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Effects of prophylactic propylene glycol administration at calving on subclinical ketosis in Holstein dairy cows

Year 2024, , 1 - 9, 30.04.2024
https://doi.org/10.31797/vetbio.1374657

Abstract

Forty-four holstein dairy cows were randomly enrolled in the treatment group (group 1, n=19) or control group (group 2, n=25) at calving. Group 1 received prophylactic propylene glycol treatment (PPGT) (300 ml/cow, beginning at calving, total 3 days). The group 2 remained untreated. All animals were tested on blood and milk beta-hydroxybutyric acid (BHBA) at postpartum week 2 and 4 (PW2 and 4), body condition scores (BCS), average daily milk production (ADMP) and postpartum health disorders were monitored in 90 days in milk (90 DIM). The incidence of subclinical ketosis (SCK) was 8% and 4% in blood test (BHBA≥1.2 mmol/L) and by 12% and 24% in milk test (BHBA≥200 µmol/L) in group 2 at PW2 and PW4 respectively. SCK was not detected in group 1. The study cows lost BCS on postpartum days 30 and 60. ADMP was significantly different (P<0.05) between group 2 with SCK, without SCK and group 1. Mastitis, metritis and laminitis incidence were observed both in group 1 and 2, but clinical ketosis and culling rate were observed in group 2 only. Mastitis incidence was 32% and 10.5% in group 2 and group 1 respectively. Culling rate was 12% in group 2, no culling was observed in group 1. Conclusively, although there wasn’t a significant effect of PPGT on the averages of blood and milk BHBA at PW2 and 4, the observed SCK incidence, associated postpartum health disorders and ADMP loss in group 2 can require a selective PPGT in cows at risk for SCK.

Ethical Statement

This study was approved by the Muğla Sıtkı Koçman University Animal Experiments Local Ethics Committee (23.09.2021/34-21). In addition, the authors declared that Research and Publication Ethical rules were fully followed.

Thanks

We would like to thank farm veterinarian and owner for their support in this study.

