Your search keyword '"Reppert EJ"' showing total 3 results

1. Optimal lameness induction model development using amphotericin B in meat goats.

Author

Weeder MM, Kleinhenz MD, Reppert EJ, Fritz BR, Viscardi AV, Montgomery SR, Martin MS, Curtis AK, Leslie AA, Lou ME, Hall MG, and Coetzee JF

Abstract

Lameness continues to be a critical health and welfare concern associated with goat production. Amphotericin B (amp B) is an antimicrobial successful in inducing transient lameness for research purposes previously in livestock animals. The objectives of this study were to (1) identify which of three varying doses of amp B would be most effective in inducing lameness in meat type goats and (2) develop a facial grimace scale for goats. Lameness was produced by an intra-articular injection of amphotericin B into the left hind lateral claw distal interphalangeal joint with either a 5 mg/0.25 mL (high-low, 5 mg of amphotericin B in a volume of 0.25 mL), 5 mg/0.5 mL (high-high, 5 mg of amphotericin B in a volume of 0.5 mL), or a 2.5 mg/0.25 mL (low-low, 2.5 mg of amphotericin B in a volume of 0.25 mL). A saline treatment of 0.5 mL was used as control (0.9% sterile saline solution). Lameness response was analyzed by infrared thermography (IRT) at the induced joint, mechanical-nociception threshold (MNT), visual lameness scoring (VLS), a visual analogue scale (VAS), kinetic gait analysis (KGA), plasma cortisol (CORT), substance P (Sub P), and behavior scoring. The IRT and MNT values differed by timepoint ( P  ≤ 0.0001). Results from VLS showed the HL treatment was the most effective at inducing lameness (6/6 goats became lame compared to HH 4/6 and LL 2/6). At 24, 48, and 72 h, VAS scores were significantly higher when comparing HL to all other treatment groups ( P  = 0.0003). Both behavior observers (1 and 2) reported a significant time effect ( P  = 0.05), with goats exhibiting more facial grimacing at 24 h post-lameness induction. From these data, an optimal dose for a repeatable lameness induction model in goats was aquired. An effective Goat Grimace Scale (GGS) was also developed to evaluate pain responses in goats., Competing Interests: The author and co-authors do not have any conflicts of interest to disclose., (© The Author(s) 2023. Published by Oxford University Press on behalf of the American Society of Animal Science.)

Published

2023

2. Development and evaluation of two different lameness models in meat goats, a pilot study.

Author

Reppert EJ, Kleinhenz MD, Viscardi A, Montgomery SR, Crane AR, and Coetzee JF

Abstract

Lameness is a serious health concern for livestock species. Understanding individual animal response to pain and characterization of lameness are critical when developing appropriate treatments. The objectives of this pilot study was to evaluate two different lameness models and measures for determining response to induced lameness in meat goats. Lameness was induced by intraarticular injection into the left hind lateral claw distal interphalangeal joint with either amphotericin B (Amp-B) or kaolin-carrageenan (K-C). Response to lameness was characterized by behavior scoring, visual lameness scoring (VLS), infrared thermography (IRT) of the affected digit, pressure mat gait analysis (PMT), and plasma cortisol (CORT) analysis. Lame goats had higher VLS compared to controls ( P = 0.003). Maximum temperatures measured in hooves from lame vs control goats were significantly higher ( P = 0.003). Pressure mat analysis demonstrated, when compared to controls, lame goats had decreased force ( P = 0.013), impulse ( P = 0.007), contact pressure ( P = 0.007), and contact area of the left hind limb ( P = 0.009). Mean CORT levels 4 and 6 h after lameness induction were higher in lame goats ( P = 0.005, P = 0.01). The two lameness methods reliably induced lameness of varying severity in healthy meat goats., (Published by Oxford University Press on behalf of the American Society of Animal Science 2020.)

Published

2020

3. Determination of plasma-chlortetracycline (CTC) concentrations in grazing beef cattle fed one of four FDA approved free-choice CTC-medicated minerals.

Author

Reppert EJ, Reif KE, Montgomery SR, Magnin G, Zhang Y, Martin-Jimenez T, Olson KC, and Coetzee JF

Abstract

Control of active bovine anaplasmosis in the United States is predicated on the use of chlortetracycline (CTC)-medicated feed throughout the vector season. However, data describing population pharmacokinetics of chlortetracycline in cows, on pasture, having free-choice access to CTC-medicated mineral for consecutive months is lacking. This study documented plasma-CTC concentrations in grazing cows during peak vector season in an anaplasmosis endemic herd. Each pasture was administered one of the four Food and Drug Administration approved CTC-medicated mineral formulations and were assigned as follows: 0.77 g/kg, Aureo Anaplaz C700 Pressed (Sweetlix Livestock Supplements, Mankato, MN); 5.5 g/kg, Purina Anaplasmosis Block (Purina Animal Nutrition, Gray Summit, MO); 6.6 g/kg, Stockmaster Aureo FC C6000 Mineral (Hubbard Feeds, Mankato, MN); 8.8 g/kg, MoorMan's Special Range Minerals AU 168XFE (ADM Animal Nutrition, Quincy, IL). Blood samples were collected monthly for determining plasma drug concentration by Ultra performance liquid chromatography (UPLC) and mass spectrometry. Continued plasma-CTC monitoring allowed for characterization of trends between treatment groups (pastures), age groups (<3 yr or >4 yr), and sampling times (June to October). Results indicate formulation (pasture) and time were significant factors affecting concentrations of CTC in plasma. Cows exposed to 5.5 g/kg block formulation recorded higher CTC plasma concentrations compared with other pasture groups ( P = 0.037). Plasma-CTC concentrations increased over time (month of measurement; P = 0.0005). Specifically, concentrations measured after 5 months of continuous CTC treatment were higher than those measured in earlier months., (Published by Oxford University Press on behalf of the American Society of Animal Science 2020.)

Published

2020