Use of a glycogenic precursor during the prepartum period and its effects upon metabolic indicators and reproductive parameters in dairy cows

Autores/as

  • Carlos Leyva Orasma Universidad Autónoma Agraria Antonio Narro. Departamento de Ciencias Médico Veterinarias, Torreón, Coahuila, México.
  • Jesús Jaime Benitez-Rivas Universidad Autónoma Agraria Antonio Narro. Posgrado en Ciencias en Producción Agropecuaria, Torreón, Coahuila, México.
  • Juan Luis Morales Cruz Universidad Autónoma Agraria Antonio Narro. Departamento de Producción Animal, Torreón, Coahuila, México.
  • Cesar Alberto Meza-Herrera Universidad Autónoma Chapingo. Unidad Regional Universitaria de Zonas Áridas, Bermejillo, Durango, México.
  • Oscar Ángel-García Universidad Autónoma Agraria Antonio Narro. Departamento de Ciencias Médico Veterinarias, Torreón, Coahuila, México.
  • Fernando Arellano-Rodríguez Universidad Autónoma Agraria Antonio Narro. Departamento de Producción Animal, Torreón, Coahuila, México.
  • Guadalupe Calderón-Leyva Universidad Autónoma Agraria Antonio Narro. Departamento de Producción Animal, Torreón, Coahuila, México.
  • Dalia Ivette Carrillo-Moreno Universidad Autónoma Agraria Antonio Narro. Departamento de Producción Animal, Torreón, Coahuila, México.
  • Francisco Veliz Deras Universidad Autónoma Agraria Antonio Narro. Departamento de Ciencias Médico Veterinarias, Torreón, Coahuila, México.

DOI:

https://doi.org/10.22319/rmcp.v11i2.5685

Palabras clave:

Beta hydroxybutyrate, NEFA, Subclinical ketosis, Postpartum

Resumen

The aim was to evaluate if 1-2 propanodiol plus calcium propionate (glycogenic precursor) supplementation during the transition period in high yielding dairy cows reduces metabolic and reproductive dysfunctions during early lactation. Cows (n=202) where divided into two homogeneous groups regarding number of lactations and body condition score. 1) Treated Group (GG; n=112) received 60g/cow/day  15d of a glycogenic precursor during the transition period. 2) Control Group (GC; n = 90) received no treatment. Postpartum levels of BHB (GG= 0.9±0.2 mmol/L vs GC =1.3±0.2 mmol/L; P < 0.05), and NEFA (GG= 0.6 ± 0.1 mEq/L vs GC = 0.8 ± 0.1 mEq/L; P < 0.05) were higher for GC. Likewise, GC-cows had a higher percentage of retained placenta (23% vs. 13%; P ≤ 0.06) subclinical ketosis (GG = 10%, GC = 56%; P < 0.05), and mastitis (GG = 8%, GC = 16%; P < 0.05). Metritis, dystocia, abortions, clinical ketosis, hypocalcemia and ruminal acidosis showed no differences. Administration of a glycogenic precursor during the transition period demonstrated a positive effect upon BHB and NEFA blood levels during early lactation. Also, levels of subclinical ketosis and retained placenta were reduced.

Descargas

Los datos de descargas todavía no están disponibles.

Citas

Duffield TF, Sandals D, Leslie KE, Lissemore K, McBride BW, Lumsden JH, et al. Effect of prepartum administration of monensin in a controlled-release capsule on postpartum energy indicators in lactating dairy cows. J Dairy Sci 1998;81(9):2354-2361.

González FD, Muiño R, Pereira V, Campos R, Benedito JL. Relationship among blood indicators of lipomobilization and hepatic function during early lactation in high-yielding dairy cows. J Vet Sci 2011; 2(3):251-255.

Oetzel GR. Monitoring and testing dairy herds for metabolic disease. Vet Clin North Food Anim Pract 2004;20(3):651-674.

Suthar VS, Canelas-Raposo J, Deniz A, Heuwieser W. Prevalence of subclinical ketosis and relationships with postpartum diseases in European dairy cows. J Dairy Sci 2013;96(5):2925-2938.

Schallenberger GR, Cardoso F, De Souza GF, Reyes CLJ, Gonzalez F. Administration of early post-partum orlan drench in dairy cows: effect on metabolic profile. Rev Med Vet Zoot 2015;62(3):10-17.

McArt JA, Nydam DV, Oetzel GR, Overton TR, Ospina PA. Elevated non-esterified fatty acids and β-hydroxybutyrate and their association with transition dairy cow performance. Vet J 2013;98(3):560-570.

Patton RS, Sorenson CE, Hippen AR. Effects of dietary glucogenic precursors and fat on feed intake and carbohydrate status of transition dairy cows. J Dairy Sci 2004;87(7):2122-2129.

Butler ST, Pelton SH, Butler WR. Energy balance, metabolic status, and the first postpartum ovarian follicle wave in cows administered propylene glycol. J Dairy Sci 2006;89(8):2938-2951.

Lien TF, Chang LB, Horng YM, Wu CP. Effects of propylene glycol on milk production, serum metabolites and reproductive performance during the transition period of dairy cows. Asian-Australas J Anim Sci 2010;23(3):372-378.

Reynolds CK, Aikman PC, Lupoli B, Humphries DJ, Beever DE. Splanchnic metabolism of dairy cows during the transition from late gestation through early lactation. J Dairy Sci 2003;86(4):1201-1217.

