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Pharmacokinetics of Ciprofloxacin in Broiler Chickens After Single Intravenous and Intraingluvial Administration

). Pharmacokinetics, renal clearance and metabolism of ciprofloxacin following intravenous and oral administration to calves and pigs. Veterinary Quarterly 10, 156-163. https://doi.org/10.1080/01652176.1988.9694165 PMid:3176294 7. Walker, R.D., Stein, G.E., Hauptman, J.G., MacDonald, K.H., Budsberg, S.C., Rosser, E.J.Jr. (1990). Serum and tissue cage fluid concentrations of ciprofloxacin after oral administration of the drug to healthy dogs. American Journal of Veterinary Research 51, 896-900. 8. Parikh, V., Shivprakash, K., Patel, D., Gandhi, T

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Pharmacokinetic Behavior of Marbofloxacin in Plasma from Chickens at Different Seasons

., Wang, L., Shen, X., Gu, X., Zeng, D., Zeng, Z. (2013). Plasma and tissue pharmacokinetics of marbofloxacin in experimentally infected chickens with Mycoplasma gallisepticum and Escherichia coli. J. Vet. Pharmacol. Ther. 36, 511-515. https://doi.org/10.1111/jvp.12049 PMid:23550715 5. El-Komy, A., Attia, T., El Latif, A., Fathy, H. (2016). Bioavailability pharmacokinetics and residues of marbofloxacin in normal and E. coli infected broiler chicken. In. J. Pharmacol. Tox. 2 (4): 144-149. 6. Huang, X., Chen, Z., Zhang, S., Zeng, Z. (2003). Influence of

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Pharmacokinetics of Doxycycline in Ducks with Steatosis due to Force-feeding

REFERENCES 1. Pijpers, A., Van Klingeren, B., Schoevers, E.J., Verheijden, J.H.M., Van Miert, A.S. (1989). In vitro activity of five tetracyclines and some other antimicrobial agents four porcine respiratory tract pathogens. J. Vet. Pharmacol. Ther. 12, 267–276. http://dx.doi.org/10.1111/j.1365-2885.1989.tb00670.x PMid:2810475 2. Anadón, A., Martínez-Larra-aga, M.R., Diaz, M.J., Bringas, P., Fernandez, M.C., Fernandez-Cruz, M.L., Iturbe, J., Martínez, M.A. (1994). Pharmacokinetics of doxycycline in broiler chickens. Avian Pathol. 23, 79-90. http

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Comparative Study of the Pharmacokinetics of Inorganic and Organic Iron Compounds in Broiler Chickens

References 1. Geisser, P., Burckhardt, S. (2011). The Pharmacokinetics and Pharmacodynamics of Iron preparations. Pharmaceutics, 3(1): 12-33. 2. Egli, A. K., Franstad, T., Gramingen, D. (1998). The effect of per oral administration of aminoacid chelated iron to pregnant sows in prevention sow and piglet anemia. Acta Veterinaria Scandinavica 39(1): 77-87. 3. Andrews, N. C. (1999). Disorders of iron metabolism. The New England Journal of Medicine 341, 1986-1995. 4. Kalantaz-Zadeh, K. E., Steja, E

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Development of a UHPLC-MS/MS method for the determination of quercetin in milk and its application to a pharmacokinetic study

References 1. de Boer V.C., Dihal A.A., van der Woude H., Arts I.C., Wolffram S., Alink G.M., Rietjens I.M., Keijer J., Hollman P.C.: Tissue distribution of quercetin in rats and pigs. J Nutrit 2005, 135, 1718–1725. 2. Chang L., Ren Y., Cao L., Sun Y., Sun Q., Sheng N., Yuan L., Zhi X., Zhang L.: Simultaneous determination and pharmacokinetic study of six flavonoids from Fructus Sophorae extract in rat plasma by LC–MS/MS. J Chrom B 2012, 904, 59–64. 3. Coppin J.P., Xua Y., Chena H., Pan M.H., Hoc Ch.T., Juliani R., Simon J.E., Wu Q

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The progress in study of fosfomycin

, phosphonomycin amino butyl alcohol three salt granules, and fosfomycin two sodium salt for injection. Although the clinical application of phosphomycin has increased in recent years, there are few clinical reports in China. According to the related literatures at home and abroad, this review briefly introduces fosfomycin in the following three aspects: progress in synthetic methods, pharmacokinetic and pharmacodynamic characteristics, and antibacterial activities, to provide references for clinical rational use. 2 The synthesis of fosfomycin Fosfomycin was first

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Withdrawal of amoxicillin and penicillin G procaine from milk after intramammary administration in dairy cows with mastitis

References 1. Bengtsson B., Jacobsson S.O., Luthman J., Franklin A.: Pharmacokinetics of penicillin-G in ewes and cows in late pregnancy and in early lactation. J Vet Pharmacol Ther 1997, 20, 258–261. 2. Błądek T, Posyniak A, Gajda A, Gbylik M, Żmudzki J.: Multi-class procedure for analysis of antibacterial compounds in animal tissues by liquid chromatography tandem mass spectrometry. Bull Vet Inst Pulawy 2011, 55, 741–748. 3. Bruno F., Curini R., di Corcia A., Nazzari M., Samperi R.: Solid-phase extraction followed by liquid chromatography

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Pharmacokinetic - pharmacodynamic model and ampicillin residue depletion after intramammary administration in cows

., Marosevic D., Jaglic Z.: Prevalence of mastitis pathogens in milk from clinically healthy cows. Med Weter 2013, 58, 567–575. 4. Christensen J.M., Smith B.B., Murdena S.B., Hollingshead N.: The disposition of five therapeutically important antimicrobial agents in llamas. J Vet Pharmacol Ther 1996, 19, 43–438. 5. Concordet D., Toutain P.L.: The withdrawal time estimation of veterinary drugs revisited. J Vet Pharmacol Ther 1997, 20, 380–386. 6. Craigmill A.L., Pass M.A., Wetzlich S.: Comparative pharmacokinetics of AMX administered intravenously to sheep

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Determination of Free Doxycycline Concentrations in the Plasma and Milk of Sheep and in the Plasma of Rabbits by using the HPLC Method

REFERENCES 1. Chopra, I., Roberts, M. (2001). Tetracycline antibiotics: Mode of action, applications, molecular biology, and epidemiology of bacterial resistance. Microbiol Mol Biol Rev. 65 (2): 232-260. https://doi.org/10.1128/MMBR.65.2.232-260.2001 PMid:11381101 PMCid:PMC99026 2. Valentín, S., Morales, A., Sánchez, J.L., Rivera, A. (2009). Safety and efficacy of doxycycline in the treatment of rosacea. Clin Cosmet Investig Dermatol. 2, 129-140. PMid:21436975 PMCid:PMC3047926 3. Agwuh, K. N., MacGowan, A. (2006). Pharmacokinetics and

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Effect of selected nonsteroidal anti-inflammatory drugs on the viability of canine osteosarcoma cells of the D-17 line: in vitro studies

the control of ocular inflammation in the dog: pharmacokinetics, and clinical results obtained in an experimental model. J Small Anim Pract 1996, 37, 371–375. 10.1111/j.1748-5827.1996.tb02418.x Roze M. Thomas E. Davot J.L. Tolfenamic acid in the control of ocular inflammation in the dog: pharmacokinetics, and clinical results obtained in an experimental model J Small Anim Pract 1996 37 371 375 17 Ru G., Terracini B., Glickman L.T.: Host related risk factors for canine osteosarcoma. Vet J 1998, 156, 31–39. 10.1016/S1090

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