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Standardization of a non-invasive methodology to measure cortisol in hair of beef cattle

Moya, D., Schwartzkopf-Genswein, K.S., Veira, D.M. (2013). Standardization of a non-invasive methodology to measure cortisol in hair of beef cattle, 158(1-3), 138-144.


A study was conducted to (a) determine if beef cattle hair contains cortisol at measurable concentrations, and (b) identify the effect of hair location and collection method on hair cortisol concentrations. Hair samples (0.5. g) from the head, neck, shoulder, hip, and switch were collected from twelve Angus cross bulls (313.1±14.7. kg BW) using two sampling methods: plucking, to ensure collection of the hair follicles; and clipping, using an electric razor to ensure collection of the hair as close as possible to the skin. After two washings with isopropanol, hair samples were ground with a ball mill for 5. min at 22. Hz, sonicated with methanol for 30. min, and incubated on a shaker for 18. h, at 50 °C and 100. rpm. The supernatant was pipetted off and evaporated in a block heater, at 45 °C under a stream of nitrogen. Samples were reconstituted with phosphate buffered saline before quantification of cortisol with a competitive immunoassay. The described method was successful in detecting cortisol in all the hair samples, with concentrations ranging from 0.30 to 5.31. pg/mg. The intra-assay coefficient of variation (CV) ranged from 3.6% to 6.0%, while the inter-assay CV ranged from 5.4% to 11.2%. The cortisol concentration was greater (P<0.05) in the hair from the tail (1.99±0.189. pg/mg) compared with the head and the shoulder (1.14 and 0.82±0.189. pg/mg, respectively), and in the hair from the neck and the hip (1.50 and 1.59±0.189. pg/mg, respectively) compared with the shoulder (0.82±0.189. pg/mg). Cortisol concentration was greater (P<0.01) in hair samples collected by clipping (2.35±0.176. pg/mg) than by plucking (1.75±0.176. pg/mg). There was a day×location interaction (P=0.01), where the hair from the head, neck and shoulder had a lower cortisol concentration at d 28 than at d 1 of the experiment. Data show a significant positive association between cortisol concentration in saliva samples and its level in hair from the hip (r=0.52) and the tail (r=0.63). There was also a trend for a positive association between fecal glucocorticoid metabolites and cortisol concentration in the hair from the neck and the tail (r=0.46 and 0.47, respectively). Results indicate that hair can be used as matrix to measure cortisol levels in beef cattle. Clipping hair from the tail seems to be the most suitable way for measuring cortisol concentration in hair. © 2013.

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