Hostname: page-component-848d4c4894-8kt4b Total loading time: 0 Render date: 2024-06-22T14:06:03.071Z Has data issue: false hasContentIssue false
  • English
  • Français

The effects of implanting prepuberal dairy heifers with anabolic steroids on live-weight gain, blood and urine composition and milk yield

Published online by Cambridge University Press:  27 March 2009

W. Little ,
R. M. Kay ,
D. J. Harwood  and
R. J. Heitzman
W. Little
Affiliation:
Agricultural Research Council, Institute for Research on Animal Diseases, Compton, Newbury, Berkshire RG16 Onn
R. M. Kay
Affiliation:
Agricultural Research Council, Institute for Research on Animal Diseases, Compton, Newbury, Berkshire RG16 Onn
D. J. Harwood
Affiliation:
Agricultural Research Council, Institute for Research on Animal Diseases, Compton, Newbury, Berkshire RG16 Onn
R. J. Heitzman
Affiliation:
Agricultural Research Council, Institute for Research on Animal Diseases, Compton, Newbury, Berkshire RG16 Onn
Get access Rights & Permissions [Opens in a new window]

Summary

Twenty-seven British Friesian heifer calves were housed as a group but fed individually barley-lucerne pellets according to a scale related to body weight. At 16 weeks and again at 31 weeks of age nine calves were implanted subcutaneously at the base of the ear with 300 mg trenbolone acetate (group T), nine calves were similarly implanted with 140 mg trenbolone acetate and 20 mg oestradiol-17/? (group TE) and the remaining nine calves were sham implanted (group C).

As a result of increased feed conversion ratios, body-weight gains were significantly greater in group T (0–80 kg/day) and group TE (0–87 kg/day) than in group C (0–72 kg/ day) during the 15 weeks following the second implant, but there was no significant difference between groups following the first implant.

Following both implants in groups T and TE the mean concentrations of urea and albumin in serum decreased, and that of globulin increased. The mean urea: creatinine ratio in the urine of animals in groups T and TE relative to that in group C also decreased.

The heifers were served by an Aberdeen Angus bull at the first and, when they occurred, subsequent oestruses. Following calving the mean milk yields in the first lactation in group T (641 kg in 96 days) and group TE (1993 in 212 days) was considerably lower than in group C (3636 kg in 293 days). The udder size in both groups of animals treated with the anabolic steroids was markedly reduced. It is concluded that despite an improvement in feed conversion ratios and body-weight gains, trenbolone acetate should not be administered to prepuberal heifers which will be retained for breeding and milk production.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 93 , Issue 2 , October 1979 , pp. 321 - 327
Copyright
Copyright © Cambridge University Press 1979

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Griffiths, W. J. (1964). The determination of creatine in body fluids and muscle, and of phosphocreatine in muscle using the Autoanalyzer. Clinica Chimica Ada 9, 210213.CrossRefGoogle ScholarPubMed
Gropp, J., Boehncke, E., Schulz, V., Sandersleben, J., Geisel, O. & HÄnichen, T. (1976a). Die wirkung von 17β-ostradiol und trenbolonacetat in untersohiedlicher dosierung auf verschiedene physiologisehe und morphologische parameter (provokationsversucli). In Anabolika in der Kälbermast, pp. 3352. Hamburg, Berlin: Verlag Paul Parey.Google Scholar
Gropp, J., Herlyn, D., Boehncke, E., Schulz, V., Sandersleben, J., Hanichen, T. & Geisel, O. (1976b). Physiological data including evaluation of immuno-response in relation to anabolic effects on veal calves. In Anabolic Agents in Animal Production, pp. 131141. Stuttgart: Georg Thieme.Google Scholar
Heitzman, R. J. (1976). The effectiveness of anabolic agents in increasing rate of growth in farm animals; report on experiments in cattle. In Anabolic Agents in Animal Production, pp. 8998. Stuttgart: Georg Thieme.Google Scholar
Heitzman, R. J. & Chan, K. H. (1974). Alterations in weight gain and levels of plasma metabolites, proteins, insulin and free fatty acids following implantation of an anabolic steroid in heifers. British Veterinary Journal 130, 532537.CrossRefGoogle ScholarPubMed
Heitzman, R. J., Harwood, D. J., Kay, R. M., Little, W., Mallinson, C. B. & Reynolds, I. P. (1979). The effects of implanting propuberal dairy heifers with anabolic steroids on hormonal status, puberty and parturition. Journal of Animal Science 48, 859866.CrossRefGoogle ScholarPubMed
Kruskemper, H. L. (1968). Anabolic Steroids. New York, London: Academic Press.Google Scholar
Rothschild, M. A., Oratz, M. & Schreiber, S. S. (1972). Albumin synthesis. New England Journal of Medicine 286, 748757, 816–821.CrossRefGoogle ScholarPubMed
Rowlands, G. J., Little, W., Manston, R. & Dew, S. M. (1974). The effect of season on the composition of the blood of lactating and non-]actating cows as revealed from repeated metabolic profile tests on 24 dairy herds. Journal of Agricultural Science, Cambridge 83, 2735.CrossRefGoogle Scholar