China Dairy ›› 2023, Vol. 0 ›› Issue (9): 89-97.doi: 10.12377/1671-4393.23.09.15

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Research Progress of Dairy Cow Mastitis Abroad Based on Web of Science Core Database

WANG Mengmeng1, WANG Jianlei2, GOU Wenqiang3, TIAN Yuan1, WANG Jing1,*   

  1. 1Agricultural Information Institute,Chinese Academy of Agricultural Sciences,Beijing 100081;
    2Lijin County Animal Disease Prevention and Control Center,Dongying Shandong 257400;
    3Boehringer Ingelheim Animal Health,Shanghai 200040
  • Online:2023-09-25 Published:2023-10-16

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Abstract: With the acceleration of the industrialization and modernization of human society and the rapid development of economy, the demand for milk is gradually increasing, and the breeding of high-yield cows and the application of replacing artificial milking equipment begin to enter the fast track of development, at the same time, it has also brought the“Explosive” growth of mastitis in dairy cows, which has become one of the three major diseases in the contemporary dairy industry. Domestic and foreign experts and scholars are constantly looking for effective methods to minimize the occurrence of mastitis in dairy cows. The study of mastitis abroad is ahead of the domestic research, and their advanced technology concept, means and methods are worthy of domestic reference. Based on the Web of Science Core Database, this paper searched the literatures related to mastitis in recent 3 years with CiteSpace software, and summarized the classical literatures in order to show the latest research progress of mastitis abroad.

Key words: abroad, dairy cows, mastitis

[1] Bi Y,Wang YJ,Qin Y,et al.Prevalenceof bovine mastitis pathogens in bulk tank milk in China[J]. PLoS ONE,2016,11(5):e0155621.
[2] Deng Z,Wang K,Xu C,et al.Prevalence and risk factors associated with high somatic cell count in Chinese dairy herds[J]. Frontiers in Veterinary Science,2022,9:967275.
[3] Lisa R,Negar K,Astrid K,et al.Prediction of acute and chronic mastitis in dairy cows based on somatic cell score and mid-infrared spectroscopy of milk[J]. Animals(Basel),2022, 12:1830.
[4] Voort M,Jensen D,Kamphuis C,et al.Invited review:Toward a common language in data-driven mastitis detection research[J]. Journal of Dairy Science,2021,104(10):10449-10461.
[5] Rowe S M,Vasquez A K,Godden S M,et al.Evaluation of 4 predictive algorithms for intramammary infection status in late-lactation cows[J]. Journal of Dairy Science,2021,10: 11035-11046.
[6] Williamson J R,Callaway T R, Rollin b E, et al. Association of pre-treatment somatic cell counts with bacteriological cure following diagnosis of intramammary infection[J]. Research in Veterinary Science,2022,152:537-545.
[7] Carrie K M,Jan M S,David F K,et al.Relative efficacy of dry-off antimicrobial treatments in dairy cattle to cure existing intramammary infections:A systematic review and network meta-analysis[J]. Frontiers in Animal Science,2021,2:726401.
[8] Kayley D,Ellen de J,Theo JG M,et al. Invited review:Selective use of antimicrobials in dairy cattle at drying-off[J].Journal of Dairy Science,2022,105(9):7161-7189.
[9] Silanikove N,Iscovich J,LeitnerG . Therapeutic treatment with casein hydrolyzate eradicate effectively bacterial infection in treated mammary quarters in cows[M]. 2005.
[10] Shoshani E,Straten M V.Effects of bovine casein hydrolysate as a dry cow therapy on prevention and cure of bovine intramammary infection, milk production,and somatic cell count in the subsequent lactation[J]. Journal of Dairy Science,2022,105(5):4354-4369.
[11] Larsen L,Baker P,Enger K,et al.Administration of internal teat sealant in primigravid dairy heifers at different times of gestation to prevent intramammary infections at calving[J]. Journal of Dairy Science,2021,104(12):12773-12784.
[12] LcA,Pc A,Vl A,et al. Drying-off cows with low somatic cell count with or without antibiotic therapy:A pilot study addressing the effects on immunometabolism and performance in the subsequent lactation[J]. Livestock Science,2021,254:104740.
[13] Juliano L G,Juliana Y,Renata de F L,et al. The impact of selective dry cow therapy adopted in a Brazilian farm on bacterial diversity and the abundance of quarter milk[J].Veterinary Sciences,2022,9:550.
[14] Nyman A K.Herd routines and veterinary advice related to dry-cow therapy and treatment with internal teat sealants in dairy cows[J]. Animals(Basel),2021,11(12): 3411.
[15] Rainard P,Gilbert F B,Martins R P,et al.Progress towards the elusive mastitis vaccines[J].Vaccines(Basel),2022,10:296.
[16] ElAshmawy W R,Okello E,Williams D R,et al. Effectiveness of intramammary antibiotics, internal teat sealants,or both at dry-off in dairy cows:milk production and somatic cell count outcomes[J].Veterinary Sciences,2022,9(10):559.
[17] Jermann P M,Fritsche D,Wagner L A,et al.Effect of different dietary regimens at dry-off on performance,metabolism,and immune system in dairy cows[J]. Journal of Dairy Science,2022,105(5):4624-4642.
[18] Jhb A,Rac B,Cdd C,et al. Review: Perspective on highperforming dairy cows and herds[J]. Animal,2021,Suppl 1: 100298.
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