Abstract
The study objective was to evaluate steer growth performance, sera metabolite responses, carcass characteristics, and pulmonary arterial pressure as affected by body weight at time of implantation and steroidal implant administration. Crossbred steers (n = 20) were used in a 2 × 2 factorial arrangement of treatments in a completely randomized design experiment, Factors included: body weight: light (L), or heavy (H) and implant: Non-implanted (NoIMP), or Implanted (IMP) with steer serving as the experimental unit for all analyses. Initial weights for L and H steers were 398 ± 27.6 and 547 ± 25.2 kg, respectively. Implanted steers received a terminal implant (200 mg trenbolone acetate and 20 mg estradiol-17β; Revalor-200; Merck Animal Health, Madison, NJ) on d 0. Cattle within treatments were group housed in common pens (n = 5 steers/pen). Bodyweight, blood samples, and pulmonary arterial pressure were collected on d 0, 14, 35, 70 and 104. Cattle were fed a common diet once daily to provide ad libitum access to feed. The finishing diet contained (DM basis) 13.3% CP, 2.13 Mcal/kg NEm, and 1.45 Mcal/kg NEg. Growth performance (body weight and ADG) and carcass traits were analyzed using the MIXED procedure of SAS 9.4 (SAS Inst. Inc., Cary, NC). Sera metabolites were analyzed as repeated measures over time, with day as the repeated measure. For all analyses, α level 0.05) in ADG were observed in NoIMP vs. IMP cattle beyond d 70 (1.21 vs. 1.01 ± 0.16 kg; P = 0.38). Sera urea-N concentrations were decreased (P 0.49). The study reaffirms the effects of implanting on animal growth performance and carcass characteristics in cattle. In addition, elevated BW leads to increased pulmonary arterial pressures which may increase the risk of right-sided heart failure.
Highlights
Growth enhancing technologies such as implants have been used in the cattle industry since the early 1950’s [1]
Statistical analyses were not conducted for dry matter intake (DMI) and feed conversion (G:F)
Cattle of differing size respond to implants differently as evidenced by the changes in non-esterified fatty acid (NEFA) and sera urea-N (SUN) post-implantation
Summary
Growth enhancing technologies such as implants have been used in the cattle industry since the early 1950’s [1]. Research by [4] has shown both live and carcass weights have continued to increase over the last 50 years. They reported an increase in mortality in both steers (27.6%) and heifers (30.5%) in the same survey [4]. With increasing live and carcass weights limited research has been conducted, which looks at the growth performance differences of implants in cattle of differing body weights. The objectives of this research were to evaluate BW at time of implant administration and steroidal implant application on animal growth performance, carcass characteristics, sera metabolites responses, and pulmonary arterial pressure in feedlot cattle
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