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Bacteria from this family cause zoonotic infections in humans. These infections manifest themselves as skin or soft tissue infections after an animal bite. This species is found in chickens. [2] Infected chicken may exhibit sinusitis, nasal discharge, drop in egg production, and low mortality. [3]
The common occurrence of the bacteria is a reason to be medically proactive and defensive (antibacterial treatments are often necessary) if a bite occurs. [8] Several vaccine preparations were used to prevent Pasteurella infection. [9] New regimens for vaccination and vaccine formulation [10] [11] showed to be promising for the control of the ...
An animal bite is a wound, usually a puncture or laceration, caused by the teeth. An animal bite usually results in a break in the skin but also includes contusions from the excessive pressure on body tissue from the bite. The contusions can occur without a break in the skin. Bites can be provoked or unprovoked.
Pasteurella canis is a Gram-negative, nonmotile, penicillin-sensitive coccobacillus of the family Pasteurellaceae. [1] Bacteria from this family cause zoonotic infections in humans, which manifest themselves as skin or soft-tissue infections after an animal bite.
Neisseria animaloris, formerly named CDC group EF-4a, is a gram-negative coccoid rod.The bacterium is a commensal of the upper respiratory tract of cats and dogs, and they may cause pulmonary infections in cat. [1]
cefpodoxime – antibiotic; cephalexin – antibiotic, particularly useful for susceptible Staphylococcus infections; ciprofloxacin – antibiotic of quinolone group; clamoxyquine – antiparasitic to treat salmonids for infection with the myxozoan parasite, Myxobolus cerebralis; clavamox – antibiotic, used to treat skin and other infections
Pasteurella multocida is a Gram-negative, nonmotile, penicillin-sensitive coccobacillus of the family Pasteurellaceae. [1] Strains of the species are currently classified into five serogroups (A, B, D, E, F) based on capsular composition and 16 somatic serovars (1–16).
Genes for antibiotic resistance have gradually spread among other pathogenic bacterial species by horizontal gene transfer. [10] Susceptibility to various beta-lactam antibiotics has been described as variable depending on the strain of Capnocytophaga. [11] This resistance is often linked to the production of beta- lactamases.