Inj.
Amflor Vet
Drug Class: Antibiotic
Generic Drug: Florfenicol
View Alternative Brand Names (2)Manufacturer: Acme Laboratories LTD.
Basic information
Presentation and price
10 ml vial
30 ml vial
Dose and dosage
1ml/7.5kg body weight - SC q48 hours.
1ml/15kg body weight - IM q48 hours.
1ml/15kg body weight - IM q48 hours.
1ml/15kg body weight - IM q48 hours.
1ml/20kg body weight - IM q48 hours.
1ml/15kg body weight - IM q48 hours.
1ml/15kg body weight - IM q48 hours.
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Florfenicol has been shown to be effective for treatment of BRD in cattle associated with Mannheimia haemolytica, Pasteurella multocida, and Histophilus somni. It also
is used for treatment of bovine interdigital phlegmon (foot rot, acute interdigital necrobacillosis, and infectious pododermatitis) associated with Fusobacterium necrophorum and Bacteroides melaninogenicus and for treatment of infectious bovine keratoconjunctivitis caused by Moraxella bovis.
In pigs, florfenicol is used for treatment of swine respiratory disease (SRD) caused by Actinobacillus pleuropneumoniae, Pasteurella multocida, Salmonella choleraesuis,
and Streptococcus suis.
In cats, effective concentrations can be achieved with twice-daily administration. In dogs, the half-life is short, and frequent administration is necessary to produce effective concentrations. Florfenicol also has been administered to fish.
Long-term use in animals may cause bone marrow suppression.
Long-term use should be avoided in dogs and cats
Administration to horses has caused diarrhea, colitis, and elevations in bilirubin. Administration to horses is not recommended.
Do not administer more than 10 mL in a single site.
Mode of Action:
Florfenicol has a broad spectrum of antibacterial activity that includes all organisms sensitive to chloramphenicol, gram-negative bacilli, gram-positive cocci, and other atypical bacteria such as mycoplasma. Florfenicol is highly lipophilic, which provides high enough concentrations to treat intracellular pathogens and cross some anatomic barriers (penetration across the blood–brain barrier in cattle is 46%). It acts by binding to the 50S ribosome, thereby inhibiting bacterial protein synthesis.
Pharmacokinetics:
The half-life of florfenicol is 2–3 hours in cattle after IV administration, but it is prolonged (18 hours) after IM injection and 27 or 62 hours (depending on the study) after 40 mg/kg SQ. The peak concentration in cattle after 40 mg/kg SQ is 5.5 mcg/mL. In dogs, the half-life is shorter, with values of 1.1 and 1.2 after IV and oral administration, respectively. The half-lives in cats are approximately 4 hours and 7.8 hours after IV and oral administration, respectively. The protein binding is small.
florfenicol could antagonize the bactericidal activity of the penicillins or aminoglycosides. Other antibiotics that bind to the 50S ribosomal subunit of susceptible bacteria (erythromycin, clindamycin, lincomycin, tylosin, etc.) may potentially antagonize the activity of chloramphenicol or vice versa, but the clinical significance of this potential interaction has not been determined.
dose-dependent bone marrow depression
In toxicology studies where feeder calves were injected with up to 10X th erecommended dosage, the adverse effects noted above were seen, plus increased serum enzymes. These effects were generally transient in nature. Long-term (43 day) standard dosage studies showed a transient decrease
Safety or effects when used in breeding cattle or swine, during pregnancy, or during lactation are unknown and the manufacturer states that the drug is not for use in cattle of breeding age or in swine intended for breeding.
Cattle withdrawal time (meat): 28 days if administered IM; 38 days if administered SQ.
(40 mg/kg SQ) is 44 days.
Sheep: Apply at least 42-day slaughter withdrawal time.
Do not use in calves to be processed for veal.
Pig withdrawal time: 16 days after last treatment when administered in water; 13 days after last treatment when administered with feed.