强力霉素在斑点叉尾体内药物动力学及残留消除规律研究

STUDIES ON TISSUE DISTRIBUTION AND THE ELIMINATION REGULARITY OF DOXYCYCLINE RESIDUES IN ICTALURUS PUNCTATUS

  • 摘要: 研究利用高效液相色谱法研究了强力霉素在斑点叉尾(Ictalurus punctatus)体内的药物动力学与消除规律, 有助于制定合理用药方案和休药期, 为水产品质量安全提供理论依据。(1)单次口服剂量20 mg/kg 强力霉素在斑点叉尾体内的药时数据符合二室开放式模型。药-时曲线呈明显双峰现象: 第一次达峰时, 强力霉素在肾、血和肌肉中浓度迅速上升, 达峰时间Tmax (1)出现在30min, 强力霉素在肝脏中浓度上升缓慢, 出现在1h; 肝、肾、血和肌肉第二次达峰的时间Tmax (2)出现在8h, 第二次达峰浓度Cmax(2)大于第一次的浓度Cmax (1)。 药-时曲线下面积(AUC): 肾、肝、血和肌肉分别为63.242、1282.077、142.379、62.348 μg·h /mL。消除半衰期T1/2b: 肾、肝、血和肌肉分别为40.668、48.767、36.527、31.091h, 平均滞留时间(MRT): 肾、肝、血和肌肉分别为46.585、56.989、48.859、42.428h; (2)连续口服剂量20 mg/kg 的强力霉素5d, 停药后强力霉素在斑点叉尾肝脏中浓度最高, 肌肉+皮中浓度最低。在不同组织中强力霉素的消除速率不同(P<0.05), 药物消除速度由高到低依次为肌肉+皮、肾脏、肝脏。若以肝脏为靶组织, 最高残留限量300 μg/kg,休药期不低于30d; 若以可食组织肌肉+皮为靶组织, 最高残留限量300 μg/kg, 休药期不低于19d。

     

    Abstract: Doxycycline (DOTC), a tetracycline broad-spectrum antibiotic, is widely used for the treatment of systemic bacterial infections. The broad spectrum antibiotic doxycycline has commonly been used in channel catfish (Ictalurus punctatus) aquaculture to prevent and treat bacterial diseases. In order to study the tissue distribution and elimination of doxycycline in channel catfish, single and continuous for 5 days oral administration (20 mg/kg) body weight of DOTC has been investigated in healthy channel catfish at (28±1) . This is the first report about tissue distribution and residue℃ s of DOTC in channel catfish. The results indicated that: 1) The concentration-time course of DOTC in the tissues could be described by a two-compartment open model after a single oral administration at a dose of 20 mg/kg, which showed an obvious double-peak phenomenon. The main pharmacokinetic parameters were as follows: Tmax (1) was about 30min in kidney, blood and muscle, which was 1h in liver. Cmax(1) was 16.641 ± 0.335, 1.139 ± 0.204, 0.58 ± 0.394, 0.881 ± 0.020 mg/kg in liver, kidney, blood and muscle respectively. Cmax(2) was exceeded the corresponding Cmax(1). Tmax (2) was 8h in kidney, blood and muscle, which was 12h in liver. Cmax(2) was 35.907 ± 0.378, 1.173 ± 0.213, 4.26 ± 0.714 and 2.027 ± 0.051 μg/kg in liver, kidney, blood and muscle respectively. The pharmocokinetics of DOTC displayed various favorable properties, including large distribution volume and prolonged elimination half-life. The area under concentration-time curve (AUC) was 63.242, 1282.076, 142.379 and 62.348 μg/mL·h in kidney, liver, blood and muscle respectively. The elimination half-life (T1/2b) was 31.091—126.527h, and the retention time (MRT) was 40.85—56.585h. 2) At the temperature of (28±1)℃, channel catfish were treated with DOTC by oral administration at a dose of 20 mg/kg body weight body for five days. The result indicated that the concentration of DOTC in liver was higher than other tissues, and the concentration of DOTC in skin was the lowest after 5 days withdrawal. The speed from fast to slow was muscle and skin, kidney and liver. It showed that liver was the main absorbing tissue, and muscle had a poor absorbability. These observations indicated that the drug might constitute a good option for the treatment of certain infectious diseases in channel catfish. If take liver as target tissue in this experiment, according to the maximum residue limit (MRL) of 300 μg/kg in liver, the withdrawal period should not be less than 30d under this experiment condition. And if take an edible tissue of muscle and skin as target tissue in this experiment, according to the maximum residue limit (MRL) of 300 μg/kg in muscle and skin,the withdrawal period should not be less than 19d. In conclusion, the reliable theory was the basis to make dosage regimen and withdrawal time based on the study.

     

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