Bartonella spp. are becoming recognized as widespread organisms in many species of animals. For example, 98% of deer killed on roads in the northwest, 93% of mule deer in the east, and 89% of beef cattle and 17% of dairy cattle in Oregon carry Bartonella spp. Each animal species can be infected with a different one of 12 species of Bartonella. Species of Bartonella that have been shown to infect cats include B. henselae, B. clarridgeiae, and B. kochlerae. Most cases of Cat Scratch Disease in people are caused by B. henselae. In dogs, B. vinsonii is the most commonly reported Bartonella species, although B. henselae also is seen.

Bartonella spp. are not free-living organisms and require a reservoir host. Transmission from reservoir hosts is via arthropod vectors (body lice, sandfleas, ticks, fleas). Bartonella spp. are carried in red blood cells but only ~ 3% of these blood cells are typically infected. Endothelial cell proliferation of the organism causes lesions. Cat Scratch Disease is the most common zoonotic disease, and affects children and adults with equal frequency. Immunocom-promised people are also at risk for more serious complications of Bartonella infections including bacillary angiomatosis, bacillary peliosis hepatitis, and fever with bacteremia.

Cats. There is a high prevalence of Bartonella infection in cats, which are usually asymptomatic carriers of the organism. Prevalence varies geographically, but the organism prefers high heat and humidity, and the presence of arthropod vectors (e.g., New Jersey, ~ 25%; southeast, Georgia, Florida, ~ 40%; west coast, California, Oregon, ~ 45%; high Rockies, ~ 10%; desert, ~ 8%.) Infections in cats can persist for years.

Bartonella has been reported as a possible cause of uveitis, and stomatitis and lymphadenitis in FIV-infected cats. It may also be responsible for some chronic insidious diseases for which we presently don’t know the etiology. Transient fever, mild anemia, eosinophilia, neurological signs, (vestibular disease, staring into space), and cataracts were reported in cats experimentally infected with B. henselae or clarridgeiae. Necropsy findings in these cats revealed lymphocytic cholangitis, lymphocytic hepatitis, splenic lymphoid hyperplasia, and lymphoplasmacytic myocarditis. In catteries, Bartonella infections may cause decreased reproductive efficiency in females.

Dogs. Although of low prevalence, B. vinsonii has been documented as a cause of endocarditis in 4 dogs. A closely related organism is suspected to cause myocarditis and endocarditis in North Carolina where Bartonella seroprevalence is low (3-4% of dogs). Bartonella spp. may also cause unexplained epistaxis, idiopathic arthritis, granulomatous lymphadenitis and rhinitis in dogs.

There is still much to be learned about diagnosing Bartonella infections. Serology may be the most sensitive method of detecting exposure to Bartonella spp. In general, a strong positive antibody titer in a cat indicates the presence of Bartonella. Antibody titers persist in the presence of chronic infection. The organism can be cultured from the blood in 80% of cats with mid to high antibody titers. Some false negative serology tests occur especially if the cat is also FIV infected.

Antibodies developed by cats against Bartonella spp. are cross-reactive against other Bartonella spp. Hence, serological testing with use of B. henselae as the test antigen will detect presence of antibodies not only against B. henselae, but also against B. clarridgeiae and possibly other Bartonella organisms some of which may not be pathogenic.

The age to begin to test cats is after maternal antibody has waned (believed to be > 6 months old). Bartonella spp. are not transmitted in utero and cannot be transferred by direct contact.

As Bartonella organisms can be transmitted by transfusion, all blood donor cats should be tested for Bartonella infection. However, at this point, screening all healthy cats appears unwarranted. For households where there are immunosuppressed people, it would be important to screen their cats.

Bartonella spp. can also be detected with blood culture or PCR testing. The sensitivity of these techniques for documenting the infection may be relatively poor due to the low numbers of organisms in the blood.

Doxycycline (50 mg q. 12 hrs for 42 days) has been reported to be effective in clearing Bartonella bacteremia in 5/7 naturally infected cats for > 1 year. How-ever, in 2/7 cats, the organism was isolated again after 1 year. In 3 of the 5 cats where treatment was successful, antibody titers declined 4 to 8-fold at 6 weeks post-treatment. In the 2 cats failing treatment, there was no decline in antibody titer. Another investigator reported difficulty clearing bacteremia with doxycycline in experimentally infected cats.

Azithromycin (5 mg/kg q. 24 hrs for 14 days) may be an effective treatment in cats. Other macrolides, such as erythromycin, also may be effective. In people, aminoglycosides and penicillin have been used together because of their synergistic effects.

Test Code       #16890
Specimen Requirements       Serum (0.50 ml)
Turnaround Time       2–3 days

Test Code       #1315
Specimen Requirements       Whole Blood (1 LTT; at least 1 ml)
Turnaround Time       2–3 days

Test Code       #16001
Specimen Requirements       Whole Blood (1 LTT; at least 1 ml)
Turnaround Time       2–4 weeks