References

  • Aksoy, K., Deniz, A., Demir, S., & Onmaz, A.C. (2022). Blood and milk beta-hydroxybutyric acid concentrations in different dairy cattle breeds and association of subclinical ketosis with postpartum health disorders, culling rate, body condition score, parity and milk production in Holstein. Kafkas Üniversitesi Veteriner Fakültesi Dergisi, 28 (2), 235-246. https://doi.org/10.9775/kvfd.2021.26804
  • Benedet, A., Manuelian, C.L., Zidi, A., Penasa, M., & Marchi, M.De. (2019). Invited review: β hydroxybutyrate concentration in the blood and milk and its associations with cow performance. Animal, 13 (8), 1676–1689. https://doi.org/10.1017/ S175173111900034X
  • Berge, A.C., & Vertenten, G. (2014). A field study to determine the prevalence, dairy herd management systems, and fresh cow clinical conditions associated with ketosis in western European dairy herds. Journal of Dairy Science, 97(4), 2145–2154. https:// doi.org/10.3168/jds.2013-7163
  • Brunner, N., Groeger, S., Raposo, J.C., Bruckmaier, R.M., & Gross, J.J. (2018). Prevalence of subclinical ketosis and production diseases in dairy cows in Central and South America, Africa, Asia, Australia, New Zealand, and Eastern Europe. Translation Animal Science, 3(1), 84–92. https://doi.org/10.1093/ tas/txy102
  • Christensen, J.O., Grummer, R.R., Rasmussen, F.E., & Bertics, S.J. (1997). Effect of method of delivery of propylene glycol on plasma metabolites of feed-restricted cattle. Journal of Dairy Science, 80, 563–568. https://doi.org/10.3168/jds.S0022-0302(97)75971-X
  • Deniz, A., Aksoy, K., & Metin, M. (2020). Transition period and subclinical ketosis in dairy cattle: association with milk production, metabolic and reproductive disorders and economic aspects. Medycyna Weterynaryjna, 76 (9), 495-502. https://doi.org/10.21521/mw.6427
  • Duffield, T.F., Lissemore, K.D., McBride, B.W., & Leslie, K.E. (2009). Impact of hyperketonaemia in early lactation dairy cows on health and production. Journal of Dairy Science, 92, 571-580. https://doi.org/10.3168/jds.2008-1507
  • Edmonson, A.J., Lean, I.J., Weaver, L.D., Farver, T., & Webster, G. (1989). A body condition scoring chart for Holstein dairy cows. Journal of Dairy Science, 72(1), 68–78. https://doi.org/10.3168/jds.S0022-0302(89)79081-0
  • El-Kasrawy, N.I., Swelum, A.A., Abdel-Latif, M.A., Alsenosy, A.El.W.A., Beder, N.A., Alkahtani, S., Abdel-Daim, M.M., & El-Aziz, A.H.A. (2020). Efficacy of different drenching regimens of gluconeogenic precursors during transition period on body condition score, production, reproductive performance, subclinical ketosis and economics of dairy cows. Animals, 10 (937), 1-13. https://doi.org/10.3390/ani10060937
  • Fonseca, L.F.L., Rodrigues, P.H.M., dos Santos, M.V., Lima, A.P., & Lucci, C.S. (2004). Supplementation of dairy cows with propylene glycol during the periparturient period: effects on body condition score, milk yield, first estrus post-partum, β-hydroxybutyrate, non-esterified fatty acids and glucose concentrations. Ciência Rural, 34 (3), 897-903.
  • Goff, JP. (2008). The monitoring, prevention, and treatment of milk fever and subclinical hypocalcemia in dairy cows. Veterinary Journal, 176(1), 50–57. https://doi.org/10.1016/j.tvjl.2007.12.020
  • Gordon, J.L., LeBlanc, S.J., Kelton, D.F., Herdt, T.H., Neuder, L., & Duffield, T.F. (2017). Randomized clinical field trial on the effects of butaphosphan cyanocobalamin and propylene glycol on ketosis resolution and milk production. Journal of Dairy Science, 100, 3912–392. https://doi.org/10.3168/ jds.2016-11926
  • Jenkins, N.T., Pena, G., Risco, C., Barbosa, C.C., Vieira-Neto, A., & Galvao, K.N. (2015). Utility of inline milk fat and protein ratio to diagnose subclinical ketosis and to assign propylene glycol treatment in lactating dairy cows. The Canadian Veterinary Journal, 56(8), 850 – 854.
