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This Article Full Text Full Text (PDF) All Versions of this Article: jas.2007-0335v1 86/13_suppl/15    most recent Alert me when this article is cited Alert me if a correction is posted Services Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Download to citation manager Citing Articles Citing Articles via HighWire Citing Articles via Google Scholar Google Scholar Articles by Bruckmaier, R. M. Articles by Wellnitz, O. Search for Related Content PubMed PubMed Citation Articles by Bruckmaier, R. M. Articles by Wellnitz, O.

Induction of milk ejection and milk removal in different production systems¹

Veterinary Physiology, Vetsuisse Faculty, University of Bern, Switzerland

² Corresponding author: rupert.bruckmaier{at}physio.unibe.ch

Milk ejection is important during milking or suckling to obtain the alveolar milk fraction, which can represent more than 80% of the milk stored in the udder of dairy cows. In response to tactile teat stimulation, either manually or by the milking machine, milk ejection is induced by the release of oxytocin and resultant myoepithelial contraction. The time from the start of tactile stimulation until the occurrence of milk ejection spans 40 s to > 2 min and increases with a decreasing degree of udder filling. Therefore, cows need a longer prestimulation in the late stages of lactation or if the milking is performed shortly after the previous milking, whereas in full udders prestimulation is less important. Milk ejection is disturbed under several conditions, such as during milking in unfamiliar surroundings (i.e., a novel milking environment) or for several weeks immediately after parturition in primiparous cows. Disturbed milk ejection is due to a reduction of or absence of oxytocin release from the pituitary. The severity of disturbed milk ejection and the coping capacity toward a novel milking environment is related to cortisol release in response to ACTH (i.e., adrenal cortex activity). Therefore, susceptibility of individual cows to the inhibition of oxytocin release and milk ejection can be predicted by an ACTH challenge test. Comfortable surroundings, such as feeding in and lighting of the milking parlor, can increase the secretion of oxytocin. Overcoming the lack of oxytocin release by injection of exogenous oxytocin for an extended time results in a reduction of the mammary response to endogenous oxytocin. In different production systems, it has to be verified that udder stimulation is sufficient to prevent disturbed milk ejection. Different brands of automatic milking systems induce a sufficient prestimulation of the udder, even if a few minutes are needed for a successful onset of the teat clusters. Specific breeds used for less intense milk production may need the presence of their calves for sufficient oxytocin release during milking. In conclusion, in all milk production systems, the maximal possible reduction of stress has to be targeted and proper udder prestimulation must be performed for an optimal milking of the cow by the farmer.

Key Words: milk removal • milk ejection • oxytocin • mammary gland • dairy cow

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