Low cortisol levels in blood from dairy cows with ketosis: a field study
详细信息 查看全文
- 作者:Kristina B Forslund (1)
?rjan A Ljungvall (2)
Bernt V Jones (1) - 刊名:Acta Veterinaria Scandinavica
- 出版年:2010
- 出版时间:December 2010
- 年:2010
- 卷:52
- 期:1
- 全文大小:452KB
- 参考文献:1. Rohrbach BW, Cannedy AL, Freeman K, Slenning BD: Risk factors for abomasal displacement in dairy cows. / J Am Vet Med Assoc 1999, 214:1660-.
2. LeBlanc SJ, Leslie KE, Duffield TF: Metabolic predictors of displaced abomasum in dairy cattle. / J Dairy Sci 2005, 88:159-70. CrossRef
3. Holtenius K, Sternbauer K, Holtenius P: The effect of plasma glucose level on abomasal function in dairy cows. / J Anim Sci 2000, 78:1930-935.
4. Trenkle A: Endocrine regulation of energy metabolism in ruminants. / Fed Proc 1981, 40:2536-1.
5. Lomax MA, Baird GD: Blood flow and nutrient exchange across the liver and gut of the dairy cow. Effects of lactation and fasting. / Br J Nutr 1983, 49:481-96. CrossRef
6. Huntington GB: Energy metabolism in the digestive tract and liver of cattle: influence of physiological state and nutrition. / Reprod Nutr Dev 1990, 30:35-7. CrossRef
7. Zhao F-Q, Keating AF: Expression and regulation of glucose transporters in the bovine mammary gland. / J Dairy Sci 2007,90(E Suppl):E76-E86. CrossRef
8. Nielsen MO, Madsen TG, Hedeboe AM: Regulation of mammary glucose uptake in goats: role of mammary gland supply, insulin, IGF-1 and synthetic capacity. / J Dairy Res 2001, 68:337-49. CrossRef
9. Thüer S, Mellema S, Doherr MG, Wechsler B, Nuss K, Steiner A: Effect of local anaesthesia on short- and long-term pain induced by two bloodless castration methods in calves. / Vet J 2007, 173:333-2. CrossRef
10. Mudron P, Scholz H, Sallmann HP, Rehage J, Kovac G, Bartko F, Holtershinken M: Effect of vitamin E injection on cortisol and white blood cell response to surgical stress in dairy cows. / Int J Vitam Nutr Res 1994, 64:176-80.
11. Huszenicza G, Janosi S, Gaspardy A, Kulcsár : Endocrine aspects in pathogenesis of mastitis in postpartum dairy cows. / Anim Reprod Sci 2004, 83:389-00. Review. CrossRef
12. Kulcsar M, Janosi S, Lehtolainen T, Kátai L, Delavaud C, Balogh O, Chilliard Y, Py?r?l? S, Rudas P, Huszenicza Gy: Feeding-unrelated factors influencing the plasma leptin level in ruminants. / Domest Anim Endocrinol 2005, 29:214-26. Review. CrossRef
13. Almeida PE, Weber PS, Burton JL, Zanella AJ: Depressed DHEA and increased sickness response behaviors in lame dairy cows with inflammatory foot lesions. / Domest Anim Endocrinol 2008, 34:89-9. CrossRef
14. Waage S, Sjaastad OV, Blom AK: Plasma concentrations of cortisol in cows with hypocalcaemia in relation to their responses to treatment with calcium. / Res Vet Sci 1984, 36:164-.
15. Radostits OM, Gay CG, Hinchcliff KW, Constable PD, eds: Chapter 29, Metabolic Diseases. In / Veterinary Medicine. 10th edition. Saunders Elsevier; 2007:1613-690.
16. Bola?os JM, Molina JR, Forsberg M: Effect of blood sampling and administration of ACTH on cortisol and progesterone levels in ovariectomized zebu cows (Bos indicus). / Acta Vet Scand 1997, 38:1-.