  • Jeong, J.K., Choi, I.S., Moon, S.H., Lee, S.C., Kang, H.G., Jung, Y.H., Park, S.B., & Kim, I.H. (2018). Effect of two treatment protocols for ketosis on the resolution, postpartum health, milk yield, and reproductive outcomes of dairy cows. Theriogenology, 106, 53-59. https://doi.org/10.1016/j.theriogenology. 2017.09.030
  • Jimenez, R.X., Young, A.F., & Fernandes, H.L.S. (2020). Propylene glycol from glycerol: Process evaluation and break-even price determination. Renewable Energy, 158, 181-191. https://doi.org/ 10.1016/j.renene.2020.05.126
  • Khol, J.L., Freigassner, K., Stannitznig, A., Tichy, A., & Wittek, T. (2019). Evaluation of a handheld device for the measurement of beta-hydroxybutyrate in capillary blood obtained by the puncture of the vulva as well as in venous whole blood in cattle. Polish Journal of Veterinary Science, 22(3), 557–564. https://doi.org/10.24425/pjvs.2019.129964
  • Lomander, H., Frössling, J., Ingvartsen, K.L., Gustafsson, H., & Svensson, C. (2012). Supplemental feeding with glycerol or propylene glycol of dairy cows in early lactation—Effects on metabolic status, body condition, and milk yield. Journal of Dairy Science, 95(5), 2397–2408. https://doi.org/ 10.3168/jds.2011-4535
  • McArt, J.A.A., Nydam, D.V., & Oetzel, G.R. (2011). A field trial on the effect of propylene glycol on displaced abomasum, removal from herd, and reproduction in fresh cows diagnosed with subclinical ketosis. Journal of Dairy Science, 95, 2505–2512. https://doi. org/10.3168/jds.2011-4908
  • McArt, J.A.A., Nydam, D.V., & Oetzel, G.R. (2012). Epidemiology of subclinical ketosis in early lactation dairy cattle. Journal of Dairy Science, 95(9), 5056–5066. https://doi.org/10.3168/jds.2012-5443
  • McArt, J.A.A., Nydam, D.V., Oetzel, G.R., & Guard, C.L. (2014). An economic analysis of hyperketonemia testing and propylene glycol treatment strategies in early lactation dairy cattle. Preventive Veterinary Medicine,117(1), 170-179. https://doi.org/10.1016/j. prevetmed.2014.06.017
  • Mikuła, R., Pruszyńska-Oszmałek, E., Ignatowicz-Stefaniak, M., Kołodziejski, P.A., Maćkowiak, P., & Nowak, W. (2020). The effect of propylene glycol delivery method on blood metabolites in dairy cows. Acta Veterinaria Brno, 89, 19–29. https:// doi.org/10.2754/avb202089010019
  • Nielsen, N. (2004). Propylene glycol for dairy cows: A review of the metabolism of propylene glycol and its effects on physiological parameters, feed intake, milk production and risk of ketosis. Animal Feed Science and Technology, 115 (3–4), 191-213. https://doi.org/ 10.1016/j.anifeedsci.2004.03.008
  • Østergaard, S., Krogh, M.A., Oliveira, V.H.S., Larsen, T., Consortium, G.E., & Otten, N.D. (2020). Only few benefits from propylene glycol drench in early lactation for cows identified as physiologically imbalanced based on milk spectra analyses. Journal of Dairy Science, 103(2), 1831–1842. https://doi.org/ 10.3168/jds.2019-17205
  • Suthar, V.S., Canelas-Raposo, J., Deniz, A., & Heuwieser, W. (2013). Prevalence of subclinical ketosis and relationships with postpartum diseases in European dairy cows. Journal of Dairy Science, 96(5), 2925-2938. https://doi.org/10.3168/jds.2012-6035
  • Şentürk, S., Cihan, H., Mecitoğlu, Z., Çatık, S., Demir, G., Kasap, S., & Topal, O. (2016). Prevalence of ketosis in dairy herds in Marmara, Aegean and Mediterranean regions of Turkey. Ankara Üniversitesi Veteriner Fakültesi Dergisi, 63, 283-288.
  • Uyarlar. C., Çetingül, I.S., Gültepe, .EE., Sial, A.R., & Bayram, I. (2018). Effects of subclinical and clinical ketosis on the incidence of mastitis, metritis, culling rate and some hematological parameters in dairy cows. Kocatepe Veterinary Journal, 11 (2), 186-193. https://doi.org/10.30607/kvj.419839
  • Zhang, F., Nan, X., Wang, H., Zhao, Y., Guo, Y., & Xiong, B. (2020). Effects of propylene glycol on negative energy balance of postpartum dairy cows. Animals, 10, 1526. https://doi.org/10.3390/ ani10091526