Larsen M, Kristensen NB. Precursors for liver gluconeogenesis in periparturient dairy cows. Animal 2013;7(10):1640-1650.

National Reseach Coucil. Nutrient Requirements of Dairy Cattle: Seventh Revised Edition. 2001.

Iwersen M, Falkenberg U, Voigtsberger R, Forderung D, Heuwieser W. Evaluation of an electronic cow side test to detect subclinical ketosis in dairy cows. J Dairy Sci 2009;92(6):2618-2624.

Berge AC, Vertenten G. A field study to determine the prevalence, dairy herd management systems, and fresh cow clinical conditions associated with ketosis in western European dairy herds. J Dairy Sci 2014;97(4):2145-2154.

Mellado M, Antonio-Chirino E, Meza-Herrera C, Veliz FG, Arevalo JR, Mellado J, et al. Effect of lactation number, year, and season of initiation of lactation on milk yield of cows hormonally induced into lactation and treated with recombinant bovine somatotropin. J Dairy Sci 2011;94(9):4524-4530.

Dervishi E, Zhang G, Hailemariam D, Dunn SM, Ametaj BN. Occurrence of retained placenta is preceded by an inflammatory state and alterations of energy metabolism in transition dairy cows. J Anim Sci Biotechnol 2016;7(1):26.

Sheldon IM, Lewis GS, LeBlanc S, Gilbert RO. Defining postpartum uterine disease in cattle. Theriogenology 2006;65(8):1516-1530.

McArt JAA, Nydam DV, Oetzel GR. Epidemiology of subclinical ketosis in early lactation dairy cattle. J Dairy Sci 2012;95(9):5056-5066.

Aschenbach JR, Kristensen NB, Donkin SS, Hammon HM, Penner GB. Gluconeogenesis in dairy cows: the secret of making sweet milk from sour dough. IUBMB life 2010;62(12):869-877.

Bjerre-Harpøth V, Storm AC, Vestergaard M, Larsen M, Larsen T. Effect of postpartum propylene glycol allocation to over-conditioned Holstein cows on concentrations of milk metabolites. J Dairy Res 2016;83(2):156-164.

Tóthová C, Nagy O, Kováč G. Relationship between some variables of protein profile and indicators of lipomobilization in dairy cows after calving. Archiv Tierzucht 2014;57(1):1-9.

Duffield TF, LeBlanc SJ. Interpretation of serum metabolic parameters around the transition period. In: Southwest Nutrition and Management Conference; 2009:106-114.

Chapinal N, Carson ME, LeBlanc SJ, Leslie KE, Godden S, Capel M, et al. The association of serum metabolites in the transition period with milk production and early-lactation reproductive performance. J Dairy Sci 2012;95(3):1301-1309.

Leslie KE, Duffield TF, Schukken YH, LeBlanc SJ. The influence of negative energy balance on udder health. In: Proc National Mastitis Council Regional Meeting; 2000:25-33.

Berry DP, Lee JM, Macdonald KA, Stafford K, Matthews L, Roche JR. Associations among body condition score, body weight, somatic cell count, and clinical mastitis in seasonally calving dairy cattle. J Dairy Sci 2007;90(2):637-648.

Zhang WY, Schwartz E, Wang Y, Attrep J, Li Z, Reaven P. Elevated concentrations of nonesterified fatty acids increase monocyte expression of CD11b and adhesion to endothelial cells. Arterioscler Thromb Vasc Biol 2006;26(3):514-519.

Yaqoob P, Calder PC. Fatty acids and immune function: new insights into mechanisms. Br J Nut 2007;98(S1):41-45.

Roche JR, Berry DP. Periparturient climatic, animal, and management factors influencing the incidence of milk fever in grazing systems. J Dairy Sci 2006;89(7):2775-2783.

Dyk PB, Emery RS, Liesman JL, Bucholtz HF, Vandehaar MJ. Prepartum non-esterified fatty acids in plasma are higher in cows developing periparturient health problems. J Dairy Sci 1995;78(1):264.

Sordillo LM, Contreras GA, Aitken SL. Metabolic factors affecting the inflammatory response of periparturient dairy cows. Anim Health Res Rev 2009;10(1):53-63.

LeBlanc SJ, Leslie KE, Duffield TF. Metabolic predictors of displaced abomasum in dairy cattle. J Dairy Sci 2005;88(1):159-170.

Publicado

02.06.2020

Cómo citar

Leyva Orasma, C., Benitez-Rivas, J. J., Morales Cruz, J. L., Meza-Herrera, C. A., Ángel-García, O., Arellano-Rodríguez, F., … Veliz Deras, F. (2020). Use of a glycogenic precursor during the prepartum period and its effects upon metabolic indicators and reproductive parameters in dairy cows. Revista Mexicana De Ciencias Pecuarias, 11(2), 408–420. https://doi.org/10.22319/rmcp.v11i2.5685
Metrics
Vistas/Descargas
  • Resumen
    612
  • PDF
    435
  • PDF
    274
  • Full text
    73

Número

Sección

Artículos

Métrica

Artículos similares

1 2 3 4 5 6 > >> 

También puede Iniciar una búsqueda de similitud avanzada para este artículo.

Artículos más leídos del mismo autor/a