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2011 | 67 | 04 |

Tytuł artykułu

Development of ovarian follicles, quality of oocytes and fertility of cows in view of a negative energy balance in the transition period

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Energy metabolism in cows during the first three weeks after calving has a decisive effect on the incidence of the first estrus postpartum, the length of the voluntary waiting period and interpregnancy period. Additionally, the negative energy balance (NEB) is usually promoted by the relatively one-sided selection of cows towards high production - accepting the occurrence of NEB after calving as well as excessive body condition of cows before calving. In case of a rapid body condition loss in cows after calving, connected with fat mobilization, characteristic of cows in excessive body condition during drying off, ovarian follicles are not properly formed. Disorders of the ovulation process as well as a lower secretion of progesterone are more frequently recorded in those cows. As a result of an energy deficit at the beginning of lactation, the frequency of GnRH pulses from the hypothalamus is lower in high-producing cows. A lack of pulsation secretion of LH as an effect of the prolonged lack of adaptation of a sufficient amount of energy to the needs of the female was found both in beef and dairy cows. The recurrence of LH pulses, stimulating the onset of ovarian activity and the pre-ovulatory development of ovarian follicles, is crucail to the return of cyclical activity in the postpartum period in cows suffering from NEB. An energy deficit causes the incidence of a dysfunction of the reproductive system in the form of persistent ovarian failure, a delayed onset of normal ovarian activity, and the appearance of the first corpus luteum postpartum. The number of estrus cycles occurring before effective insemination is also reduced and both the voluntary waiting period and interpregnancy period are longer. An energy deficit in the postpartum period results in disorders in the functioning of the endometrium. Disturbed energy-consuming processes of endometrium remodeling lead to delays in uterine involution. Reduced uterine contractility and changes in its environment constitute causes for the retention of the placenta and postpartum metritis; in cows with NEB it was a reduced mitogen response of lymphocytes to cytohaema gglutinin. Moreover, a reduced phagocytic activity of macrophages was found in the milk of cows, in which high contents of ketone compounds were found in their plasma. Similarly, the activity of lymphocytes and neutrophiles was reduced in the environment with an addition of β-hydroxybutyric and acetoacetic acids, as well as elevated PUFA levels and a reduced blood leptin concentration.

Wydawca

-

Rocznik

Tom

67

Numer

04

Opis fizyczny

p.219-223,ref.

Twórcy

autor
  • Department of Veterinary Medicine, Faculty of Animal Breeding and Biology, Poznan University of Life Sciences, Wojska Polskiego 52, 60-625 Poznan, Poland
autor
autor