Holstein süt ineklerine doğumda koruyucu propilen glikol uygulamasının subklinik ketozise etkisi

Year 2024, , 1 - 9, 30.04.2024
https://doi.org/10.31797/vetbio.1374657

Abstract

Çalışmaya 19 tedavi grubu (grup 1), 25 kontrol grubu (grup 2) toplam 44 inek katıldı. Grup 1’e doğumla birlikte 3 gün boyunca 300 ml koruyucu propilen glikol tedavisi (PPGT) uygulandı, grup 2 ise herhangi bir uygulama almadı. Bütün hayvanların postpartum 2. ve 4. haftalarda (PH2 ve PH4) kan ve süt betahidroksibütirik asit konsantrasyonları ölçüldü. Ortalama günlük süt miktarı (OGSM), vücut kondisyon skoru (VKS) ve postpartum hastalıklar (PH) yönünden 90 gün boyunca izlendi. Grup 2’de sırasıyla 2. ve 4. haftada subklinik ketozis (SKK) insidansı kan testinde %8 ve %4 (BHBA≥1,2 mmol/L) ve süt testinde (BHBA≥200 µmol/L) %12 ve %24 (olasılık oranı=5,68) idi. Kan ve süt BHBA'sı grup 1 ve 2 arasında önemli ölçüde farklı değildi. Grup 1'de SKK saptanmadı. Çalışma inekleri doğum sonrası 30 ve 60. günlerde gruplar arasında anlamlı bir fark olmaksızın VKS kaybetti. OGSM, SKK'li KG (28,36 kg), SKK'siz (34,36 kg) ve grup 1 (33,92 kg) arasında önemli ölçüde farklıydı (P<0.05). Mastitis, metritis ve laminitis insidansı hem grup 1 hem de 2'de gözlendi. Ancak klinik ketozis ve sürüden ayırma oranı sadece grup 2'de gözlendi. Mastitis insidansı grup 2 ve 1'de sırasıyla %32 (olasılık oranı: 4.0) ve %10,5 idi. Grup 2'de sürüden ayırma oranı %12 idi, grup 1'de sürüden ayırma gözlenmedi. Sonuç olarak, PPGT'nin PH2 ve 4'teki kan ve süt BHBA ortalamaları üzerinde önemli bir etkisi olmamasına rağmen, gözlemlenen SKK’nin postpartum hastalıklar ve grup 2'de OGSM kaybı olması SKK riski altındaki ineklerde seçici bir PPGT uygulaması gerektirebilir.

