Intramammary Infections in Heifers-Time of Onset and Associated Risk Factors. Animals (Basel), 2020; 10(6): p. 1053.

Fox LK, Chester S, Hallberg J, Nickerson SC, Pankey JW, Weaver LD. Survey of Intramammary Infections in Dairy Heifers at Breeding Age and First Parturition. J. Dairy Sci., 1995; 78(7): p. 1619-1628.

Hamann J, Mein GA. Responses of the bovine teat to machine milking: measurement of changes in thickness of the teat apex. J. Dairy Res., 1988; 55(3): p. 331-338.

Rueben P, Tho Seeth M, Tellen A, Krömker V. Management-Associated Risk Factors for Heifer Mastitis before and after Parturition in German Dairy Herds. Vet Sci, 2023; 10(2).

Bouraoui R, Lahmar M, Majdoub A, Djemali Mn, Belyea R. The relationship of temperature-humidity index with milk production of dairy cows in a Mediterranean climate. Animal Research, 2002; 51(6): p. 479-491.

Smith DL, Smith T, Rude BJ, Ward SH. Short communication: comparison of the effects of heat stress on milk and component yields and somatic cell score in Holstein and Jersey cows. J. Dairy Sci., 2013; 96(5): p. 3028-3033.

Bertocchi L, Vitali A, Lacetera N, Nardone A, Varisco G, Bernabucci U. Seasonal variations in the composition of Holstein cow's milk and temperature-humidity index relationship. Animal, 2014; 8(4): p. 667-674.

Gösling M, Klocke D, Reinecke F, Zoche-Golob V, Tho Seeth M, Paduch J, Krömker V. Pasture-associated influence on the udder health of dairy herds in Northern Germany. Milk Sci Int., 2019; 72: p. 2-10.

LKV. LKV Jahresbericht 2019. Verlag Keuck Medien GmbH & Co. KG: Straelen, Germany, 2019: p. 53.

Dikmen S, Hansen PJ. Is the temperature-humidity index the best indicator of heat stress in lactating dairy cows in a subtropical environment? J. Dairy Sci., 2009; 92(1): p. 109-116.

Edmonson AJ, Lean IJ, Weaver LD, Farver T, Webster G. A body condition scoring chart for Holstein dairy cows. J. Dairy Sci., 1989; 72: p. 68-78.

Sprecher DJ, Hostetler DE, Kaneene JB. A lameness scoring system that uses posture and gait to predict dairy cattle reproductive performance. Theriogenology, 1997; 47(6): p. 1179-1187.

Dentine MR, McDaniel BT. Variation of Edema Scores from Herd-Year, Age, Calving Month, and Sire. J. Dairy Sci., 1983; 66: p. 2391-2399.

Schreiner DA, Ruegg PL. Relationship Between Udder and Leg Hygiene Scores and Subclinical Mastitis. J. Dairy Sci., 2003; 86(11): p. 3460-3465.

DVG DVG. Guidelines for Mastitis Control in Dairy Herds. Gießen, Germany: German Veterinary Association, 2002.

Schepers A, Lam T, Schukken Y, Wilmink J, Hanekamp W. Estimation of variance components for somatic cell counts to determine thresholds for uninfected quarters. J. Dairy Sci., 1997; 80(8): p. 1833-1840.

Reyher KK, Dohoo I. Diagnosing intramammary infections: Evaluation of composite milk samples to detect intramammary infections. J. Dairy Sci., 2011; 94(7): p. 3387-3396.

Ruegg PL. Investigation of mastitis problems on farms. Vet Clin North Am Food Anim Pract, 2003; 19(1): p. 47-73.

Heringstad B, Egger-Danner C, Charfeddine N, Pryce JE, Stock KF, Kofler J, Sogstad AM, Holzhauer M, Fiedler A, Muller K, Nielsen P, Thomas G, Gengler N, de Jong G, Odegard C, Malchiodi F, Miglior F, Alsaaod M, Cole JB. Invited review: Genetics and claw health: Opportunities to enhance claw health by genetic selection. J. Dairy Sci., 2018; 101(6): p. 4801-4821.

Hisira V, Slovák P, Marčeková P, Kadaši M, Mudroň P. Assessment of udder health in lame cows. Acta Vet. Brno, 2020; 89(2): p. 133-140.

Whay H, Waterman A, Webster A. Associations between locomotion, claw lesions andnociceptive threshold in dairy heifers during the peri-partum period. Vet. J., 1997; 154(2): p. 155-161.

Hudson C, Whay H, Huxley J. Recognition and management of pain in cattle. In Pract., 2008; 30(3): p. 126-134.

Singh SS, Ward WR, Lautenbach K, Murray RD. Behaviour of lame and normal dairy cows in cubicles and in a straw yard. Vet Rec, 1993; 133(9): p. 204-208.

Walker SL, Smith RF, Routly JE, Jones DN, Morris MJ, Dobson H. Lameness, activity time-budgets, and estrus expression in dairy cattle. J. Dairy Sci., 2008; 91(12): p. 4552-4559.

Chapinal N, de Passille AM, Weary DM, von Keyserlingk MA, Rushen J. Using gait score, walking speed, and lying behavior to detect hoof lesions in dairy cows. J. Dairy Sci., 2009; 92(9): p. 4365-4374.

LeBlanc S. Monitoring metabolic health of dairy cattle in the transition period. J. Reprod. Dev., 2010; 56(S): p. S29-S35.

Hillreiner M, Flinspach C, Pfaffl MW, Kliem H. Effect of the Ketone Body Beta-Hydroxybutyrate on the Innate Defense Capability of Primary Bovine Mammary Epithelial Cells. PLoS One, 2016; 11(6): p. e0157774.

Rowlands G, Russell A, Williams L. Effects of stage of lactation, month, age, origin and heart girth on lameness in dairy cattle. Vet Rec, 1985; 117(22): p. 576-580.

Dippel S, Dolezal M, Brenninkmeyer C, Brinkmann J, March S, Knierim U, Winckler C. Risk factors for lameness in freestall-housed dairy cows across two breeds, farming systems, and countries. J. Dairy Sci., 2009; 92(11): p. 5476-5486.

Mill J, Ward W. Lameness in dairy cows and farmers' knowledge, training and awareness. Vet Rec, 1994; 134(7): p. 162-164.

Tranter W, Morris R. A case study of lameness in three dairy herds. N. Z. Vet. J., 1991; 39(3): p. 88-96.

Waage S, Sviland S, Ødegaard S. Identification of risk factors for clinical mastitis in dairy heifers. J. Dairy Sci., 1998; 81(5): p. 1275-1284.

Bassel L, Kelton D, Godkin A, Leslie K, Lissemore K. Risk factors for intramammary infection at first calving in Ontario dairy heifers. in American Association of Bovine Practitioners Conference Proceedings. 2003.

Piepers S, Opsomer G, Barkema H, de Kruif A, De Vliegher S. Heifers infected with coagulase-negative staphylococci in early lactation have fewer cases of clinical mastitis and higher milk production in their first lactation than noninfected heifers. J. Dairy Sci., 2010; 93(5): p. 2014-2024.

Hansen MH, Hurwitz WN, Marks ES, Mauldin WP. Response Errors in Surveys. J Am Stat Assoc, 1951; 46(254): p. 147-190.

Hamel J, Zhang Y, Wente N, Kromker V. Heat stress and cow factors affect bacteria shedding pattern from naturally infected mammary gland quarters in dairy cattle. J. Dairy Sci., 2021; 104(1): p. 786-794.

Veröffentlicht

2024-03-27