期刊论文详细信息
BMC Veterinary Research
Questionnaire-based study to assess the association between management practices and mastitis within tie-stall and free-stall dairy housing systems in Switzerland
Marcus G Doherr2  Samuel Kohler1  Martin Reist2  Bart HP van den Borne2  Paz F Gordon2 
[1] School of Agricultural, Forest and Food Sciences, Bern University of Applied Science, Länggasse 85, CH-3052 Zollikofen, Switzerland;Veterinary Public Health Institute, Vetsuisse Faculty, University of Bern, Schwarzenburgstrasse 155, CH-3097 Bern, Switzerland
关键词: Somatic cell count;    Negative binomial regression;    Management;    Prophylaxis;    Subclinical mastitis;    Clinical mastitis;    Swiss dairy farms;    Prevalence;    Cumulative incidence;   
Others  :  1119438
DOI  :  10.1186/1746-6148-9-200
 received in 2012-11-14, accepted in 2013-10-04,  发布年份 2013
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【 摘 要 】

Background

Prophylactic measures are key components of dairy herd mastitis control programs, but some are only relevant in specific housing systems. To assess the association between management practices and mastitis incidence, data collected in 2011 by a survey among 979 randomly selected Swiss dairy farms, and information from the regular test day recordings from 680 of these farms was analyzed.

Results

The median incidence of farmer-reported clinical mastitis (ICM) was 11.6 (mean 14.7) cases per 100 cows per year. The median annual proportion of milk samples with a composite somatic cell count (PSCC) above 200,000 cells/ml was 16.1 (mean 17.3) %. A multivariable negative binomial regression model was fitted for each of the mastitis indicators for farms with tie-stall and free-stall housing systems separately to study the effect of other (than housing system) management practices on the ICM and PSCC events (above 200,000 cells/ml). The results differed substantially by housing system and outcome. In tie-stall systems, clinical mastitis incidence was mainly affected by region (mountainous production zone; incidence rate ratio (IRR) = 0.73), the dairy herd replacement system (1.27) and farmers age (0.81). The proportion of high SCC was mainly associated with dry cow udder controls (IRR = 0.67), clean bedding material at calving (IRR = 1.72), using total merit values to select bulls (IRR = 1.57) and body condition scoring (IRR = 0.74). In free-stall systems, the IRR for clinical mastitis was mainly associated with stall climate/temperature (IRR = 1.65), comfort mats as resting surface (IRR = 0.75) and when no feed analysis was carried out (IRR = 1.18). The proportion of high SSC was only associated with hand and arm cleaning after calving (IRR = 0.81) and beef producing value to select bulls (IRR = 0.66).

Conclusions

There were substantial differences in identified risk factors in the four models. Some of the factors were in agreement with the reported literature while others were not. This highlights the multifactorial nature of the disease and the differences in the risks for both mastitis manifestations. Attempting to understand these multifactorial associations for mastitis within larger management groups continues to play an important role in mastitis control programs.