References

  • Aksoy, K., Deniz, A., Demir, S., & Onmaz, A.C. (2022). Blood and milk beta-hydroxybutyric acid concentrations in different dairy cattle breeds and association of subclinical ketosis with postpartum health disorders, culling rate, body condition score, parity and milk production in Holstein. Kafkas Üniversitesi Veteriner Fakültesi Dergisi, 28 (2), 235-246. https://doi.org/10.9775/kvfd.2021.26804
  • Benedet, A., Manuelian, C.L., Zidi, A., Penasa, M., & Marchi, M.De. (2019). Invited review: β hydroxybutyrate concentration in the blood and milk and its associations with cow performance. Animal, 13 (8), 1676–1689. https://doi.org/10.1017/ S175173111900034X
  • Berge, A.C., & Vertenten, G. (2014). A field study to determine the prevalence, dairy herd management systems, and fresh cow clinical conditions associated with ketosis in western European dairy herds. Journal of Dairy Science, 97(4), 2145–2154. https:// doi.org/10.3168/jds.2013-7163
  • Brunner, N., Groeger, S., Raposo, J.C., Bruckmaier, R.M., & Gross, J.J. (2018). Prevalence of subclinical ketosis and production diseases in dairy cows in Central and South America, Africa, Asia, Australia, New Zealand, and Eastern Europe. Translation Animal Science, 3(1), 84–92. https://doi.org/10.1093/ tas/txy102
  • Christensen, J.O., Grummer, R.R., Rasmussen, F.E., & Bertics, S.J. (1997). Effect of method of delivery of propylene glycol on plasma metabolites of feed-restricted cattle. Journal of Dairy Science, 80, 563–568. https://doi.org/10.3168/jds.S0022-0302(97)75971-X
  • Deniz, A., Aksoy, K., & Metin, M. (2020). Transition period and subclinical ketosis in dairy cattle: association with milk production, metabolic and reproductive disorders and economic aspects. Medycyna Weterynaryjna, 76 (9), 495-502. https://doi.org/10.21521/mw.6427
  • Duffield, T.F., Lissemore, K.D., McBride, B.W., & Leslie, K.E. (2009). Impact of hyperketonaemia in early lactation dairy cows on health and production. Journal of Dairy Science, 92, 571-580. https://doi.org/10.3168/jds.2008-1507
  • Edmonson, A.J., Lean, I.J., Weaver, L.D., Farver, T., & Webster, G. (1989). A body condition scoring chart for Holstein dairy cows. Journal of Dairy Science, 72(1), 68–78. https://doi.org/10.3168/jds.S0022-0302(89)79081-0
  • El-Kasrawy, N.I., Swelum, A.A., Abdel-Latif, M.A., Alsenosy, A.El.W.A., Beder, N.A., Alkahtani, S., Abdel-Daim, M.M., & El-Aziz, A.H.A. (2020). Efficacy of different drenching regimens of gluconeogenic precursors during transition period on body condition score, production, reproductive performance, subclinical ketosis and economics of dairy cows. Animals, 10 (937), 1-13. https://doi.org/10.3390/ani10060937
  • Fonseca, L.F.L., Rodrigues, P.H.M., dos Santos, M.V., Lima, A.P., & Lucci, C.S. (2004). Supplementation of dairy cows with propylene glycol during the periparturient period: effects on body condition score, milk yield, first estrus post-partum, β-hydroxybutyrate, non-esterified fatty acids and glucose concentrations. Ciência Rural, 34 (3), 897-903.
  • Goff, JP. (2008). The monitoring, prevention, and treatment of milk fever and subclinical hypocalcemia in dairy cows. Veterinary Journal, 176(1), 50–57. https://doi.org/10.1016/j.tvjl.2007.12.020
  • Gordon, J.L., LeBlanc, S.J., Kelton, D.F., Herdt, T.H., Neuder, L., & Duffield, T.F. (2017). Randomized clinical field trial on the effects of butaphosphan cyanocobalamin and propylene glycol on ketosis resolution and milk production. Journal of Dairy Science, 100, 3912–392. https://doi.org/10.3168/ jds.2016-11926
  • Jenkins, N.T., Pena, G., Risco, C., Barbosa, C.C., Vieira-Neto, A., & Galvao, K.N. (2015). Utility of inline milk fat and protein ratio to diagnose subclinical ketosis and to assign propylene glycol treatment in lactating dairy cows. The Canadian Veterinary Journal, 56(8), 850 – 854.
  • Jeong, J.K., Choi, I.S., Moon, S.H., Lee, S.C., Kang, H.G., Jung, Y.H., Park, S.B., & Kim, I.H. (2018). Effect of two treatment protocols for ketosis on the resolution, postpartum health, milk yield, and reproductive outcomes of dairy cows. Theriogenology, 106, 53-59. https://doi.org/10.1016/j.theriogenology. 2017.09.030