Bibliografia

  • 1.Adams G. P., Jaiswal R., Singh J., Malhi P.: Progress in understanding ovarian follicular dynamics in cattle. Theriogenology 2008, 69, 72-80.
  • 2.Armstrong D. G., MvEvoy T. G., Baxter G., Robinson J. J., Hogg C. O., Woad K. J., Webb R., Sinclair K. D.: Effect of dietary energy and protein on bovine follicular dynamics and embryo production in vitro: association with the ovarian insulin-like growth factor system. Biol. Reprod. 2001, 64, 1624-1632.
  • 3.Beam S. W., Butler W. R.: Energy balance and ovarian follicle development prior to the first ovulation postpartum in dairy cows receiving three levels of dietary fat. Biol. Reprod. 1997, 56, 133-142.
  • 4.Beam S. W., Butler W. R.: Energy balance, metabolic hormone, and early postpartum follicular development in dairy cows fed prilled lipid. J. Dairy Sci. 1998, 81, 121-131.
  • 5.Berglund B.: Genetic improvement of dairy cow reproductive performance. Reprod. Dom. Anim. 2008, 43 (Suppl. 2), 89-95.
  • 6.Brydl E., Könyves L., Tegezes L., Jurkovich V., Tirán A.: Incidence of subclinical metabolic disorders in Hungarian dairy herds during last decade. 2008, Magyar Allatorvosok LAPJA 2008, (Suppl. 1), 129-134.
  • 7.Butler S. T., Pelton S. H., Butler W. R.: Energy balance, metabolic status, and the first postpartum ovarian follicle wave in cows administered propylene glycol. J. Dairy Sci. 2006, 89, 2938-2951.
  • 8.Butler S. T., Smith R. D.: Interrelationships between energy balance and postpartum reproductive function in dairy cattle. J. Dairy Sci. 1989, 72, 767-783.
  • 9.Diskin M. G., Mackey D. R., Roche J. F., Sreenan J. M.: Effects of nutrition and metabolic status on circulating hormone and ovarian follicle development in cattle. Anim. Reprod. Sci. 2003, 78, 345-370.
  • 10.Dobson H., Smith R., Royal M., Knight C., Sheldon I.: The highest producing dairy cow and its reproductive performance. Reprod. Dom. Anim. 2007, 42 (Suppl.), 17-23.
  • 11.Edmondson A. J., Lean I. J., Weawer L. D., Farver T., Webster G.: Body condition scoring chart of Holstein dairy cows. J. Dairy Sci. 1989, 72, 68-78.
  • 12.Emery R. S., Burg N., Brown L. D., Blank G. N.: Detection, occurrence and prophylactic treatment of borderline ketosis with propylene glycol feeding. J. Dairy Sci. 1964, 47, 1074-1079.
  • 13.Farkašová Z., Reichel P., Kovačocyová K., Fabini M., Bobuš A., Kováč G.: Effect of glycerol-containing preparation on changes in selected parameters of dairy cows in experimental and field conditions. Proc. 9th Middle Europ. Buiatrics Conf. Budapest 2008, 6-11 July, 68-71.
  • 14.Garnsworthy P. C., Fouladi-Nashata A. A., Mann G. E., Sinclair K. D., Webb R.: Effect of dietary-induced changes in plasma insulin concentrations during the early postpartum period on pregnancy rate in dairy cows. Reproduction 2009, 137, 759-768.
  • 15.Huszczenicza G., Keresztes M., Balogh O., Faigl V., Kátai L., Földi J., Lemoniati K., Kulcsár M.: Peri-parturient changes of metabolic hormones and their clinical and reproductive relevance in dairy cows. Magyar Allatorvosok LAPJA 2008, (Suppl. 1), 45-51.
  • 16.Jaśkowski J. M., Olechnowicz J., Nowak W.: Niektóre przyczyny obniżającej się płodności u krów mlecznych (Selected causes of deteriorating fertility in dairy cows). Medycyna Wet. 2006, 62, 385-389.
  • 17.Kawashima C., Fukihara S., Maeda M., Kaneko E., Montoya C. A., Matsui M., Shimizu T., Matsunaga N., Kida K., Miyake Y., Schams D., Miyamoto A.: Relationship between metabolic hormones and ovulation of dominant follicle during the first follicular wave post-partum in high-producing dairy cows. Reproduction 2007, 133, 155-163.
  • 18.Kindahl H., Odensvik K. I., Aiumiami S., Fredriksson G.: Prostaglandins release as a mediator between infections and impaired reproductive performance. Reprod. Dom. Anim. 1996, 31, 441-455.
  • 19.Kluciński W., Miernik-Degórska E., Degórski A., Targowski S., Winnicka A.: Effects of ketone bodies on the phagocytic activity of bovine milk macrophages and polymorphonuclear leukocytes. J. Vet. Med. A. 1988, 35, 632-639.
  • 20.Kokadowa H., Blache D., Martin G. B.: Plasma lepton concentrations correlate with luteinizing hormone secretion in early postpartum Holstein cows. J. Dairy Sci. 2006, 89, 3020-3027.
  • 21.Leroy J. L. M. R., Opsomer G., De Vliegher S., Vanholder T., Goossens L., Geldhof A., Bols P. E. J., de Kruif A., Van Soom A.: Comparison of embryo quality in high-yielding dairy cows, in dairy heifers and in beef cows. Theriogenology 2005, 64, 2022-2036.