【 授权许可】

   
2013 Gordon et al.; licensee BioMed Central Ltd.

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【 参考文献 】
  • [1]LeBlanc SJ, Lissemore KD, Kelton DF, Duffield TF, Leslie KE: Major advances in disease prevention in dairy cattle. J Dairy Sci 2006, 89:1267-1279.
  • [2]Stärk KDC, Frei-Stäheli C, Frei PP, Pfeiffer DU, Danuser J, Audigé L, Nicolet J, Strasser M, Gottstein B, Kihm U: Häufigkeit and Kosten von Gesundheidsproblemen bei Schweizer Milchkühen und deren Kälbern (1993–1994) [Frequency and cost of health problems in Swiss dairy cows and their calves (1993–1994)]. Schweiz Arch Tierheilkd 1997, 139:343-353.
  • [3]Seegers H, Fourichon C, Beaudeau F: Production effects related to mastitis and mastitis economics in dairy cattle herds. Vet Res 2003, 34:475-91.
  • [4]Halasa T, Huijps K, Østerås O, Hogeveen H: Economic effects of bovine mastitis and mastitis management: a review. Vet Q 2007, 29:18-31.
  • [5]Olde Riekerink RG, Barkema HW, Kelton DF, Scholl DT: Incidence rate of clinical mastitis on Canadian dairy farms. J Dairy Sci 2008, 91:1366-77.
  • [6]Contreras GA, Rodriguez JM: Mastitis: comparative etiology and epidemiology. J Mammary Gland BiolNeoplasia 2011, 16:339-56.
  • [7]Dufour S, Frechette A, Barkema HW, Mussell A, Scholl DT: Invited review: effect of udder health management practices on herd somatic cell count. J Dairy Sci 2011, 94:563-79.
  • [8]Valde JP, Hird DW, Thurmond MC, Østerås O: Comparison of ketosis, clinical mastitis, somatic cell count, and reproductive performance between free stall and tie stall barns in Norwegian dairy herds with automatic feeding. Acta Vet Scand 1997, 38:181-92.
  • [9]Hultgren J: Foot/leg and udder health in relation to housing changes in Swedish dairy herds. Prev Vet Med 2002, 53:167-89.
  • [10]Gordon P, Kohler S, Reist M, van den Borne B, Menéndez González S, Doherr M: Baseline survey of health prophylaxis and management practices on Swiss dairy farms. Schweiz Arch Tierheilkd 2012, 154:371-9.
  • [11]Simensen E, Østerås O, Bøe KE, Kielland C, Ruud LE, Naess G: Housing system and herd size interactions in Norwegian dairy herds; associations with performance and disease incidence. Acta Vet Scand 2010, 52:14. BioMed Central Full Text
  • [12]Schukken YH, Wilson DJ, Welcome F, Garrison-Tikofsky L, Gonzalez RN: Monitoring udder health and milk quality using somatic cell counts. Vet Res 2003, 34:579-596.
  • [13]Schukken YH, Casella G, van den Broek J: Overdispersion in clinical mastitis data from dairy herds: a negative binomial approach. Prev Vet Med 1991, 10:239-245.
  • [14]Dohoo I, Martin W, Stryhn H: Model-building strategies. In Veterinary epidemiologic research. 2nd edition. Edited by Dohoo I, Martin W, Stryhn H. Charlottetown, Prince Edward Island, Canada: VER Inc; 2009:365-394.
  • [15]Bartlett PC, Agger JF, Houe H, Lawson LG: Incidence of clinical mastitis in Danish dairy cattle and screening for non-reporting in a passively collected national surveillance system. Prev Vet Med 2001, 48:73-83.
  • [16]Valde JP, Østerås O, Simensen E: Description of herd level criteria for good and poor udder health in Norwegian dairy cows. J Dairy Sci 2005, 88:86-92.
  • [17]Bradley AJ, Leach KA, Breen JE, Green LE, Green MJ: Survey of the incidence and aetiology of mastitis on dairy farms in England and Wales. Vet Rec 2007, 160:253-7.
  • [18]van den Borne BHP, van Schaik G, Lam TJGM, Nielen M: Variation in herd level mastitis indicators between primi- and multiparae in Dutch dairy herds. Prev Vet Med 2010, 96:49-55.
  • [19]Elbers AR, Miltenburg JD, De Lange D, Crauwels AP, Barkema HW, Schukken YH: Risk factors for clinical mastitis in a random sample of dairy herds from the southern part of The Netherlands. J Dairy Sci 1998, 81:420-6.
  • [20]Mörk M, Lindberg A, Alenius S, Vågsholm I, Egenvall A: Comparison between dairy cow disease incidence in data registered by farmers and in data from a disease-recording system based on veterinary reporting. Prev Vet Med 2009, 88:298-307.
  • [21]Wolff C, Espetvedt M, Lind AK, Rintakoski S, Egenvall A, Lindberg A, Emanuelson U: Completeness of the disease recording systems for dairy cows in Denmark, Finland, Norway and Sweden with special reference to clinical mastitis. BMC Vet Res 2012, 8:131. BioMed Central Full Text
  • [22]Bielfeldt JC, Badertscher R, Tölle KH, Krieter J: Factors influencing somatic cell score in Swiss dairy production systems. Schweiz Arch Tierheilkd 2004, 146:555-60.