17. Moyes KM, Drackley JK, Salak-Johnson JL, Morin DE, Hope JC, Loor JJ: Dietary-induced negative energy balance has minimal effects on innate immunity during a Streptococcus uberis mastitis challenge in dairy cows during midlactation. / J Dairy Sci 2009, 92:4301-316. CrossRef
18. Lefcourt AM, Bitman J, Kahl DS, Wood DL: Circadian and ultradian rhythms of peripheral cortisol concentrations in lactating dairy cows. / J Dairy Sci 1993, 76:2607-2. CrossRef
19. Barret J: The adrenal gland (Chapter 49). In / Medical Physiology. Saunders, Elsevier Science; 2003. ISBN: 0-216-256-.
20. Beerda B, Kornalijnslijper JE, Werf JT, Noordhuizen-Stassen EN, Hopster H: Effects of milk production capacity and metabolic status on HPA function in early postpartum dairy cows. / J Dairy Sci 2004, 87:2094-02. CrossRef
21. de Boer G, Trenkle A, Young JW: Glucagon, Insulin, Growth Hormone, and Some Blood Metabolites During Energy Restriction Ketonemia of Lactating Cows. / J Dairy Sci 1985, 68:326-7. CrossRef
22. Goff JP, Kehrli ME Jr, Horst RL: Periparturient hypocalcemia in cows: prevention using intramuscular parathyroid hormone. / J Dairy Sci 1989, 72:1182-187. CrossRef
23. Patel OV, Takahashi T, Takenouchi N, Hirako M, Saski N, Domeki I: Peripheral cortisol levels throughout gestation in the cow: effect of stage of gestation and foetal number. / Br Vet J 1996, 152:425-2. CrossRef
24. Furll M, Jackel F: Effects of corticoids on parameters of lipid metabolism, hepatic metabolism, haematological parameters and milk yield in high-yielding cows in early lactation. / Berl Munch Tierarztl Wochenschr 2005, 118:247-4.
25. Holtenius K, Agen?s S, Delavaud C, Chilliard Y: Effects of feeding intensity during the dry period. 2. Metabolic and hormonal responses. / J Dairy Sci 2003, 86:883-91. CrossRef
26. Horst RL, Jorgensen NA: Elevated plasma cortisol during induced and spontaneous hypocalcaemia in ruminants. / J Dairy Sci 1982, 65:2332-337. CrossRef
27. van Dorp RT, Martin SW, Shoukri MM, Noordhuizen JP, Dekkers CM: An epidemiologic study of disease in 32 registered Holstein dairy herds in British Columbia. / Can J Vet Res 1999, 63:185-2. - 作者单位:Kristina B Forslund (1)
?rjan A Ljungvall (2)
Bernt V Jones (1)
1. Department of Clinical Sciences, Faculty of Veterinary Medicine and Animal Sciences, SLU, Box 7054, S-750 07, Uppsala, Sweden
2. Kulterra AB, Rubens v?g 7, S-740 21, J?rl?sa, Sweden
文摘
Background An elevated plasma glucose concentration has been considered to be a potential risk factor in the pathogenesis of left-displaced abomasums (DA). Therefore the present study was performed to investigate if spontaneous disease (parturient paresis, metritis, ketosis etc) in dairy cows results in elevated concentrations of glucose and cortisol in blood as cortisol is the major regulator of glucose in ruminants. Methods Cortisol, insulin, β-hydroxybutyric acid (BHBA), non esterified fatty acids (NEFA), and serum calcium were analyzed in blood serum and glucose, in whole blood, from 57 spontaneously diseased cows collected at different farms. The cows were grouped according to the disease; parturient paresis, recumbent for other reasons, mastitis, metritis, ketosis, inappetance and others. Results No elevated concentrations of cortisol or glucose were found in cows with metritis and mastitis but both cortisol and glucose were elevated in cows stressed by recumbency. Cows with ketonemia (BHBA > 1.5 mmol/l) did not have low concentration of glucose in blood but significantly low levels of cortisol. Some of these cows even had cortisol concentrations below the detection limit of the analysing method (< 14 nmol/l). Conclusions The study gives patho-physiological support to the treatment strategies of ketosis, recommending glucocorticoids, insulin etc. However further studies of this problem are needed to understand why cows with ketosis have low levels of cortisol and normal levels of glucose. To what extent elevated cortisol and glucose levels in hypocalcemic and recumbent cows are involved in the ethiology and /or the pathogenesis of DA also will need further research.