  • 22.Leroy J. L. M. R., Vanholder T., Van Knegsel A. T. M., Garcia-Ispierto I., Bols P. E. J.: Nutrient prioritization in dairy cows early postpartum: mismatch between metabolism and fertility? Reprod. Dom. Anim. 2008, 43 (Suppl. 2), 96-103.
  • 23.Liefers S. C., Veerkamp R. F., te Pas M. F., Delavaud C., Chilliard Y., van der Lende T.: Leptin concentrations in relation to energy balance, milk yield intake, live weight, and estrus in dairy cows. J. Dairy Sci. 2003, 86, 799-807.
  • 24.Llewelyn S., Fritzpatrik R., Kenny D. A., Murphy J. J., Scaramuzzi R. J., Wathes D. C.: Effect of negative energy balance on the insulin-like growth factor system in pre-recruitment ovarian follicles of postpartum dairy cows. Reproduction 2007, 133, 627-639.
  • 25.Llewellyn S., Fitzpatrick R., Kenny D. A., Patton J., Wathes D. C.: Endometrial expression of the insulin-like growth factor system during uterine involution in the postpartum dairy cows. Domestic Anim. Endocrinol. 2008, 34, 391-402.
  • 26.Lopez-Diaz M. V., Bosu W. T. K.: A review and update of cystic ovarian degeneration in ruminants. Theriogenology 1992, 37, 1163-1170.
  • 27.Marczuk J.: Zespół stłuszczenia wątroby u krów mlecznych - aktualny problem diagnostyczny i terapeutyczny (The fatty liver syndrome in dairy cows - a current diagnostic and therapeutic problem). Lecznica Dużych Zwierząt 2010, 5, 94-99.
  • 28.Markusfeld O. N.: The multifactorial approach to fertility problems in dairy herds. Magyar Allatorvosok LAPJA 2008, (Suppl. 1), 77-81.
  • 29.Nowak T. A., Jaśkowski J. M., Olechnowicz J., Bukowska D.: Effect of cows' body condition during periparturient period and early lactation on post parturient development of ovarian follicles and size of corpus luteum. Medycyna Wet. 2009, 65, 762-764.
  • 30.Nowak T. A., Jaśkowski J. M., Olechnowicz J., Bukowska D.: Effect of cows' body condition during the periparturient period and early lactation on fertility and culling rate. Medycyna Wet. 2009, 65, 606-611.
  • 31.Nowak W.: Feed fat use in feeding of dairy cows. Zesz. Nauk. Prz. Hod. 2003, 69, 27-39.
  • 32.Opsomer G., Mijten P., Coryn M., de Kruif A.: Post-partum anoestrus in dairy cows: a review. Vet. Quart. 1996, 18, 68-75.
  • 33.Ponter A. A., Parsy A. E., Saade M., Mialot J. P., Ficheux C., Duvaux-Ponter C., Grimard B.: Effect of a supplement rich in linolenic acid added to the diet of postpartum dairy cows on ovarian follicle growth, and milk and plasma fatty acid compositions. Reprod. Nutr. Dev. 2006, 46, 19-29.
  • 34.Ropstad E., Larsen H. J., Refsdal A. O.: Immune function in dairy cows related to energy balance and metabolic status in early lactation. Acta Vet. Scand. 1989, 30, 209-219.
  • 35.Santos G., Grande P., Ribeiro H., Damasceno J., Alcalde C., Bartosa O., Horst J., Santos F.: Urea in milk and nutritional and reproductive state of dairy cows. 25th Jubilee World Buiatrics Congress 2008, 195, 872.
  • 36.Savio J. D., Boland M. P., Hynes N., Roche J. F.: Resumption of follicular activity in the early post partum period of dairy cows. J. Reprod Fertil. 1990, 88, 569-579.
  • 37.Schwarz T., Zięba D.: Nowe poglądy na wzrost i selekcję pęcherzyków jajnikowych u przeżuwaczy (New concepts concerning growth and selection of ovarian follicles in ruminants). Medycyna Wet. 1999, 55, 163-166.
  • 38.Sheldon I. M., Noakes D. E., Dobson H.: The influence of ovarian activity and uterine involution determined by ultrasonography on subsequent reproductive performance of dairy cows. Theriogenology 2000, 54, 409-419.
  • 39.Stagg K., Spicer L. J., Sreenan J. M., Roche J. F., Diskin M. G.: Effect of calf isolation on follicular wave dynamics, gonadotropin and metabolic hormone changes, and interval to first ovulation in beef cows fed either of two energy levels post partum. Biol. Reprod. 1995, 59, 777-783.
  • 40.Zhang Z., Liu G., Li X., Wang Z., Kong T., Zhang N., Guo Ch.: β-hydroxybutyrate, glucose, calcium, phosphorus, and vitamin C concentrations in blood of dairy cows with subclinical ketosis during the early lactation. Bull. Vet. Inst. Pulawy 2009, 53, 71-74.
  • 41.Zulu V. C., Sawamukai Y., Nakada K., Kida K., Moriyoshi M.: Relationship among insulin-like growth factor I, blood metabolites and postpartum ovarian function in dairy cows. J. Vet. Med. Sci. 2002, 64, 879-885.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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