RESUMEN
The American Veterinary Medical Association recognizes castration to be important for both human and animal safety. Lidocaine delivered through-the-needle has been shown to be effective at reducing cortisol response to castration, but this method has drawbacks for both animals and caretakers. As such, a study was conducted to examine the potential benefits of lidocaine delivery using a pneumatic needle-free device immediately before standing bovine castration. Twelve Holstein bulls weighing 400.7 ± 39.5 kg (mean ± standard deviation) were enrolled. Bulls were allocated to receive a local anesthetic block of 2% lidocaine for surgical castration by traditional needle injection or by needle-free injection. Outcomes were collected out to 48 h postcastration. Outcome variables included plasma cortisol concentrations, visual analog scale scores for pain, medial canthus temperatures as measured using infrared thermography, pressure mat changes, and chute defense scores. A time effect was observed for cortisol, visual analog scale scores, infrared thermography temperatures, and some pressure mat outcomes. No statistically significant differences between lidocaine delivery methods were observed, but further research is needed to build upon this small dataset.
RESUMEN
Cautery hot-iron disbudding is a painful routine husbandry practice performed on many dairy farms and calf rearing facilities. Refinements to eliminate or reduce the pain associated with disbudding are desired. Carbon dioxide (CO2) laser scalpels cut and ablate tissue using high-power light energy. The objective of this study was to test the utility of a CO2 laser scalpel in bovine disbudding and to compare healing and pain measures with those of cautery hot-iron disbudding. Twelve Holstein bull calves (6-39 d of age) were enrolled in the study. Calves were randomly assigned into groups that were disbudded with a CO2 laser scalpel (n = 6) or cautery hot iron (n = 6). Calves were sedated with xylazine for the procedure and were given oral meloxicam and a local anesthetic block for analgesia. Outcome measures were maximum surface temperature by infrared thermography, mechanical nociception threshold (MNT) tests, and digital images for wound healing. The infrared thermography and MNT measures were collected before disbudding and out to 72 h postprocedure. Images for wound healing were collected before disbudding and at 6, 24, and 72 h and 7, 14, 28, and 42 d postdisbudding. Overall maximum surface temperatures were not different between groups (35.3 ± 0.3°C vs. 36.0 ± 0.3°C for laser and hot iron, respectively). No differences in overall MNT measures were noted between the laser calves (2.28 ± 0.19) and the hot-iron calves (2.42 ± 0.19 kg of force). All 6 calves in the laser group were completely healed by d 42, whereas only 4 out of 6 hot-iron calves were fully healed. These results suggest that disbudding calves using a CO2 laser scalpel may be painful based on the outcomes measured. Further research that focuses on pain associated with time points beyond those used in this study and that performs the procedure in unsedated calves is needed to fully evaluate its utility.