  • Jimenez, R.X., Young, A.F., & Fernandes, H.L.S. (2020). Propylene glycol from glycerol: Process evaluation and break-even price determination. Renewable Energy, 158, 181-191. https://doi.org/ 10.1016/j.renene.2020.05.126
  • Khol, J.L., Freigassner, K., Stannitznig, A., Tichy, A., & Wittek, T. (2019). Evaluation of a handheld device for the measurement of beta-hydroxybutyrate in capillary blood obtained by the puncture of the vulva as well as in venous whole blood in cattle. Polish Journal of Veterinary Science, 22(3), 557–564. https://doi.org/10.24425/pjvs.2019.129964
  • Lomander, H., Frössling, J., Ingvartsen, K.L., Gustafsson, H., & Svensson, C. (2012). Supplemental feeding with glycerol or propylene glycol of dairy cows in early lactation—Effects on metabolic status, body condition, and milk yield. Journal of Dairy Science, 95(5), 2397–2408. https://doi.org/ 10.3168/jds.2011-4535
  • McArt, J.A.A., Nydam, D.V., & Oetzel, G.R. (2011). A field trial on the effect of propylene glycol on displaced abomasum, removal from herd, and reproduction in fresh cows diagnosed with subclinical ketosis. Journal of Dairy Science, 95, 2505–2512. https://doi. org/10.3168/jds.2011-4908
  • McArt, J.A.A., Nydam, D.V., & Oetzel, G.R. (2012). Epidemiology of subclinical ketosis in early lactation dairy cattle. Journal of Dairy Science, 95(9), 5056–5066. https://doi.org/10.3168/jds.2012-5443
  • McArt, J.A.A., Nydam, D.V., Oetzel, G.R., & Guard, C.L. (2014). An economic analysis of hyperketonemia testing and propylene glycol treatment strategies in early lactation dairy cattle. Preventive Veterinary Medicine,117(1), 170-179. https://doi.org/10.1016/j. prevetmed.2014.06.017
  • Mikuła, R., Pruszyńska-Oszmałek, E., Ignatowicz-Stefaniak, M., Kołodziejski, P.A., Maćkowiak, P., & Nowak, W. (2020). The effect of propylene glycol delivery method on blood metabolites in dairy cows. Acta Veterinaria Brno, 89, 19–29. https:// doi.org/10.2754/avb202089010019
  • Nielsen, N. (2004). Propylene glycol for dairy cows: A review of the metabolism of propylene glycol and its effects on physiological parameters, feed intake, milk production and risk of ketosis. Animal Feed Science and Technology, 115 (3–4), 191-213. https://doi.org/ 10.1016/j.anifeedsci.2004.03.008
  • Østergaard, S., Krogh, M.A., Oliveira, V.H.S., Larsen, T., Consortium, G.E., & Otten, N.D. (2020). Only few benefits from propylene glycol drench in early lactation for cows identified as physiologically imbalanced based on milk spectra analyses. Journal of Dairy Science, 103(2), 1831–1842. https://doi.org/ 10.3168/jds.2019-17205
  • Suthar, V.S., Canelas-Raposo, J., Deniz, A., & Heuwieser, W. (2013). Prevalence of subclinical ketosis and relationships with postpartum diseases in European dairy cows. Journal of Dairy Science, 96(5), 2925-2938. https://doi.org/10.3168/jds.2012-6035
  • Şentürk, S., Cihan, H., Mecitoğlu, Z., Çatık, S., Demir, G., Kasap, S., & Topal, O. (2016). Prevalence of ketosis in dairy herds in Marmara, Aegean and Mediterranean regions of Turkey. Ankara Üniversitesi Veteriner Fakültesi Dergisi, 63, 283-288.
  • Uyarlar. C., Çetingül, I.S., Gültepe, .EE., Sial, A.R., & Bayram, I. (2018). Effects of subclinical and clinical ketosis on the incidence of mastitis, metritis, culling rate and some hematological parameters in dairy cows. Kocatepe Veterinary Journal, 11 (2), 186-193. https://doi.org/10.30607/kvj.419839
  • Zhang, F., Nan, X., Wang, H., Zhao, Y., Guo, Y., & Xiong, B. (2020). Effects of propylene glycol on negative energy balance of postpartum dairy cows. Animals, 10, 1526. https://doi.org/10.3390/ ani10091526
There are 27 citations in total.

Details

Primary Language English
Subjects Veterinary Medicine, Veterinary Diagnosis and Diagnostics
Journal Section Research Articles
Authors

Kemal Aksoy 0000-0003-0149-6688

Abdülkerim Deniz 0000-0002-5242-5671

Early Pub Date April 21, 2024
Publication Date April 30, 2024
Submission Date October 11, 2023
Acceptance Date December 15, 2023
Published in Issue Year 2024

Cite

APA Aksoy, K., & Deniz, A. (2024). Effects of prophylactic propylene glycol administration at calving on subclinical ketosis in Holstein dairy cows. Journal of Advances in VetBio Science and Techniques, 9(1), 1-9. https://doi.org/10.31797/vetbio.1374657

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