Pharmacokinetics and antibacterial activity of tiamulin after single and multiple oral administrations in geese

IF 1.9 Q2 AGRICULTURE, DAIRY & ANIMAL SCIENCE Veterinary and Animal Science Pub Date : 2023-10-21 DOI:10.1016/j.vas.2023.100317

Irene Sartini , Cristina Vercelli , Beata Lebkowska-Wieruszewska , Andrzej Lisowski , Charbel Fadel , Amnart Poapolathep , Filomena Dessì , Mario Giorgi

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Abstract

Tiamulin is an antibiotic approved exclusively in veterinary medicine, active against G-positive bacteria as well as Mycoplasma spp. and Leptospirae spp. The study was aimed to establish its pharmacokinetics and to evaluate drug effects on resistance in cloacal flora in vivo in geese. Eight healthy geese underwent to a two-phase longitudinal study (60 mg/kg single oral administration vs 60 mg/kg/day for 4 days) with a two-week wash-out period. Blood samples and cloacal swabs were collected at pre-assigned times. Minimal inhibitory concentration (MIC) has been evaluated for each isolated bacterial species. The pharmacokinetic parameters that significantly differed between the groups were C_max (p = 0.024), AUC_0-t (p = 0.031), AUC_0-inf (p = 0.038), t1/2_kel (p = 0.021), Cl/F (p = 0.036), and Vd/F (p = 0.012). Tiamulin exhibited a slow to moderate terminal half-life (3.13 h single; 2.62 h multiple) and a rapid absorption (1 h single; 0.5 h multiple) in geese, with an accumulation ratio of 1.8 after multiple doses. An in-silico simulation of multiple dosing did not reflect the results of the in vivo multiple dosage study. In both treatments, the MIC values were very high demonstrating a resistance (> 64 μg/ml) against tiamulin that can be present prior the drug administration for some strains, or emerge shortly after the commencing of treatment for some others.

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鹅单次和多次口服天霉素的药代动力学和抗菌活性

Tiamulin是一种兽药专用抗生素，对g阳性菌以及支原体和钩端螺旋体均有抑制作用，本研究旨在建立其在鹅体内的药代动力学，并评价其对鹅体内肠道菌群的耐药性影响。8只健康鹅进行了两期纵向研究(60 mg/kg单次口服vs 60 mg/kg/天，连续4天)，洗脱期为2周。在预先指定的时间采集血液样本和肛肠拭子。最小抑菌浓度(MIC)已被评估为每个分离的细菌种类。组间差异显著的药代动力学参数为Cmax (p = 0.024)、AUC0-t (p = 0.031)、AUC0-inf (p = 0.038)、t1/2kel (p = 0.021)、Cl/F (p = 0.036)、Vd/F (p = 0.012)。Tiamulin表现出缓慢到中等的末端半衰期(3.13 h;2.62 h多次吸收)和快速吸收(1 h单次吸收;0.5 h倍数)，多次给药后积累比为1.8。多次给药的计算机模拟并不能反映体内多次给药研究的结果。在两种处理中，MIC值都非常高，显示出耐药性(>64 μg/ml)对tiamulin的抑制作用，对某些菌株可能在给药前出现，或对其他一些菌株在开始治疗后不久出现。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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