Difference between revisions of "Baytril"
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Pregnancy category: AU: B3 | *Pregnancy category: AU: B3 | ||
Metabolism: Kidney and non-kidney | *Metabolism: Kidney and non-kidney | ||
Excretion: Bile duct (70%); kidney (30%) | *Excretion: Bile duct (70%); kidney (30%) | ||
AHFS/Drugs.com: International Drug Names | *AHFS/Drugs.com: International Drug Names | ||
ATCvet code: QJ01MA90 (WHO) QD06BA51 (WHO) | *ATCvet code: QJ01MA90 (WHO) QD06BA51 (WHO) | ||
Bioavailability: 80% in dogs, 65-75% in sheep | *Bioavailability: 80% in dogs, 65-75% in sheep | ||
Elimination half-life: 4–5 hours in dogs, 6 hours in cats, 1.5 - 4.5 hours in sheep | *Elimination half-life: 4–5 hours in dogs, 6 hours in cats, 1.5 - 4.5 hours in sheep | ||
*Antimicrobial Agents Used in Rabbits | |||
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Broome RL, Brooks DL. Efficacy of enrofloxacin in the treatment of respiratory pasteurellosis in rabbits. Lab Anim Sci 1991;41:572-576. | Broome RL, Brooks DL. Efficacy of enrofloxacin in the treatment of respiratory pasteurellosis in rabbits. Lab Anim Sci 1991;41:572-576. | ||
Baytril has also been effective to treat early onset cases in trials 2014. | |||
https://bmcvetres.biomedcentral.com/articles/10.1186/s12917-014-0276-6 | |||
Alternative treatment of serious and mild Pasteurella multocida infection in New Zealand White rabbits | |||
Orsolya Palócz, János Gál, Paul Clayton, Zoltán Dinya, Zoltán Somogyi, Csaba Juhász & György Csikó | |||
BMC Veterinary Research volume 10, Article number: 276 (2014) | |||
Pasteurella multocida causes numerous economically relevant diseases in livestock including rabbits. Immunization is only variably effective. Prophylactic | |||
antibiotics are used in some species but are contra-indicated in rabbits, due to their adverse effects on the rabbit microbiota. There is therefore a substantial | |||
need for alternative forms of infection control in rabbits; we investigated the effect of oral β-glucan on P. multocida infection in this species. | |||
Results | |||
Thirty-five New Zealand White rabbits were randomly divided into five groups of seven animals. Three groups were inoculated with Pasteurella multocida | |||
intranasally (in.), a physiologically appropriate challenge which reproduces naturally acquired infection, and received either (1-3), (1-6) β-glucans or placebo. | |||
Four other groups were inoculated both in. and intramuscularly (im.), representing a supra-physiological challenge, and received either (1-3), (1-6) β-glucans, | |||
antibiotic or placebo. β-glucans given prophylactically were highly effective in protecting against physiological (in.) bacterial challenge. They were less | |||
effective in protecting against supra-physiological bacterial challenge (in. and im.), although they extended survival times. This latter finding has practical | |||
relevance to breeders as it extends the window in which heavily infected and symptomatic animals can be salvaged with antibiotics. | |||
Conclusions | |||
In our study, (1-3), (1-6) β-glucans were highly effective in protecting against a model of naturally acquired P. multocida infection and extended survival times | |||
in the supra-physiological model. Enrofloxacin(baytril) was effective in protecting against supra-physiological infection. We are currently reviewing the use of combined | |||
prophylaxis. | |||
===GI stasis protocol=== | |||
• Use only when indicated; enrofloxacin or trimethoprim/sulfa are generally the drugs of choice; use parenterally until stools are passed; metronidazole may be indicated for anaerobe overgrowth | |||
*Broome RL, Brooks DL, Babish JG, et al. Pharmacokinetic properties of enrofloxacin in rabbits. Am J Vet Res 1991;52:1835-1841. | *Broome RL, Brooks DL, Babish JG, et al. Pharmacokinetic properties of enrofloxacin in rabbits. Am J Vet Res 1991;52:1835-1841. | ||
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==Dose:== | ==Dose:== | ||
Enrofloxacinb (Baytril, Bayer) | |||
Dosage: | |||
200 mg/L drinking water 14 days | |||
5 mg/kg IM, IV q12-24h44 Angora rabbits/PD | |||
5 mg/kg PO, SC, IM, IV PD;19,23 clinical trial for pasteurellosis, 14 days | |||
5-10 mg/kg PO, SC, IM q12h Pasteurellosis | |||
5-20 mg/kg PO, IM q12h 3 14-30 days Pasteurellosis | |||
==Indications:== | ==Indications:== | ||
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==notes== | ==notes== | ||
May cause arthropathies in young dogs, but similar effects using standard dosages in rabbits have not been reported; SC and IM injections may cause muscle necrosis or sterile abscesses; dilute before giving parenterally | |||
----- | ==References== | ||
Exotic animal formulary / editor, James W. Carpenter ; associate editor, Christopher J. Marion. -- 4th ed. p. ; cm. | |||
ISBN 978-1-4377-2264-2 (pbk.) I. Carpenter, James W. (James Wyman). II. Marion, Christopher J. | |||
[DNLM: 1. Veterinary Drugs--Formularies. 2. Animals, Domestic--Formularies. 3. Animals, Wild--Formularies. 4. Animals, Zoo--Formularies. 5. Drug Therapy--veterinary--Formularies. SF 917] |
Latest revision as of 21:39, 2 August 2023
This antibiotic is widely used in veterinary medicine as an antibacterial agent, showing high activity against both Gram-negative and Gram-positive bacteria Enrofloxacin, sold under the brand name Baytril, among others, is a fluoroquinolone antibiotic used for the treatment of animals. It is a bactericidal agent. The bactericidal activity of enrofloxacin is concentration-dependent, with susceptible bacteria cell death occurring within 20–30 minutes of exposure.
