Affects: Dogs
Brucella canis is a Gram-negative bacterium in the family Brucellaceae that causes brucellosis in dogs, other canids, and in rare cases, humans. It is a non-motile short-rod or coccus-shaped organism, and is oxidase, catalase, and urease positive. B. canis causes infertility in both male and female dogs. It can also cause inflammation in the eyes. The hosts of B. canis ranges from domestic animals to foxes and coyotes. It is a zoonotic organism, meaning it is able to be passed from animals to humans. It is passed from species to species via bodily fluids such as genital secretions and urine. Treatments such as spaying, neutering, and long-term antibiotics have been used to combat B. canis in dogs. The species was first described in the United States in 1966 where mass abortions of beagles were documented. Brucella canis can be found in both pets and wild animals and lasts the lifespan of the animal it has affected. B. canis has two distinct circular chromosomes that can attribute to horizontal gene transfer.
Transmission: B. canis is commonly transmitted during sexual intercourse, as well as physical contact with infected bodily fluids. B. canis is passed through contact with fluids from the mucous membranes of the genitals (semen and vaginal discharge), eyes, and oronasal cavities. The highest bacterial loads of B. canis are found in the genital secretions of dogs infected with the bacteria. Contact can occur during sexual activity as well as other daily grooming and social interactions. Though dog-to-dog transmission is most commonly during breeding, it can also happen after contact with uterine discharge, semen, and aborted material.
High levels of B. canis exist in these secretions in the six weeks following abortion in females, and around six to eight weeks following infection in males. Lower levels of B. canis still remain in the semen of infected males for two years following infection, which can serve as a large source of transmission to other dogs. Offspring of infected females can be infected with B. canis through intrauterine vertical transmission or via drinking the milk of the infected female.
Urine can also serve as a route of transmission in males, as the bladder resides in close proximity to the prostate and epididymus. The bacterial load in the urine of infected dogs is lower than in genital discharges. In their urine, infected dogs can carry up to 106 bacteria per milliliter, compared to the genital discharges that can carry up to 1010 bacteria per milliliter. This leads to contamination of the urine making it another vehicle for B. canis transmission. Infected dogs carry the highest bacterial load of B. canis after 1-6 months after infection. Infected neutered animals are not able to display reproductive symptoms, however both intact and neutered dogs are able to shed B. canis in urine. This means that both neutered and intact dogs are able to transmit the disease via urine. B. canis is found to be localized in the prostate of male dogs, thus transmitting through the urine in both intact and neutered males. It has been suggested that male dogs carry higher concentrations of the bacteria when compared to female dogs due contamination from seminal fluid. Neutered dogs are also capable of shedding the bacteria in their saliva and nasal secretions.
B. canis is the least common cause of Brucellosis in humans. Transmission to humans is rarely diagnosed but is possible. It can be transmitted via bodily fluids and aborted material. Signs and symptoms are very non-specific, such as fever, joint pain, and fatigue. The disease can also be debilitating, causing conditions such as endocarditis, splenomegaly, or neurologic symptoms.
Diagnosis And Treatment: In current practice for dogs, B. canis is diagnosed using PCR, cultures, and serologic testing. The most standard test for B. canis is culture. These cultures are typically conducted on the host's blood, vaginal discharge, or semen. However, this method is not effective if the dog has been treated with antimicrobial drugs, as this will clear B. canis bacteria even if the disease has not resolved. Serology is used to evaluate the antibody response against Brucella spp. cell wall antigens, the downfall of this method is its lack of specificity. PCR testing has shown potential as a rapid test, however it is not readily available and is currently considered an experimental test.
Currently, there are not commercially available vaccines for B. canis. Antimicrobial treatment and sterilization of the infected animals is considered an alternative to removing the animal. There have been reports of anti-Brucella vaccines (used for cattle and small ruminants), used along with previously mentioned methods but is not considered practical due to its risk of vaccine strain shedding in a domestic environment with current vaccines maintaining an amount of virulence for humans.
Treatment for B. canis is very difficult to find and often very expensive. This is due to B. canis being a intracellular bacteria, meaning it replicates inside of host cells rather than outside of them. This makes it difficult for antibiotics to reach the bacteria. Different antibiotics have been tried both alone and together, but none are completely effective at eliminating the disease. The combination of minocycline and streptomycin is thought to be useful, but it is often unaffordable. Tetracycline can be a less expensive substitute for minocycline, but it also lowers the effect of the treatment.