  • [23]Hovinen M, Rasmussen MD, Pyörälä S: Udder health of cows changing from tie stalls or free stalls with conventional milking to free stalls with either conventional or automatic milking. J Dairy Sci 2009, 92:3696-3703.
  • [24]Guélat-Brechbuehl M, Thomann A, Albini S, Moret-Stalder S, Reist M, Bodmer M, Michel A, Niederberger MD, Kaufmann T: Cross-sectional study of Streptococcus species in quarter milk samples of dairy cows in the canton of Bern, Switzerland. Vet Rec 2010, 167:211-215.
  • [25]Peeler EJ, Green MJ, Fitzpatrick JL, Morgan KL, Green LE: Risk factors associated with clinical mastitis in low somatic cell count British dairy herds. J Dairy Sci 2000, 83:2464-2472.
  • [26]Hamilton C, Emanuelson U, Forslund K, Hansson I, Ekman T: Mastitis and related management factors in certified organic dairy herds in Sweden. Acta Vet Scand 2006, 48:11. BioMed Central Full Text
  • [27]Vaarst M, Bennedsgaard TW, Klaas I, Nissen TB, Thamsborg SM, Østergaard S: Development and daily management of an explicit strategy of nonuse of antimicrobial drugs in twelve Danish organic dairy herds. J Dairy Sci 2006, 89:1842-53.
  • [28]Fall N, Emanuelson U, Martinsson K, Jonsson S: Udder health at a Swedish research farm with both organic and conventional dairy cow management. Prev Vet Med 2008, 83:186-95.
  • [29]Roesch M, Doherr MG, Blum JW: Management, feeding, production, reproduction and udder health on organic and conventional Swiss dairy farms. Schweiz Arch Tierheilkd 2006, 148:387-95.
  • [30]Fulwider WK, Grandin T, Garrick DJ, Engle TE, Lamm WD, Dalsted NL, Rollin BE: Influence of free-stall base on tarsal joint lesions and hygiene in dairy cows. J Dairy Sci 2007, 90:3559-66.
  • [31]Wenz JR, Jensen SM, Lombard JE, Wagner BA, Dinsmore RP: Herd management practices and their association with bulk tank somatic cell count on United States dairy operations. J Dairy Sci 2007, 90:3652-3659.
  • [32]Nyman AK, Emanuelson U, Gustafsson AH, Persson Waller K: Management practices associated with udder health of first-parity dairy cows in early lactation. Prev Vet Med 2009, 88:138-149.
  • [33]Bach A, Valls N, Solans A, Torrent T: Associations between nondietary factors and dairy herd performance. J Dairy Sci 2008, 91:3259-67.
  • [34]Bartlett PC, Miller GY, Lance SE, Heider LE: Environmental and managerial determinants of somatic-cell counts and clinical mastitis incidence in Ohio dairy herds. Prev Vet Med 1992, 14:195-207.
  • [35]Bramley AJ, Neave FK: Studies on the control of coliform mastitis in dairy-cows. Brit Vet J 1975, 131:160-169.
  • [36]Carroll EJ: Environmental factors in bovine mastitis. J Am Vet Med Assoc 1977, 170:1143-1148.
  • [37]Bradley AJ, Green MJ: The importance of the nonlactating period in the epidemiology of intramammary infection and strategies for prevention. Vet Clin North Am Food Anim Pract 2004, 20:547-568.
  • [38]Schukken YH, Grommers FJ, Van de Geer D, Erb HN, Brand A: Risk-factors for clinical mastitis in herds with a low bulk milk somatic-cell count.1. Data and risk factors for all cases. J Dairy Sci 1990, 73:3463-3471.
  • [39]Suriyasathaporn W, Schukken YH, Nielen M, Brand A: Low somatic cell count: a risk factor for subsequent clinical mastitis in a dairy herd. J Dairy Sci 2000, 83:1248-55.
  • [40]van den Borne BH, Vernooij JC, Lupindu AM, van Schaik G, Frankena K, Lam TJ, Nielen M: Relationship between somatic cell count status and subsequent clinical mastitis in Dutch dairy cows. Prev Vet Med 2011, 102:265-73.
  • [41]Goodger WJ, Galland JC, Christiansen VE: Survey of milking management practices on large dairies and their relationship to udder health and production variables. J Dairy Sci 1988, 71:2535-42.
  • [42]Barkema HW, Schukken YH, Lam TJGM, Beiboer ML, Benedictus G, Brand A: Management practices associated with low, medium, and high somatic cell counts in bulk milk. J Dairy Sci 1998, 81:1917-1927.
  • [43]Heringstad B, Klemetsdal G, Ruane J: Selection for mastitis resistance in dairy cattle: a review with focus on the situation in the Nordic countries. Livest Prod Sci 2000, 64:95-106.
  • [44]Heringstad B, Klemetsdal G, Steine T: Selection responses for disease resistance in two selection experiments with Norwegian red cows. J Dairy Sci 2007, 90:2419-2426.
  • [45]Østerås O, Sølverød L: Norwegian mastitis control programme. Ir Vet J 2009, 26(Suppl 4):S26-33.
  • [46]Barkema HW, Schukken YH, Lam TJ, Beiboer ML, Benedictus G, Brand A: Management practices associated with the incidence rate of clinical mastitis. J Dairy Sci 1999, 82:1643-54.
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