- Pregnancy category: AU: B3
- Metabolism: Kidney and non-kidney
- Excretion: Bile duct (70%); kidney (30%)
- AHFS/Drugs.com: International Drug Names
- ATCvet code: QJ01MA90 (WHO) QD06BA51 (WHO)
- Bioavailability: 80% in dogs, 65-75% in sheep
- Elimination half-life: 4–5 hours in dogs, 6 hours in cats, 1.5 - 4.5 hours in sheep
- Antimicrobial Agents Used in Rabbits
Enrofloxacin uses and doses in Rabbits[edit | edit source]
Pasteurella Protocol[edit | edit source]
as been use for Pasteurella and respiratory issues, it more frequently masks of Pasteurella symptoms then cures. Baytril is a Broad spectrum Antibiotic so can be used to treat a wide range of issues, it is stronger then LA 200. Broome RL, Brooks DL. Efficacy of enrofloxacin in the treatment of respiratory pasteurellosis in rabbits. Lab Anim Sci 1991;41:572-576.
Baytril has also been effective to treat early onset cases in trials 2014.
https://bmcvetres.biomedcentral.com/articles/10.1186/s12917-014-0276-6 Alternative treatment of serious and mild Pasteurella multocida infection in New Zealand White rabbits Orsolya Palócz, János Gál, Paul Clayton, Zoltán Dinya, Zoltán Somogyi, Csaba Juhász & György Csikó BMC Veterinary Research volume 10, Article number: 276 (2014)
Pasteurella multocida causes numerous economically relevant diseases in livestock including rabbits. Immunization is only variably effective. Prophylactic antibiotics are used in some species but are contra-indicated in rabbits, due to their adverse effects on the rabbit microbiota. There is therefore a substantial need for alternative forms of infection control in rabbits; we investigated the effect of oral β-glucan on P. multocida infection in this species.
Results Thirty-five New Zealand White rabbits were randomly divided into five groups of seven animals. Three groups were inoculated with Pasteurella multocida intranasally (in.), a physiologically appropriate challenge which reproduces naturally acquired infection, and received either (1-3), (1-6) β-glucans or placebo. Four other groups were inoculated both in. and intramuscularly (im.), representing a supra-physiological challenge, and received either (1-3), (1-6) β-glucans, antibiotic or placebo. β-glucans given prophylactically were highly effective in protecting against physiological (in.) bacterial challenge. They were less effective in protecting against supra-physiological bacterial challenge (in. and im.), although they extended survival times. This latter finding has practical relevance to breeders as it extends the window in which heavily infected and symptomatic animals can be salvaged with antibiotics.
Conclusions In our study, (1-3), (1-6) β-glucans were highly effective in protecting against a model of naturally acquired P. multocida infection and extended survival times in the supra-physiological model. Enrofloxacin(baytril) was effective in protecting against supra-physiological infection. We are currently reviewing the use of combined prophylaxis.
GI stasis protocol[edit | edit source]
• Use only when indicated; enrofloxacin or trimethoprim/sulfa are generally the drugs of choice; use parenterally until stools are passed; metronidazole may be indicated for anaerobe overgrowth
- Broome RL, Brooks DL, Babish JG, et al. Pharmacokinetic properties of enrofloxacin in rabbits. Am J Vet Res 1991;52:1835-1841.
- Cabanes A, Arboix M, Anton JMG, et al. Pharmacokinetics of enrofloxacin after intravenous and intramuscular injection in rabbits. Am J Vet Res 1992;53:2090-2093.
- Elmas M, Uney K, Yazar E, et al. Pharmacokinetics of enrofloxacin following intravenous and intramuscular administration in Angora rabbits. Res Vet Sci 2007;82:242-245.
Drug class:[edit | edit source]
Dose:[edit | edit source]
Enrofloxacinb (Baytril, Bayer)
Dosage:
200 mg/L drinking water 14 days
5 mg/kg IM, IV q12-24h44 Angora rabbits/PD
5 mg/kg PO, SC, IM, IV PD;19,23 clinical trial for pasteurellosis, 14 days
5-10 mg/kg PO, SC, IM q12h Pasteurellosis
5-20 mg/kg PO, IM q12h 3 14-30 days Pasteurellosis
Indications:[edit | edit source]
Side Effects[edit | edit source]
During Pregnancy or Nursing[edit | edit source]
.
Patient Tips[edit | edit source]
Drug Interactions[edit | edit source]
Compare Alternatives[edit | edit source]
notes[edit | edit source]
May cause arthropathies in young dogs, but similar effects using standard dosages in rabbits have not been reported; SC and IM injections may cause muscle necrosis or sterile abscesses; dilute before giving parenterally
References[edit | edit source]
Exotic animal formulary / editor, James W. Carpenter ; associate editor, Christopher J. Marion. -- 4th ed. p. ; cm. ISBN 978-1-4377-2264-2 (pbk.) I. Carpenter, James W. (James Wyman). II. Marion, Christopher J. [DNLM: 1. Veterinary Drugs--Formularies. 2. Animals, Domestic--Formularies. 3. Animals, Wild--Formularies. 4. Animals, Zoo--Formularies. 5. Drug Therapy--veterinary--Formularies. SF 917]